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Apixaban noninferior to low-molecular-weight heparin in cancer-associated VTE
Background: VTE is common in patients with cancer and can lead to serious complications and death. Relatively recently, the use of edoxaban or rivaroxaban was recommended by major guidelines for the treatment of cancer-associated VTE. Previous studies have demonstrated a higher risk of major bleeding when compared with low-molecular-weight heparin. Whether oral apixaban can be safely used in this setting is unknown.
Study design: Randomized, controlled, open-label, noninferiority clinical trial.
Setting: Multinational study with patients enrolled in nine European countries, Israel, and the United States.
Synopsis: Adult patients with confirmed cancer who had a new diagnosis of proximal lower-limb deep vein thrombosis or pulmonary embolism were enrolled in the trial. Of those enrolled, 1,170 patients underwent randomization to receive either oral apixaban twice daily or subcutaneous dalteparin once daily. The primary outcome was recurrent deep vein thrombosis or pulmonary embolism. The principal safety outcome was major bleeding. Researchers followed patients for 7 months after randomization. The primary outcome occurred in 32 of 576 patients (5.6%) in the apixaban group and 46 of 579 patients (7.9%) in the dalteparin group (hazard ratio, 0.63; 95% CI, 0.37-1.07). Major bleeding occurred in 22 patients (3.8%) in the apixaban group and 23 patients (4.0%) in the dalteparin group (HR, 0.82; 95% CI, 0.40-1.69). Limitations were the open-label trial design; the exclusion of patients with primary brain tumors, cerebral metastases, or acute leukemia; and the sample size being powered for the primary outcome, rather than to allow definitive conclusions about bleeding. Additionally, long-term data are needed as patients were followed for only 7 months.
Bottom line: Apixaban was noninferior to subcutaneous dalteparin for the treatment of VTE in patients with cancer and did not increase bleeding.
Citation: Agnelli G et al. Apixaban for the treatment of venous thromboembolism associated with cancer. N Engl J Med. 2020 Apr 23;382:1599-607. doi: 10.1056/NEJMoa1915103.
Dr. Hermansen is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.
Background: VTE is common in patients with cancer and can lead to serious complications and death. Relatively recently, the use of edoxaban or rivaroxaban was recommended by major guidelines for the treatment of cancer-associated VTE. Previous studies have demonstrated a higher risk of major bleeding when compared with low-molecular-weight heparin. Whether oral apixaban can be safely used in this setting is unknown.
Study design: Randomized, controlled, open-label, noninferiority clinical trial.
Setting: Multinational study with patients enrolled in nine European countries, Israel, and the United States.
Synopsis: Adult patients with confirmed cancer who had a new diagnosis of proximal lower-limb deep vein thrombosis or pulmonary embolism were enrolled in the trial. Of those enrolled, 1,170 patients underwent randomization to receive either oral apixaban twice daily or subcutaneous dalteparin once daily. The primary outcome was recurrent deep vein thrombosis or pulmonary embolism. The principal safety outcome was major bleeding. Researchers followed patients for 7 months after randomization. The primary outcome occurred in 32 of 576 patients (5.6%) in the apixaban group and 46 of 579 patients (7.9%) in the dalteparin group (hazard ratio, 0.63; 95% CI, 0.37-1.07). Major bleeding occurred in 22 patients (3.8%) in the apixaban group and 23 patients (4.0%) in the dalteparin group (HR, 0.82; 95% CI, 0.40-1.69). Limitations were the open-label trial design; the exclusion of patients with primary brain tumors, cerebral metastases, or acute leukemia; and the sample size being powered for the primary outcome, rather than to allow definitive conclusions about bleeding. Additionally, long-term data are needed as patients were followed for only 7 months.
Bottom line: Apixaban was noninferior to subcutaneous dalteparin for the treatment of VTE in patients with cancer and did not increase bleeding.
Citation: Agnelli G et al. Apixaban for the treatment of venous thromboembolism associated with cancer. N Engl J Med. 2020 Apr 23;382:1599-607. doi: 10.1056/NEJMoa1915103.
Dr. Hermansen is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.
Background: VTE is common in patients with cancer and can lead to serious complications and death. Relatively recently, the use of edoxaban or rivaroxaban was recommended by major guidelines for the treatment of cancer-associated VTE. Previous studies have demonstrated a higher risk of major bleeding when compared with low-molecular-weight heparin. Whether oral apixaban can be safely used in this setting is unknown.
Study design: Randomized, controlled, open-label, noninferiority clinical trial.
Setting: Multinational study with patients enrolled in nine European countries, Israel, and the United States.
Synopsis: Adult patients with confirmed cancer who had a new diagnosis of proximal lower-limb deep vein thrombosis or pulmonary embolism were enrolled in the trial. Of those enrolled, 1,170 patients underwent randomization to receive either oral apixaban twice daily or subcutaneous dalteparin once daily. The primary outcome was recurrent deep vein thrombosis or pulmonary embolism. The principal safety outcome was major bleeding. Researchers followed patients for 7 months after randomization. The primary outcome occurred in 32 of 576 patients (5.6%) in the apixaban group and 46 of 579 patients (7.9%) in the dalteparin group (hazard ratio, 0.63; 95% CI, 0.37-1.07). Major bleeding occurred in 22 patients (3.8%) in the apixaban group and 23 patients (4.0%) in the dalteparin group (HR, 0.82; 95% CI, 0.40-1.69). Limitations were the open-label trial design; the exclusion of patients with primary brain tumors, cerebral metastases, or acute leukemia; and the sample size being powered for the primary outcome, rather than to allow definitive conclusions about bleeding. Additionally, long-term data are needed as patients were followed for only 7 months.
Bottom line: Apixaban was noninferior to subcutaneous dalteparin for the treatment of VTE in patients with cancer and did not increase bleeding.
Citation: Agnelli G et al. Apixaban for the treatment of venous thromboembolism associated with cancer. N Engl J Med. 2020 Apr 23;382:1599-607. doi: 10.1056/NEJMoa1915103.
Dr. Hermansen is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.
Tranexamic acid does not reduce risk of death in GI bleed
Background: TXA is an anti-fibrinolytic agent that decreases surgical bleeding and reduces death resulting from bleeding in trauma and postpartum hemorrhage. A 2012 Cochrane review suggested a reduction in mortality with use of TXA in patients with GI bleed, but previous trials were small with a high risk of bias.
Study design: Randomized, double-blind, placebo-controlled trial.
Setting: 164 hospitals in 15 countries.
Synopsis: A total of 12,009 patients presenting with suspected significant upper or lower GI bleeding were randomized to receive either high-dose TXA or placebo. Death resulting from bleeding within 5 days (primary outcome) was similar in the two groups (3.7% with TXA and 3.8% with placebo; relative risk, 0.99; 95% confidence interval, 0.82-1.18). All-cause mortality at 28 days was also similar (9.5% with TXA and 9.2% with placebo; RR, 1.03; 95% CI, 0.92-1.16).
There was an increase in venous thromboembolism (VTE; deep vein thrombosis or pulmonary embolism) in the TXA group versus the placebo group (0.8% with TXA and 0.4% with placebo; RR, 1.85; 95% CI, 1.15-2.98), as well as an increase in seizure events (0.6% with TXA and 0.4% with placebo; RR, 1.73; 95% CI, 1.03–2.93).
Bottom line: TXA did not reduce mortality risk in patients with upper or lower GI bleeding and should not be used in the routine management of GI bleed.
Citation: Roberts I et al. Effects of a high-dose 24-h infusion of tranexamic acid on death and thromboembolic events in patients with acute gastrointestinal bleeding (HALT-IT): an international randomised, double-blind, placebo-controlled trial. Lancet. 2020;395(10241):1927-1936. doi: 10.1016/S0140-6736(20)30848-5.
Dr. Chung is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.
Background: TXA is an anti-fibrinolytic agent that decreases surgical bleeding and reduces death resulting from bleeding in trauma and postpartum hemorrhage. A 2012 Cochrane review suggested a reduction in mortality with use of TXA in patients with GI bleed, but previous trials were small with a high risk of bias.
Study design: Randomized, double-blind, placebo-controlled trial.
Setting: 164 hospitals in 15 countries.
Synopsis: A total of 12,009 patients presenting with suspected significant upper or lower GI bleeding were randomized to receive either high-dose TXA or placebo. Death resulting from bleeding within 5 days (primary outcome) was similar in the two groups (3.7% with TXA and 3.8% with placebo; relative risk, 0.99; 95% confidence interval, 0.82-1.18). All-cause mortality at 28 days was also similar (9.5% with TXA and 9.2% with placebo; RR, 1.03; 95% CI, 0.92-1.16).
There was an increase in venous thromboembolism (VTE; deep vein thrombosis or pulmonary embolism) in the TXA group versus the placebo group (0.8% with TXA and 0.4% with placebo; RR, 1.85; 95% CI, 1.15-2.98), as well as an increase in seizure events (0.6% with TXA and 0.4% with placebo; RR, 1.73; 95% CI, 1.03–2.93).
Bottom line: TXA did not reduce mortality risk in patients with upper or lower GI bleeding and should not be used in the routine management of GI bleed.
Citation: Roberts I et al. Effects of a high-dose 24-h infusion of tranexamic acid on death and thromboembolic events in patients with acute gastrointestinal bleeding (HALT-IT): an international randomised, double-blind, placebo-controlled trial. Lancet. 2020;395(10241):1927-1936. doi: 10.1016/S0140-6736(20)30848-5.
Dr. Chung is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.
Background: TXA is an anti-fibrinolytic agent that decreases surgical bleeding and reduces death resulting from bleeding in trauma and postpartum hemorrhage. A 2012 Cochrane review suggested a reduction in mortality with use of TXA in patients with GI bleed, but previous trials were small with a high risk of bias.
Study design: Randomized, double-blind, placebo-controlled trial.
Setting: 164 hospitals in 15 countries.
Synopsis: A total of 12,009 patients presenting with suspected significant upper or lower GI bleeding were randomized to receive either high-dose TXA or placebo. Death resulting from bleeding within 5 days (primary outcome) was similar in the two groups (3.7% with TXA and 3.8% with placebo; relative risk, 0.99; 95% confidence interval, 0.82-1.18). All-cause mortality at 28 days was also similar (9.5% with TXA and 9.2% with placebo; RR, 1.03; 95% CI, 0.92-1.16).
There was an increase in venous thromboembolism (VTE; deep vein thrombosis or pulmonary embolism) in the TXA group versus the placebo group (0.8% with TXA and 0.4% with placebo; RR, 1.85; 95% CI, 1.15-2.98), as well as an increase in seizure events (0.6% with TXA and 0.4% with placebo; RR, 1.73; 95% CI, 1.03–2.93).
Bottom line: TXA did not reduce mortality risk in patients with upper or lower GI bleeding and should not be used in the routine management of GI bleed.
Citation: Roberts I et al. Effects of a high-dose 24-h infusion of tranexamic acid on death and thromboembolic events in patients with acute gastrointestinal bleeding (HALT-IT): an international randomised, double-blind, placebo-controlled trial. Lancet. 2020;395(10241):1927-1936. doi: 10.1016/S0140-6736(20)30848-5.
Dr. Chung is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.
Evaluation of Intermittent Energy Restriction and Continuous Energy Restriction on Weight Loss and Blood Pressure Control in Overweight and Obese Patients With Hypertension
Study Overview
Objective. To compare the effects of intermittent energy restriction (IER) with those of continuous energy restriction (CER) on blood pressure control and weight loss in overweight and obese patients with hypertension during a 6-month period.
Design. Randomized controlled trial.
Settings and participants. The trial was conducted at the Affiliated Hospital of Jiaxing University from June 1, 2020, to April 30, 2021. Chinese adults were recruited using advertisements and flyers posted in the hospital and local communities. Prior to participation in study activities, all participants gave informed consent prior to recruitment and were provided compensation in the form of a $38 voucher at 3 and 6 months for their time for participating in the study.
The main inclusion criteria were patients between the ages of 18 and 70 years, hypertension, and body mass index (BMI) ranging from 24 to 40 kg/m2. The exclusion criteria were systolic blood pressure (SBP) ≥ 180 mmHg or diastolic blood pressure (DBP) ≥ 120 mmHg, type 1 or 2 diabetes with a history of severe hypoglycemic episodes, pregnancy or breastfeeding, usage of glucagon-like peptide 1 receptor agonists, weight loss > 5 kg within the past 3 months or previous weight loss surgery, and inability to adhere to the dietary protocol.
Of the 294 participants screened for eligibility, 205 were randomized in a 1:1 ratio to the IER group (n = 102) or the CER group (n = 103), stratified by sex and BMI (as overweight or obese). All participants were required to have a stable medication regimen and weight in the 3 months prior to enrollment and not to use weight-loss drugs or vitamin supplements for the duration of the study. Researchers and participants were not blinded to the study group assignment.
Interventions. Participants randomly assigned to the IER group followed a 5:2 eating pattern: a very-low-energy diet of 500-600 kcal for 2 days of the week along with their usual diet for the other 5 days. The 2 days of calorie restriction could be consecutive or nonconsecutive, with a minimum of 0.8 g supplemental protein per kg of body weight per day, in accordance with the 2016 Dietary Guidelines for Chinese Residents. The CER group was advised to consume 1000 kcal/day for women and 1200 kcal/day for men on a 7-day energy restriction. That is, they were prescribed a daily 25% restriction based on the general principles of a Mediterranean-type diet (30% fat, 45-50% carbohydrate, and 20-25% protein).
Both groups received dietary education from a qualified dietitian and were recommended to maintain their current daily activity levels throughout the trial. Written dietary information brochures with portion advice and sample meal plans were provided to improve compliance in each group. All participants received a digital cooking scale to weigh foods to ensure accuracy of intake and were required to keep a food diary while following the recommended recipe on 2 days/week during calorie restriction to help with adherence. No food was provided. All participants were followed up by regular outpatient visits to both cardiologists and dietitians once a month. Diet checklists, activity schedules, and weight were reviewed to assess compliance with dietary advice at each visit.
Of note, participants were encouraged to measure and record their BP twice daily, and if 2 consecutive BP readings were < 110/70 mmHg and/or accompanied by hypotensive episodes with symptoms (dizziness, nausea, headache, and fatigue), they were asked to contact the investigators directly. Antihypertensive medication changes were then made in consultation with cardiologists. In addition, a medication management protocol (ie, doses of antidiabetic medications, including insulin and sulfonylurea) was designed to avoid hypoglycemia. Medication could be reduced in the CER group based on the basal dose at the endocrinologist’s discretion. In the IER group, insulin and sulfonylureas were discontinued on calorie restriction days only, and long-acting insulin was discontinued the night before the IER day. Insulin was not to be resumed until a full day’s caloric intake was achieved.
Measures and analysis. The primary outcomes of this study were changes in BP and weight (measured using an automatic digital sphygmomanometer and an electronic scale), and the secondary outcomes were changes in body composition (assessed by dual-energy x-ray absorptiometry scanning), as well as glycosylated hemoglobin A1c (HbA1c) levels and blood lipids after 6 months. All outcome measures were recorded at baseline and at each monthly visit. Incidence rates of hypoglycemia were based on blood glucose (defined as blood glucose < 70 mg/dL) and/or symptomatic hypoglycemia (symptoms of sweating, paleness, dizziness, and confusion). Two cardiologists who were blind to the patients’ diet condition measured and recorded all pertinent clinical parameters and adjudicated serious adverse events.
Data were compared using independent-samples t-tests or the Mann–Whitney U test for continuous variables, and Pearson’s χ2 test or Fisher’s exact test for categorial variables as appropriate. Repeated-measures ANOVA via a linear mixed model was employed to test the effects of diet, time, and their interaction. In subgroup analyses, differential effects of the intervention on the primary outcomes were evaluated with respect to patients’ level of education, domicile, and sex based on the statistical significance of the interaction term for the subgroup of interest in the multivariate model. Analyses were performed based on completers and on an intention-to-treat principle.
Main results. Among the 205 randomized participants, 118 were women and 87 were men; mean (SD) age was 50.5 (8.8) years; mean (SD) BMI was 28.7 (2.6); mean (SD) SBP was 143 (10) mmHg; and mean (SD) DBP was 91 (9) mmHg. At the end of the 6-month intervention, 173 (84.4%) completed the study (IER group: n = 88; CER group: n = 85). Both groups had similar dropout rates at 6 months (IER group: 14 participants [13.7%]; CER group: 18 participants [17.5%]; P = .83) and were well matched for baseline characteristics except for triglyceride levels.
In the completers analysis, both groups experienced significant reductions in weight (mean [SEM]), but there was no difference between treatment groups (−7.2 [0.6] kg in the IER group vs −7.1 [0.6] kg in the CER group; diet by time P = .72). Similarly, the change in SBP and DBP achieved was statistically significant over time, but there was also no difference between the dietary interventions (−8 [0.7] mmHg in the IER group vs −8 [0.6] mmHg in the CER group, diet by time P = .68; −6 [0.6] mmHg in the IER group vs −6 [0.5] mmHg in the CER group, diet by time P = .53]. Subgroup analyses of the association of the intervention with weight, SBP and DBP by sex, education, and domicile showed no significant between-group differences.
All measures of body composition decreased significantly at 6 months with both groups experiencing comparable reductions in total fat mass (−5.5 [0.6] kg in the IER group vs −4.8 [0.5] kg in the CER group, diet by time P = .08) and android fat mass (−1.1 [0.2] kg in the IER group vs −0.8 [0.2] kg in the CER group, diet by time P = .16). Of note, participants in the CER group lost significantly more total fat-free mass than did participants in the IER group (mean [SEM], −2.3 [0.2] kg vs −1.7 [0.2] kg; P = .03], and there was a trend toward a greater change in total fat mass in the IER group (P = .08). The secondary outcome of mean (SEM) HbA1c (−0.2% [0.1%]) and blood lipid levels (triglyceride level, −1.0 [0.3] mmol/L; total cholesterol level, −0.9 [0.2] mmol/L; low-density lipoprotein cholesterol level, −0.9 [0.2 mmol/L; high-density lipoprotein cholesterol level, 0.7 [0.3] mmol/L] improved with weight loss (P < .05), with no differences between groups (diet by time P > .05).
The intention-to-treat analysis demonstrated that IER and CER are equally effective for weight loss and blood pressure control: both groups experienced significant reductions in weight, SBP, and DBP, but with no difference between treatment groups – mean (SEM) weight change with IER was −7.0 (0.6) kg vs −6.8 (0.6) kg with CER; the mean (SEM) SBP with IER was −7 (0.7) mmHg vs −7 (0.6) mmHg with CER; and the mean (SEM) DBP with IER was −6 (0.5) mmHg vs −5 (0.5) mmHg with CER, (diet by time P = .62, .39, and .41, respectively). There were favorable improvements in
Conclusion. A 2-day severe energy restriction with 5 days of habitual eating compared to 7 days of CER provides an acceptable alternative for BP control and weight loss in overweight and obese individuals with hypertension after 6 months. IER may offer a useful alternative strategy for this population, who find continuous weight-loss diets too difficult to maintain.
Commentary
Globally, obesity represents a major health challenge as it substantially increases the risk of diseases such as hypertension, type 2 diabetes, and coronary heart disease.1 Lifestyle modifications, including weight loss and increased physical activity, are recommended in major guidelines as a first-step intervention in the treatment of hypertensive patients.2 However, lifestyle and behavioral interventions aimed at reducing calorie intake through low-calorie dieting is challenging as it is dependent on individual motivation and adherence to a strict, continuous protocol. Further, CER strategies have limited effectiveness because complex and persistent hormonal, metabolic, and neurochemical adaptations defend against weight loss and promote weight regain.3-4 IER has drawn attention in the popular media as an alternative to CER due to its feasibility and even potential for higher rates of compliance.5
This study adds to the literature as it is the first randomized controlled trial (to the knowledge of the authors at the time of publication) to explore 2 forms of energy restriction – CER and IER – and their impact on weight loss, BP, body composition, HbA1c, and blood lipid levels in overweight and obese patients with high blood pressure. Results from this study showed that IER is as effective as, but not superior to, CER (in terms of the outcomes measures assessed). Specifically, findings highlighted that the 5:2 diet is an effective strategy and noninferior to that of daily calorie restriction for BP and weight control. In addition, both weight loss and BP reduction were greater in a subgroup of obese compared with overweight participants, which indicates that obese populations may benefit more from energy restriction. As the authors highlight, this study both aligns with and expands on current related literature.
This study has both strengths and limitations, especially with regard to the design and data analysis strategy. A key strength is the randomized controlled trial design which enables increased internal validity and decreases several sources of bias, including selection bias and confounding. In addition, it was also designed as a pragmatic trial, with the protocol reflecting efforts to replicate the real-world environment by not supplying meal replacements or food. Notably, only 9 patients could not comply with the protocol, indicating that acceptability of the diet protocol was high. However, as this was only a 6-month long study, further studies are needed to determine whether a 5:2 diet is sustainable (and effective) in the long-term compared with CER, which the authors highlight. The study was also adequately powered to detect clinically meaningful differences in weight loss and SBP, and appropriate analyses were performed on both the basis of completers and on an intention-to-treat principle. However, further studies are needed that are adequately powered to also detect clinically meaningful differences in the other measures, ie, body composition, HbA1c, and blood lipid levels. Importantly, generalizability of findings from this study is limited as the study population comprises only Chinese adults, predominately middle-aged, overweight, and had mildly to moderately elevated SBP and DBP, and excluded diabetic patients. Thus, findings are not necessarily applicable to individuals with highly elevated blood pressure or poorly controlled diabetes.
Applications for Clinical Practice
Results of this study demonstrated that IER is an effective alternative diet strategy for weight loss and blood pressure control in overweight and obese patients with hypertension and is comparable to CER. This is relevant for clinical practice as IER may be easier to maintain in this population compared to continuous weight-loss diets. Importantly, both types of calorie restriction require clinical oversight as medication changes and periodic monitoring of hypotensive and hypoglycemic episodes are needed. Clinicians should consider what is feasible and sustainable for their patients when recommending intermittent energy restriction.
Financial disclosures: None.
1. Blüher M. Obesity: global epidemiology and pathogenesis. Nat Rev Endocrinol. 2019;15(5):288-298. doi:10.1038/s41574-019-0176-8
2. Unger T, Borghi C, Charchar F, et al. 2020 International Society of Hypertension Global hypertension practice guidelines. J Hypertens. 2020;38(6):982-1004. doi:10.1097/HJH.0000000000002453
3. Müller MJ, Enderle J, Bosy-Westphal A. Changes in Energy Expenditure with Weight Gain and Weight Loss in Humans. Curr Obes Rep. 2016;5(4):413-423. doi:10.1007/s13679-016-0237-4
4. Sainsbury A, Wood RE, Seimon RV, et al. Rationale for novel intermittent dieting strategies to attenuate adaptive responses to energy restriction. Obes Rev. 2018;19 Suppl 1:47–60. doi:10.1111/obr.12787
5. Davis CS, Clarke RE, Coulter SN, et al. Intermittent energy restriction and weight loss: a systematic review. Eur J Clin Nutr. 2016;70(3):292-299. doi:10.1038/ejcn.2015.195
Study Overview
Objective. To compare the effects of intermittent energy restriction (IER) with those of continuous energy restriction (CER) on blood pressure control and weight loss in overweight and obese patients with hypertension during a 6-month period.
Design. Randomized controlled trial.
Settings and participants. The trial was conducted at the Affiliated Hospital of Jiaxing University from June 1, 2020, to April 30, 2021. Chinese adults were recruited using advertisements and flyers posted in the hospital and local communities. Prior to participation in study activities, all participants gave informed consent prior to recruitment and were provided compensation in the form of a $38 voucher at 3 and 6 months for their time for participating in the study.
The main inclusion criteria were patients between the ages of 18 and 70 years, hypertension, and body mass index (BMI) ranging from 24 to 40 kg/m2. The exclusion criteria were systolic blood pressure (SBP) ≥ 180 mmHg or diastolic blood pressure (DBP) ≥ 120 mmHg, type 1 or 2 diabetes with a history of severe hypoglycemic episodes, pregnancy or breastfeeding, usage of glucagon-like peptide 1 receptor agonists, weight loss > 5 kg within the past 3 months or previous weight loss surgery, and inability to adhere to the dietary protocol.
Of the 294 participants screened for eligibility, 205 were randomized in a 1:1 ratio to the IER group (n = 102) or the CER group (n = 103), stratified by sex and BMI (as overweight or obese). All participants were required to have a stable medication regimen and weight in the 3 months prior to enrollment and not to use weight-loss drugs or vitamin supplements for the duration of the study. Researchers and participants were not blinded to the study group assignment.
Interventions. Participants randomly assigned to the IER group followed a 5:2 eating pattern: a very-low-energy diet of 500-600 kcal for 2 days of the week along with their usual diet for the other 5 days. The 2 days of calorie restriction could be consecutive or nonconsecutive, with a minimum of 0.8 g supplemental protein per kg of body weight per day, in accordance with the 2016 Dietary Guidelines for Chinese Residents. The CER group was advised to consume 1000 kcal/day for women and 1200 kcal/day for men on a 7-day energy restriction. That is, they were prescribed a daily 25% restriction based on the general principles of a Mediterranean-type diet (30% fat, 45-50% carbohydrate, and 20-25% protein).
Both groups received dietary education from a qualified dietitian and were recommended to maintain their current daily activity levels throughout the trial. Written dietary information brochures with portion advice and sample meal plans were provided to improve compliance in each group. All participants received a digital cooking scale to weigh foods to ensure accuracy of intake and were required to keep a food diary while following the recommended recipe on 2 days/week during calorie restriction to help with adherence. No food was provided. All participants were followed up by regular outpatient visits to both cardiologists and dietitians once a month. Diet checklists, activity schedules, and weight were reviewed to assess compliance with dietary advice at each visit.
Of note, participants were encouraged to measure and record their BP twice daily, and if 2 consecutive BP readings were < 110/70 mmHg and/or accompanied by hypotensive episodes with symptoms (dizziness, nausea, headache, and fatigue), they were asked to contact the investigators directly. Antihypertensive medication changes were then made in consultation with cardiologists. In addition, a medication management protocol (ie, doses of antidiabetic medications, including insulin and sulfonylurea) was designed to avoid hypoglycemia. Medication could be reduced in the CER group based on the basal dose at the endocrinologist’s discretion. In the IER group, insulin and sulfonylureas were discontinued on calorie restriction days only, and long-acting insulin was discontinued the night before the IER day. Insulin was not to be resumed until a full day’s caloric intake was achieved.
Measures and analysis. The primary outcomes of this study were changes in BP and weight (measured using an automatic digital sphygmomanometer and an electronic scale), and the secondary outcomes were changes in body composition (assessed by dual-energy x-ray absorptiometry scanning), as well as glycosylated hemoglobin A1c (HbA1c) levels and blood lipids after 6 months. All outcome measures were recorded at baseline and at each monthly visit. Incidence rates of hypoglycemia were based on blood glucose (defined as blood glucose < 70 mg/dL) and/or symptomatic hypoglycemia (symptoms of sweating, paleness, dizziness, and confusion). Two cardiologists who were blind to the patients’ diet condition measured and recorded all pertinent clinical parameters and adjudicated serious adverse events.
Data were compared using independent-samples t-tests or the Mann–Whitney U test for continuous variables, and Pearson’s χ2 test or Fisher’s exact test for categorial variables as appropriate. Repeated-measures ANOVA via a linear mixed model was employed to test the effects of diet, time, and their interaction. In subgroup analyses, differential effects of the intervention on the primary outcomes were evaluated with respect to patients’ level of education, domicile, and sex based on the statistical significance of the interaction term for the subgroup of interest in the multivariate model. Analyses were performed based on completers and on an intention-to-treat principle.
Main results. Among the 205 randomized participants, 118 were women and 87 were men; mean (SD) age was 50.5 (8.8) years; mean (SD) BMI was 28.7 (2.6); mean (SD) SBP was 143 (10) mmHg; and mean (SD) DBP was 91 (9) mmHg. At the end of the 6-month intervention, 173 (84.4%) completed the study (IER group: n = 88; CER group: n = 85). Both groups had similar dropout rates at 6 months (IER group: 14 participants [13.7%]; CER group: 18 participants [17.5%]; P = .83) and were well matched for baseline characteristics except for triglyceride levels.
In the completers analysis, both groups experienced significant reductions in weight (mean [SEM]), but there was no difference between treatment groups (−7.2 [0.6] kg in the IER group vs −7.1 [0.6] kg in the CER group; diet by time P = .72). Similarly, the change in SBP and DBP achieved was statistically significant over time, but there was also no difference between the dietary interventions (−8 [0.7] mmHg in the IER group vs −8 [0.6] mmHg in the CER group, diet by time P = .68; −6 [0.6] mmHg in the IER group vs −6 [0.5] mmHg in the CER group, diet by time P = .53]. Subgroup analyses of the association of the intervention with weight, SBP and DBP by sex, education, and domicile showed no significant between-group differences.
All measures of body composition decreased significantly at 6 months with both groups experiencing comparable reductions in total fat mass (−5.5 [0.6] kg in the IER group vs −4.8 [0.5] kg in the CER group, diet by time P = .08) and android fat mass (−1.1 [0.2] kg in the IER group vs −0.8 [0.2] kg in the CER group, diet by time P = .16). Of note, participants in the CER group lost significantly more total fat-free mass than did participants in the IER group (mean [SEM], −2.3 [0.2] kg vs −1.7 [0.2] kg; P = .03], and there was a trend toward a greater change in total fat mass in the IER group (P = .08). The secondary outcome of mean (SEM) HbA1c (−0.2% [0.1%]) and blood lipid levels (triglyceride level, −1.0 [0.3] mmol/L; total cholesterol level, −0.9 [0.2] mmol/L; low-density lipoprotein cholesterol level, −0.9 [0.2 mmol/L; high-density lipoprotein cholesterol level, 0.7 [0.3] mmol/L] improved with weight loss (P < .05), with no differences between groups (diet by time P > .05).
The intention-to-treat analysis demonstrated that IER and CER are equally effective for weight loss and blood pressure control: both groups experienced significant reductions in weight, SBP, and DBP, but with no difference between treatment groups – mean (SEM) weight change with IER was −7.0 (0.6) kg vs −6.8 (0.6) kg with CER; the mean (SEM) SBP with IER was −7 (0.7) mmHg vs −7 (0.6) mmHg with CER; and the mean (SEM) DBP with IER was −6 (0.5) mmHg vs −5 (0.5) mmHg with CER, (diet by time P = .62, .39, and .41, respectively). There were favorable improvements in
Conclusion. A 2-day severe energy restriction with 5 days of habitual eating compared to 7 days of CER provides an acceptable alternative for BP control and weight loss in overweight and obese individuals with hypertension after 6 months. IER may offer a useful alternative strategy for this population, who find continuous weight-loss diets too difficult to maintain.
Commentary
Globally, obesity represents a major health challenge as it substantially increases the risk of diseases such as hypertension, type 2 diabetes, and coronary heart disease.1 Lifestyle modifications, including weight loss and increased physical activity, are recommended in major guidelines as a first-step intervention in the treatment of hypertensive patients.2 However, lifestyle and behavioral interventions aimed at reducing calorie intake through low-calorie dieting is challenging as it is dependent on individual motivation and adherence to a strict, continuous protocol. Further, CER strategies have limited effectiveness because complex and persistent hormonal, metabolic, and neurochemical adaptations defend against weight loss and promote weight regain.3-4 IER has drawn attention in the popular media as an alternative to CER due to its feasibility and even potential for higher rates of compliance.5
This study adds to the literature as it is the first randomized controlled trial (to the knowledge of the authors at the time of publication) to explore 2 forms of energy restriction – CER and IER – and their impact on weight loss, BP, body composition, HbA1c, and blood lipid levels in overweight and obese patients with high blood pressure. Results from this study showed that IER is as effective as, but not superior to, CER (in terms of the outcomes measures assessed). Specifically, findings highlighted that the 5:2 diet is an effective strategy and noninferior to that of daily calorie restriction for BP and weight control. In addition, both weight loss and BP reduction were greater in a subgroup of obese compared with overweight participants, which indicates that obese populations may benefit more from energy restriction. As the authors highlight, this study both aligns with and expands on current related literature.
This study has both strengths and limitations, especially with regard to the design and data analysis strategy. A key strength is the randomized controlled trial design which enables increased internal validity and decreases several sources of bias, including selection bias and confounding. In addition, it was also designed as a pragmatic trial, with the protocol reflecting efforts to replicate the real-world environment by not supplying meal replacements or food. Notably, only 9 patients could not comply with the protocol, indicating that acceptability of the diet protocol was high. However, as this was only a 6-month long study, further studies are needed to determine whether a 5:2 diet is sustainable (and effective) in the long-term compared with CER, which the authors highlight. The study was also adequately powered to detect clinically meaningful differences in weight loss and SBP, and appropriate analyses were performed on both the basis of completers and on an intention-to-treat principle. However, further studies are needed that are adequately powered to also detect clinically meaningful differences in the other measures, ie, body composition, HbA1c, and blood lipid levels. Importantly, generalizability of findings from this study is limited as the study population comprises only Chinese adults, predominately middle-aged, overweight, and had mildly to moderately elevated SBP and DBP, and excluded diabetic patients. Thus, findings are not necessarily applicable to individuals with highly elevated blood pressure or poorly controlled diabetes.
Applications for Clinical Practice
Results of this study demonstrated that IER is an effective alternative diet strategy for weight loss and blood pressure control in overweight and obese patients with hypertension and is comparable to CER. This is relevant for clinical practice as IER may be easier to maintain in this population compared to continuous weight-loss diets. Importantly, both types of calorie restriction require clinical oversight as medication changes and periodic monitoring of hypotensive and hypoglycemic episodes are needed. Clinicians should consider what is feasible and sustainable for their patients when recommending intermittent energy restriction.
Financial disclosures: None.
Study Overview
Objective. To compare the effects of intermittent energy restriction (IER) with those of continuous energy restriction (CER) on blood pressure control and weight loss in overweight and obese patients with hypertension during a 6-month period.
Design. Randomized controlled trial.
Settings and participants. The trial was conducted at the Affiliated Hospital of Jiaxing University from June 1, 2020, to April 30, 2021. Chinese adults were recruited using advertisements and flyers posted in the hospital and local communities. Prior to participation in study activities, all participants gave informed consent prior to recruitment and were provided compensation in the form of a $38 voucher at 3 and 6 months for their time for participating in the study.
The main inclusion criteria were patients between the ages of 18 and 70 years, hypertension, and body mass index (BMI) ranging from 24 to 40 kg/m2. The exclusion criteria were systolic blood pressure (SBP) ≥ 180 mmHg or diastolic blood pressure (DBP) ≥ 120 mmHg, type 1 or 2 diabetes with a history of severe hypoglycemic episodes, pregnancy or breastfeeding, usage of glucagon-like peptide 1 receptor agonists, weight loss > 5 kg within the past 3 months or previous weight loss surgery, and inability to adhere to the dietary protocol.
Of the 294 participants screened for eligibility, 205 were randomized in a 1:1 ratio to the IER group (n = 102) or the CER group (n = 103), stratified by sex and BMI (as overweight or obese). All participants were required to have a stable medication regimen and weight in the 3 months prior to enrollment and not to use weight-loss drugs or vitamin supplements for the duration of the study. Researchers and participants were not blinded to the study group assignment.
Interventions. Participants randomly assigned to the IER group followed a 5:2 eating pattern: a very-low-energy diet of 500-600 kcal for 2 days of the week along with their usual diet for the other 5 days. The 2 days of calorie restriction could be consecutive or nonconsecutive, with a minimum of 0.8 g supplemental protein per kg of body weight per day, in accordance with the 2016 Dietary Guidelines for Chinese Residents. The CER group was advised to consume 1000 kcal/day for women and 1200 kcal/day for men on a 7-day energy restriction. That is, they were prescribed a daily 25% restriction based on the general principles of a Mediterranean-type diet (30% fat, 45-50% carbohydrate, and 20-25% protein).
Both groups received dietary education from a qualified dietitian and were recommended to maintain their current daily activity levels throughout the trial. Written dietary information brochures with portion advice and sample meal plans were provided to improve compliance in each group. All participants received a digital cooking scale to weigh foods to ensure accuracy of intake and were required to keep a food diary while following the recommended recipe on 2 days/week during calorie restriction to help with adherence. No food was provided. All participants were followed up by regular outpatient visits to both cardiologists and dietitians once a month. Diet checklists, activity schedules, and weight were reviewed to assess compliance with dietary advice at each visit.
Of note, participants were encouraged to measure and record their BP twice daily, and if 2 consecutive BP readings were < 110/70 mmHg and/or accompanied by hypotensive episodes with symptoms (dizziness, nausea, headache, and fatigue), they were asked to contact the investigators directly. Antihypertensive medication changes were then made in consultation with cardiologists. In addition, a medication management protocol (ie, doses of antidiabetic medications, including insulin and sulfonylurea) was designed to avoid hypoglycemia. Medication could be reduced in the CER group based on the basal dose at the endocrinologist’s discretion. In the IER group, insulin and sulfonylureas were discontinued on calorie restriction days only, and long-acting insulin was discontinued the night before the IER day. Insulin was not to be resumed until a full day’s caloric intake was achieved.
Measures and analysis. The primary outcomes of this study were changes in BP and weight (measured using an automatic digital sphygmomanometer and an electronic scale), and the secondary outcomes were changes in body composition (assessed by dual-energy x-ray absorptiometry scanning), as well as glycosylated hemoglobin A1c (HbA1c) levels and blood lipids after 6 months. All outcome measures were recorded at baseline and at each monthly visit. Incidence rates of hypoglycemia were based on blood glucose (defined as blood glucose < 70 mg/dL) and/or symptomatic hypoglycemia (symptoms of sweating, paleness, dizziness, and confusion). Two cardiologists who were blind to the patients’ diet condition measured and recorded all pertinent clinical parameters and adjudicated serious adverse events.
Data were compared using independent-samples t-tests or the Mann–Whitney U test for continuous variables, and Pearson’s χ2 test or Fisher’s exact test for categorial variables as appropriate. Repeated-measures ANOVA via a linear mixed model was employed to test the effects of diet, time, and their interaction. In subgroup analyses, differential effects of the intervention on the primary outcomes were evaluated with respect to patients’ level of education, domicile, and sex based on the statistical significance of the interaction term for the subgroup of interest in the multivariate model. Analyses were performed based on completers and on an intention-to-treat principle.
Main results. Among the 205 randomized participants, 118 were women and 87 were men; mean (SD) age was 50.5 (8.8) years; mean (SD) BMI was 28.7 (2.6); mean (SD) SBP was 143 (10) mmHg; and mean (SD) DBP was 91 (9) mmHg. At the end of the 6-month intervention, 173 (84.4%) completed the study (IER group: n = 88; CER group: n = 85). Both groups had similar dropout rates at 6 months (IER group: 14 participants [13.7%]; CER group: 18 participants [17.5%]; P = .83) and were well matched for baseline characteristics except for triglyceride levels.
In the completers analysis, both groups experienced significant reductions in weight (mean [SEM]), but there was no difference between treatment groups (−7.2 [0.6] kg in the IER group vs −7.1 [0.6] kg in the CER group; diet by time P = .72). Similarly, the change in SBP and DBP achieved was statistically significant over time, but there was also no difference between the dietary interventions (−8 [0.7] mmHg in the IER group vs −8 [0.6] mmHg in the CER group, diet by time P = .68; −6 [0.6] mmHg in the IER group vs −6 [0.5] mmHg in the CER group, diet by time P = .53]. Subgroup analyses of the association of the intervention with weight, SBP and DBP by sex, education, and domicile showed no significant between-group differences.
All measures of body composition decreased significantly at 6 months with both groups experiencing comparable reductions in total fat mass (−5.5 [0.6] kg in the IER group vs −4.8 [0.5] kg in the CER group, diet by time P = .08) and android fat mass (−1.1 [0.2] kg in the IER group vs −0.8 [0.2] kg in the CER group, diet by time P = .16). Of note, participants in the CER group lost significantly more total fat-free mass than did participants in the IER group (mean [SEM], −2.3 [0.2] kg vs −1.7 [0.2] kg; P = .03], and there was a trend toward a greater change in total fat mass in the IER group (P = .08). The secondary outcome of mean (SEM) HbA1c (−0.2% [0.1%]) and blood lipid levels (triglyceride level, −1.0 [0.3] mmol/L; total cholesterol level, −0.9 [0.2] mmol/L; low-density lipoprotein cholesterol level, −0.9 [0.2 mmol/L; high-density lipoprotein cholesterol level, 0.7 [0.3] mmol/L] improved with weight loss (P < .05), with no differences between groups (diet by time P > .05).
The intention-to-treat analysis demonstrated that IER and CER are equally effective for weight loss and blood pressure control: both groups experienced significant reductions in weight, SBP, and DBP, but with no difference between treatment groups – mean (SEM) weight change with IER was −7.0 (0.6) kg vs −6.8 (0.6) kg with CER; the mean (SEM) SBP with IER was −7 (0.7) mmHg vs −7 (0.6) mmHg with CER; and the mean (SEM) DBP with IER was −6 (0.5) mmHg vs −5 (0.5) mmHg with CER, (diet by time P = .62, .39, and .41, respectively). There were favorable improvements in
Conclusion. A 2-day severe energy restriction with 5 days of habitual eating compared to 7 days of CER provides an acceptable alternative for BP control and weight loss in overweight and obese individuals with hypertension after 6 months. IER may offer a useful alternative strategy for this population, who find continuous weight-loss diets too difficult to maintain.
Commentary
Globally, obesity represents a major health challenge as it substantially increases the risk of diseases such as hypertension, type 2 diabetes, and coronary heart disease.1 Lifestyle modifications, including weight loss and increased physical activity, are recommended in major guidelines as a first-step intervention in the treatment of hypertensive patients.2 However, lifestyle and behavioral interventions aimed at reducing calorie intake through low-calorie dieting is challenging as it is dependent on individual motivation and adherence to a strict, continuous protocol. Further, CER strategies have limited effectiveness because complex and persistent hormonal, metabolic, and neurochemical adaptations defend against weight loss and promote weight regain.3-4 IER has drawn attention in the popular media as an alternative to CER due to its feasibility and even potential for higher rates of compliance.5
This study adds to the literature as it is the first randomized controlled trial (to the knowledge of the authors at the time of publication) to explore 2 forms of energy restriction – CER and IER – and their impact on weight loss, BP, body composition, HbA1c, and blood lipid levels in overweight and obese patients with high blood pressure. Results from this study showed that IER is as effective as, but not superior to, CER (in terms of the outcomes measures assessed). Specifically, findings highlighted that the 5:2 diet is an effective strategy and noninferior to that of daily calorie restriction for BP and weight control. In addition, both weight loss and BP reduction were greater in a subgroup of obese compared with overweight participants, which indicates that obese populations may benefit more from energy restriction. As the authors highlight, this study both aligns with and expands on current related literature.
This study has both strengths and limitations, especially with regard to the design and data analysis strategy. A key strength is the randomized controlled trial design which enables increased internal validity and decreases several sources of bias, including selection bias and confounding. In addition, it was also designed as a pragmatic trial, with the protocol reflecting efforts to replicate the real-world environment by not supplying meal replacements or food. Notably, only 9 patients could not comply with the protocol, indicating that acceptability of the diet protocol was high. However, as this was only a 6-month long study, further studies are needed to determine whether a 5:2 diet is sustainable (and effective) in the long-term compared with CER, which the authors highlight. The study was also adequately powered to detect clinically meaningful differences in weight loss and SBP, and appropriate analyses were performed on both the basis of completers and on an intention-to-treat principle. However, further studies are needed that are adequately powered to also detect clinically meaningful differences in the other measures, ie, body composition, HbA1c, and blood lipid levels. Importantly, generalizability of findings from this study is limited as the study population comprises only Chinese adults, predominately middle-aged, overweight, and had mildly to moderately elevated SBP and DBP, and excluded diabetic patients. Thus, findings are not necessarily applicable to individuals with highly elevated blood pressure or poorly controlled diabetes.
Applications for Clinical Practice
Results of this study demonstrated that IER is an effective alternative diet strategy for weight loss and blood pressure control in overweight and obese patients with hypertension and is comparable to CER. This is relevant for clinical practice as IER may be easier to maintain in this population compared to continuous weight-loss diets. Importantly, both types of calorie restriction require clinical oversight as medication changes and periodic monitoring of hypotensive and hypoglycemic episodes are needed. Clinicians should consider what is feasible and sustainable for their patients when recommending intermittent energy restriction.
Financial disclosures: None.
1. Blüher M. Obesity: global epidemiology and pathogenesis. Nat Rev Endocrinol. 2019;15(5):288-298. doi:10.1038/s41574-019-0176-8
2. Unger T, Borghi C, Charchar F, et al. 2020 International Society of Hypertension Global hypertension practice guidelines. J Hypertens. 2020;38(6):982-1004. doi:10.1097/HJH.0000000000002453
3. Müller MJ, Enderle J, Bosy-Westphal A. Changes in Energy Expenditure with Weight Gain and Weight Loss in Humans. Curr Obes Rep. 2016;5(4):413-423. doi:10.1007/s13679-016-0237-4
4. Sainsbury A, Wood RE, Seimon RV, et al. Rationale for novel intermittent dieting strategies to attenuate adaptive responses to energy restriction. Obes Rev. 2018;19 Suppl 1:47–60. doi:10.1111/obr.12787
5. Davis CS, Clarke RE, Coulter SN, et al. Intermittent energy restriction and weight loss: a systematic review. Eur J Clin Nutr. 2016;70(3):292-299. doi:10.1038/ejcn.2015.195
1. Blüher M. Obesity: global epidemiology and pathogenesis. Nat Rev Endocrinol. 2019;15(5):288-298. doi:10.1038/s41574-019-0176-8
2. Unger T, Borghi C, Charchar F, et al. 2020 International Society of Hypertension Global hypertension practice guidelines. J Hypertens. 2020;38(6):982-1004. doi:10.1097/HJH.0000000000002453
3. Müller MJ, Enderle J, Bosy-Westphal A. Changes in Energy Expenditure with Weight Gain and Weight Loss in Humans. Curr Obes Rep. 2016;5(4):413-423. doi:10.1007/s13679-016-0237-4
4. Sainsbury A, Wood RE, Seimon RV, et al. Rationale for novel intermittent dieting strategies to attenuate adaptive responses to energy restriction. Obes Rev. 2018;19 Suppl 1:47–60. doi:10.1111/obr.12787
5. Davis CS, Clarke RE, Coulter SN, et al. Intermittent energy restriction and weight loss: a systematic review. Eur J Clin Nutr. 2016;70(3):292-299. doi:10.1038/ejcn.2015.195
Oakland score identifies patients with lower GI bleed at low risk for adverse events
Background: The Oakland score was initially designed to be used in patients presenting with LGIB in the urgent, emergent, or primary care setting to help predict risk of readmission and determine if outpatient management is feasible. National guidelines in the United Kingdom have recommended use of the Oakland score despite limited external validation for the triage of patients with acute LGIB. This study aimed to externally validate the Oakland score in a large population in the United States and compare the performance at two thresholds.
Study design: Retrospective observational study.
Setting: 140 hospitals across the United States.
Synopsis: In this prognostic study, 38,067 patients were identified retrospectively using ICD-10 codes that were consistent with a diagnosis of LGIB and were admitted to the hospital. The Oakland score consisted of seven variables, including age, sex, prior hospitalization with LGIB, digital rectal exam results, heart rate, systolic blood pressure, and hemoglobin concentration. The primary outcome was safe discharge from the hospital, defined as absence of in-hospital rebleeding, RBC transfusion, therapeutic colonoscopy, mesenteric embolization or laparotomy for bleeding, in-hospital death, or readmission with subsequent LGIB in 28 days. In total, 47.9% of the identified patients experienced no adverse outcomes and were classified as meeting criteria for safe discharge. In addition, 8.7% of patients scored 8 points or fewer with a sensitivity of 98.4% and specificity of 16.0% for safe discharge. A sensitivity of 96% was maintained after increasing the threshold to 10 points or fewer with a specificity of 31.9%, suggesting the threshold can be increased while still maintaining adequate sensitivity. The study suggests that, by using the Oakland score threshold of 8, hospital admission may be avoided in low-risk patients leading to a savings of at least $44.5 million and even more if the threshold is increased to 10. Low specificity does present limitation of the score as some patients considered to be at risk for adverse events may have been safely discharged and managed as an outpatient, avoiding hospitalization.
Bottom line: The Oakland score was externally validated for use in assessing risk of adverse outcomes in patients with LGIB and had a high sensitivity but low specificity for identifying low-risk patients.
Citation: Oakland K et al. External validation of the Oakland score to assess safe hospital discharge among adult patients with acute lower gastrointestinal bleeding in the US. JAMA Netw Open. 2020 Jul 1;3:e209630. doi:
Dr. Steker is a hospitalist at Northwestern Memorial Hospital and instructor of medicine, Feinberg School of Medicine, both in Chicago.
Background: The Oakland score was initially designed to be used in patients presenting with LGIB in the urgent, emergent, or primary care setting to help predict risk of readmission and determine if outpatient management is feasible. National guidelines in the United Kingdom have recommended use of the Oakland score despite limited external validation for the triage of patients with acute LGIB. This study aimed to externally validate the Oakland score in a large population in the United States and compare the performance at two thresholds.
Study design: Retrospective observational study.
Setting: 140 hospitals across the United States.
Synopsis: In this prognostic study, 38,067 patients were identified retrospectively using ICD-10 codes that were consistent with a diagnosis of LGIB and were admitted to the hospital. The Oakland score consisted of seven variables, including age, sex, prior hospitalization with LGIB, digital rectal exam results, heart rate, systolic blood pressure, and hemoglobin concentration. The primary outcome was safe discharge from the hospital, defined as absence of in-hospital rebleeding, RBC transfusion, therapeutic colonoscopy, mesenteric embolization or laparotomy for bleeding, in-hospital death, or readmission with subsequent LGIB in 28 days. In total, 47.9% of the identified patients experienced no adverse outcomes and were classified as meeting criteria for safe discharge. In addition, 8.7% of patients scored 8 points or fewer with a sensitivity of 98.4% and specificity of 16.0% for safe discharge. A sensitivity of 96% was maintained after increasing the threshold to 10 points or fewer with a specificity of 31.9%, suggesting the threshold can be increased while still maintaining adequate sensitivity. The study suggests that, by using the Oakland score threshold of 8, hospital admission may be avoided in low-risk patients leading to a savings of at least $44.5 million and even more if the threshold is increased to 10. Low specificity does present limitation of the score as some patients considered to be at risk for adverse events may have been safely discharged and managed as an outpatient, avoiding hospitalization.
Bottom line: The Oakland score was externally validated for use in assessing risk of adverse outcomes in patients with LGIB and had a high sensitivity but low specificity for identifying low-risk patients.
Citation: Oakland K et al. External validation of the Oakland score to assess safe hospital discharge among adult patients with acute lower gastrointestinal bleeding in the US. JAMA Netw Open. 2020 Jul 1;3:e209630. doi:
Dr. Steker is a hospitalist at Northwestern Memorial Hospital and instructor of medicine, Feinberg School of Medicine, both in Chicago.
Background: The Oakland score was initially designed to be used in patients presenting with LGIB in the urgent, emergent, or primary care setting to help predict risk of readmission and determine if outpatient management is feasible. National guidelines in the United Kingdom have recommended use of the Oakland score despite limited external validation for the triage of patients with acute LGIB. This study aimed to externally validate the Oakland score in a large population in the United States and compare the performance at two thresholds.
Study design: Retrospective observational study.
Setting: 140 hospitals across the United States.
Synopsis: In this prognostic study, 38,067 patients were identified retrospectively using ICD-10 codes that were consistent with a diagnosis of LGIB and were admitted to the hospital. The Oakland score consisted of seven variables, including age, sex, prior hospitalization with LGIB, digital rectal exam results, heart rate, systolic blood pressure, and hemoglobin concentration. The primary outcome was safe discharge from the hospital, defined as absence of in-hospital rebleeding, RBC transfusion, therapeutic colonoscopy, mesenteric embolization or laparotomy for bleeding, in-hospital death, or readmission with subsequent LGIB in 28 days. In total, 47.9% of the identified patients experienced no adverse outcomes and were classified as meeting criteria for safe discharge. In addition, 8.7% of patients scored 8 points or fewer with a sensitivity of 98.4% and specificity of 16.0% for safe discharge. A sensitivity of 96% was maintained after increasing the threshold to 10 points or fewer with a specificity of 31.9%, suggesting the threshold can be increased while still maintaining adequate sensitivity. The study suggests that, by using the Oakland score threshold of 8, hospital admission may be avoided in low-risk patients leading to a savings of at least $44.5 million and even more if the threshold is increased to 10. Low specificity does present limitation of the score as some patients considered to be at risk for adverse events may have been safely discharged and managed as an outpatient, avoiding hospitalization.
Bottom line: The Oakland score was externally validated for use in assessing risk of adverse outcomes in patients with LGIB and had a high sensitivity but low specificity for identifying low-risk patients.
Citation: Oakland K et al. External validation of the Oakland score to assess safe hospital discharge among adult patients with acute lower gastrointestinal bleeding in the US. JAMA Netw Open. 2020 Jul 1;3:e209630. doi:
Dr. Steker is a hospitalist at Northwestern Memorial Hospital and instructor of medicine, Feinberg School of Medicine, both in Chicago.
Timing of endoscopy for acute upper GI bleeding
Background: Prior studies have failed to show a benefit to earlier endoscopic intervention in acute GI bleeding. However, those studies were performed in all-comers without attention to the varying risk within the patient population.
Study design: Randomized controlled trial.
Setting: Single center in Hong Kong.
Synopsis: Patients at high risk for further bleeding or death by clinical score were randomized to endoscopy within 6 hours (“urgent endoscopy”), vs. the following day (“early endoscopy”), of GI consultation. Those who required immediate endoscopic intervention because of hemodynamic instability were excluded. All were prescribed proton-pump inhibitor drip, with the addition of vasoactive drugs and antibiotics if there was a suspected variceal bleed. There was no difference in 30-day mortality between the two groups – 8.9% with urgent endoscopy and 6.6% with early endoscopy (HR, 1.35; 95% CI, 0.72-2.54). There was no difference in length of hospital stay or the number of transfusions. Earlier endoscopy within 6 hours was associated with a higher number of actively bleeding lesions requiring intervention and a nonstatistical increase in recurrent bleeding within 30 days. It is believed that more time on proton-pump inhibitor infusion prior to endoscopy allows for stabilization of bleeds, thus requiring less intervention when endoscopy does occur.
Bottom line: Early endoscopy within 6 hours was not beneficial for those at high risk for rebleeding and death from upper GI bleed.
Citation: Lau JYW et al. Timing of endoscopy for acute upper gastrointestinal bleeding. N Engl J Med. 2020;382:1299-308. doi:10.1056/NEJMoa1912484.
Dr. Lee is a hospitalist at Northwestern Memorial Hospital and Lurie Children’s Hospital and assistant professor of medicine, Feinberg School of Medicine, all in Chicago.
Background: Prior studies have failed to show a benefit to earlier endoscopic intervention in acute GI bleeding. However, those studies were performed in all-comers without attention to the varying risk within the patient population.
Study design: Randomized controlled trial.
Setting: Single center in Hong Kong.
Synopsis: Patients at high risk for further bleeding or death by clinical score were randomized to endoscopy within 6 hours (“urgent endoscopy”), vs. the following day (“early endoscopy”), of GI consultation. Those who required immediate endoscopic intervention because of hemodynamic instability were excluded. All were prescribed proton-pump inhibitor drip, with the addition of vasoactive drugs and antibiotics if there was a suspected variceal bleed. There was no difference in 30-day mortality between the two groups – 8.9% with urgent endoscopy and 6.6% with early endoscopy (HR, 1.35; 95% CI, 0.72-2.54). There was no difference in length of hospital stay or the number of transfusions. Earlier endoscopy within 6 hours was associated with a higher number of actively bleeding lesions requiring intervention and a nonstatistical increase in recurrent bleeding within 30 days. It is believed that more time on proton-pump inhibitor infusion prior to endoscopy allows for stabilization of bleeds, thus requiring less intervention when endoscopy does occur.
Bottom line: Early endoscopy within 6 hours was not beneficial for those at high risk for rebleeding and death from upper GI bleed.
Citation: Lau JYW et al. Timing of endoscopy for acute upper gastrointestinal bleeding. N Engl J Med. 2020;382:1299-308. doi:10.1056/NEJMoa1912484.
Dr. Lee is a hospitalist at Northwestern Memorial Hospital and Lurie Children’s Hospital and assistant professor of medicine, Feinberg School of Medicine, all in Chicago.
Background: Prior studies have failed to show a benefit to earlier endoscopic intervention in acute GI bleeding. However, those studies were performed in all-comers without attention to the varying risk within the patient population.
Study design: Randomized controlled trial.
Setting: Single center in Hong Kong.
Synopsis: Patients at high risk for further bleeding or death by clinical score were randomized to endoscopy within 6 hours (“urgent endoscopy”), vs. the following day (“early endoscopy”), of GI consultation. Those who required immediate endoscopic intervention because of hemodynamic instability were excluded. All were prescribed proton-pump inhibitor drip, with the addition of vasoactive drugs and antibiotics if there was a suspected variceal bleed. There was no difference in 30-day mortality between the two groups – 8.9% with urgent endoscopy and 6.6% with early endoscopy (HR, 1.35; 95% CI, 0.72-2.54). There was no difference in length of hospital stay or the number of transfusions. Earlier endoscopy within 6 hours was associated with a higher number of actively bleeding lesions requiring intervention and a nonstatistical increase in recurrent bleeding within 30 days. It is believed that more time on proton-pump inhibitor infusion prior to endoscopy allows for stabilization of bleeds, thus requiring less intervention when endoscopy does occur.
Bottom line: Early endoscopy within 6 hours was not beneficial for those at high risk for rebleeding and death from upper GI bleed.
Citation: Lau JYW et al. Timing of endoscopy for acute upper gastrointestinal bleeding. N Engl J Med. 2020;382:1299-308. doi:10.1056/NEJMoa1912484.
Dr. Lee is a hospitalist at Northwestern Memorial Hospital and Lurie Children’s Hospital and assistant professor of medicine, Feinberg School of Medicine, all in Chicago.
FDA approves new interferon for polycythemia vera
, according to an agency press release.
Besremi has a longer half-life than do other pegylated interferon-alfas, allowing for dosing every 2 weeks instead of weekly. If red blood cell counts remain normal for a year, patients have the option of switching to once-monthly dosing. As with similar products, Besremi is self-administered as a subcutaneous injection.
It’s the first interferon approved in the United States specifically for polycythemia vera. Besremi is also approved for upfront therapy, unlike FDA’s first approval for the condition, the oral JAK inhibitor ruxolitinib (Jakafi), which is indicated only after hydroxyurea failure.
Taiwan-based maker PharmaEssentia said in another press release that it will roll Besremi out to the U.S. market in the coming weeks.
“As we begin working closely with the community to integrate this important treatment into clinical practice, we also continue to expand our scientific efforts to unlock the full potential of our pioneering molecule,” said Ko-Chung Lin, PhD, the company’s CEO.
As for unlocking the full potential, Besremi is under investigation for other interferon indications, including myelofibrosis, leukemia, and chronic hepatitis.
The FDA’s approval was based on results in 51 adults treated for an average of 5 years; 31 (61%) had a complete hematologic response, defined as a hematocrit below 45% with no phlebotomy for at least 2 months, plus normal platelet and white cell counts, normal spleen size, and no blood clots.
“Noninferiority to hydroxyurea regarding haematological response and normal spleen size was not shown at 12 months. However, response to ropeginterferon alfa-2b continued to increase over time with improved responses compared with hydroxyurea at 36 months,” investigators noted in an earlier report (Lancet Haematol. 2020 Mar;7[3]:e196-e208).
Besremi carries the same boxed warning as those of peginterferon alfa-2b (Pegintron) and peginterferon alfa-2a (Pegasys), which notes the risk of life-threatening neuropsychiatric, autoimmune, ischemic, and infectious disorders. Related contraindications include severe depression and other psychiatric problems; liver impairment; serious or untreated autoimmune disease, and immunosuppression following organ transplant.
Influenza-like illness, arthralgia, fatigue, pruritis, nasopharyngitis, and musculoskeletal pain were the most common adverse events in studies, occurring in over 40% of subjects. Urinary tract infections, transient ischemic attacks, and depression were the most frequent serious complications, occurring in over 4%.
Labeling also notes the risk for fetal harm and the need for effective contraception.
Besremi was approved in Europe in 2019 and is approved in Taiwan and South Korea.
Polycythemia vera is a rare condition thought to be caused by acquired bone marrow stem cell mutations that trigger an overproduction of red blood cells. Patients are at increased risk of blood clots and emboli, and subsequent heart attacks, strokes, and other problems. There’s also the risk of transformation to secondary myelofibrosis or leukemia.
, according to an agency press release.
Besremi has a longer half-life than do other pegylated interferon-alfas, allowing for dosing every 2 weeks instead of weekly. If red blood cell counts remain normal for a year, patients have the option of switching to once-monthly dosing. As with similar products, Besremi is self-administered as a subcutaneous injection.
It’s the first interferon approved in the United States specifically for polycythemia vera. Besremi is also approved for upfront therapy, unlike FDA’s first approval for the condition, the oral JAK inhibitor ruxolitinib (Jakafi), which is indicated only after hydroxyurea failure.
Taiwan-based maker PharmaEssentia said in another press release that it will roll Besremi out to the U.S. market in the coming weeks.
“As we begin working closely with the community to integrate this important treatment into clinical practice, we also continue to expand our scientific efforts to unlock the full potential of our pioneering molecule,” said Ko-Chung Lin, PhD, the company’s CEO.
As for unlocking the full potential, Besremi is under investigation for other interferon indications, including myelofibrosis, leukemia, and chronic hepatitis.
The FDA’s approval was based on results in 51 adults treated for an average of 5 years; 31 (61%) had a complete hematologic response, defined as a hematocrit below 45% with no phlebotomy for at least 2 months, plus normal platelet and white cell counts, normal spleen size, and no blood clots.
“Noninferiority to hydroxyurea regarding haematological response and normal spleen size was not shown at 12 months. However, response to ropeginterferon alfa-2b continued to increase over time with improved responses compared with hydroxyurea at 36 months,” investigators noted in an earlier report (Lancet Haematol. 2020 Mar;7[3]:e196-e208).
Besremi carries the same boxed warning as those of peginterferon alfa-2b (Pegintron) and peginterferon alfa-2a (Pegasys), which notes the risk of life-threatening neuropsychiatric, autoimmune, ischemic, and infectious disorders. Related contraindications include severe depression and other psychiatric problems; liver impairment; serious or untreated autoimmune disease, and immunosuppression following organ transplant.
Influenza-like illness, arthralgia, fatigue, pruritis, nasopharyngitis, and musculoskeletal pain were the most common adverse events in studies, occurring in over 40% of subjects. Urinary tract infections, transient ischemic attacks, and depression were the most frequent serious complications, occurring in over 4%.
Labeling also notes the risk for fetal harm and the need for effective contraception.
Besremi was approved in Europe in 2019 and is approved in Taiwan and South Korea.
Polycythemia vera is a rare condition thought to be caused by acquired bone marrow stem cell mutations that trigger an overproduction of red blood cells. Patients are at increased risk of blood clots and emboli, and subsequent heart attacks, strokes, and other problems. There’s also the risk of transformation to secondary myelofibrosis or leukemia.
, according to an agency press release.
Besremi has a longer half-life than do other pegylated interferon-alfas, allowing for dosing every 2 weeks instead of weekly. If red blood cell counts remain normal for a year, patients have the option of switching to once-monthly dosing. As with similar products, Besremi is self-administered as a subcutaneous injection.
It’s the first interferon approved in the United States specifically for polycythemia vera. Besremi is also approved for upfront therapy, unlike FDA’s first approval for the condition, the oral JAK inhibitor ruxolitinib (Jakafi), which is indicated only after hydroxyurea failure.
Taiwan-based maker PharmaEssentia said in another press release that it will roll Besremi out to the U.S. market in the coming weeks.
“As we begin working closely with the community to integrate this important treatment into clinical practice, we also continue to expand our scientific efforts to unlock the full potential of our pioneering molecule,” said Ko-Chung Lin, PhD, the company’s CEO.
As for unlocking the full potential, Besremi is under investigation for other interferon indications, including myelofibrosis, leukemia, and chronic hepatitis.
The FDA’s approval was based on results in 51 adults treated for an average of 5 years; 31 (61%) had a complete hematologic response, defined as a hematocrit below 45% with no phlebotomy for at least 2 months, plus normal platelet and white cell counts, normal spleen size, and no blood clots.
“Noninferiority to hydroxyurea regarding haematological response and normal spleen size was not shown at 12 months. However, response to ropeginterferon alfa-2b continued to increase over time with improved responses compared with hydroxyurea at 36 months,” investigators noted in an earlier report (Lancet Haematol. 2020 Mar;7[3]:e196-e208).
Besremi carries the same boxed warning as those of peginterferon alfa-2b (Pegintron) and peginterferon alfa-2a (Pegasys), which notes the risk of life-threatening neuropsychiatric, autoimmune, ischemic, and infectious disorders. Related contraindications include severe depression and other psychiatric problems; liver impairment; serious or untreated autoimmune disease, and immunosuppression following organ transplant.
Influenza-like illness, arthralgia, fatigue, pruritis, nasopharyngitis, and musculoskeletal pain were the most common adverse events in studies, occurring in over 40% of subjects. Urinary tract infections, transient ischemic attacks, and depression were the most frequent serious complications, occurring in over 4%.
Labeling also notes the risk for fetal harm and the need for effective contraception.
Besremi was approved in Europe in 2019 and is approved in Taiwan and South Korea.
Polycythemia vera is a rare condition thought to be caused by acquired bone marrow stem cell mutations that trigger an overproduction of red blood cells. Patients are at increased risk of blood clots and emboli, and subsequent heart attacks, strokes, and other problems. There’s also the risk of transformation to secondary myelofibrosis or leukemia.
Ticagrelor reversal agent achieves quick hemostasis: REVERSE-IT
The experimental monoclonal antibody bentracimab, which reverses the antiplatelet effects of ticagrelor, appears to be heading toward regulatory approval, on the basis of an interim analysis of the phase 3 REVERSE-IT trial.
“Rates of effective hemostasis were adjudicated as good or excellent in more than 90% of cases with no drug-related serious adverse events or allergic or infusion-related reactions,” reported Deepak L. Bhatt, MD, at the American Heart Association scientific sessions.
The interim analysis of this nonrandomized, single-arm study was requested by the Food and Drug Administration, which is considering a conditional accelerated approval of bentracimab (formerly PB2452) if efficacy and safety are established.
Upon administration, bentracimab binds to free ticagrelor so that ticagrelor cannot bind to the P2Y12 platelet receptor. This interrupts one of the key steps in the pathway of platelet aggregation.
REVERSE-IT is still enrolling patients. This interim analysis was conducted with the first 150 patients who met eligibility criteria and were treated. Of these, 142 patients were enrolled for an urgent surgical indication and 8 for a major bleeding indication. After some exclusions for lack of urgency and reclassifications following adjudication, there were 113 surgical cases and 9 major bleeding patients evaluable for hemostasis.
Platelet function assays test reversal
On the primary reversal endpoint, which was restoration of activity on the proprietary platelet function assays Verify Now and PRUTest, a rapid restoration of platelet function was achieved in both surgical and major-bleeding patients. Platelet reactivity climbed to near normal levels within 10 minutes of administration, and peak effects were sustained through the first 24 hours after administration.
On the basis of the platelet function assays, the pattern of response to bentracimab was “very similar in the surgical and bleeding patients,” reported Dr. Bhatt, executive director of interventional cardiovascular programs at Brigham and Women’s Health, Boston.
The effect was also consistent across a broad array of prespecified subgroups, including stratifications by age, renal function, time from last dose of ticagrelor, race, and the presence of comorbidities, such as diabetes, renal dysfunction, hypertension, and history of MI.
Hemostasis documented in all but one patient
Adjudicated hemostasis was achieved in 100% of the 113 urgent surgical patients evaluated. In the nine major bleeding patients, six achieved excellent hemostasis and one achieved good hemostasis. One had poor hemostasis, and one was unevaluable.
Platelet rebound following bentracimab administration, measured by mean platelet volume, was not observed.
There were no serious adverse events, allergic reactions, or serious infusion-related reactions associated with the administration of bentracimab, Dr. Bhatt said.
While Dr. Bhatt acknowledged that the number of patients in the major-bleeding subgroup was small, he noted that the reduction in platelet reactivity relative to baseline was still significant. In addition, he characterized urgent surgery as “an excellent model of bleeding” and pointed out the consistency of results in the surgical and major-bleeding groups.
The interim results are also consistent with phase 1 data published 2 years ago, and with the subsequent phase 2 studies. All of these data are now under regulatory review both in the United States and in Europe, according to Dr. Bhatt.
No good current options for reversal
Evidence of efficacy and safety is encouraging, because current options for urgently reversing ticagrelor are “disappointing,” according to the invited discussant Gilles Montalescot, MD, PhD, professor of cardiology, Pitié-Salpêtrière Hôpital, Paris.
“Platelet transfusion has some value for clopidogrel and prasugrel, but it does not work for ticagrelor,” said Dr. Montalescot, referring to two other P2Y12 inhibitors. Substantiating the need for a reversal agent, he identified several other strategies that have proven ineffective, such as desmopressin and sorbent hemadsorption.
Overall, Dr. Montalescot acknowledged the need for a highly effective ticagrelor reversal agent, but he did have some criticisms of REVERSE-IT. For one, he was not convinced about the design.
“What was unethical in having a control group?” he asked, suggesting that it was feasible and would have addressed issues of relative efficacy and safety.
For example, the authors concluded that none of the thrombotic events were likely to be treatment related, but “four events occurred immediately after reversal without an alternate explanation,” Dr. Montalescot pointed out. “Was this a signal or background noise?”
Nevertheless, he agreed that the interim phase 3 data are consistent with the previously reported phase 2 studies, and he reiterated that a strategy to reverse ticagrelor’s effects is an important unmet need.
Dr. Bhatt has a financial relationship with a large number of pharmaceutical companies, including PhaseBio, which provided funding for the REVERSE-IT trial. Dr. Montalescot reported financial relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Boston Scientific, Bristol-Myers Squibb, Cell-Prothera, CSL-Behring, Europa, Idorsia, Servicer, Medtronic, Merck Sharpe & Dohme, Novartis, Pfizer, Quantum Genomics, and Sanofi-Aventis.
The experimental monoclonal antibody bentracimab, which reverses the antiplatelet effects of ticagrelor, appears to be heading toward regulatory approval, on the basis of an interim analysis of the phase 3 REVERSE-IT trial.
“Rates of effective hemostasis were adjudicated as good or excellent in more than 90% of cases with no drug-related serious adverse events or allergic or infusion-related reactions,” reported Deepak L. Bhatt, MD, at the American Heart Association scientific sessions.
The interim analysis of this nonrandomized, single-arm study was requested by the Food and Drug Administration, which is considering a conditional accelerated approval of bentracimab (formerly PB2452) if efficacy and safety are established.
Upon administration, bentracimab binds to free ticagrelor so that ticagrelor cannot bind to the P2Y12 platelet receptor. This interrupts one of the key steps in the pathway of platelet aggregation.
REVERSE-IT is still enrolling patients. This interim analysis was conducted with the first 150 patients who met eligibility criteria and were treated. Of these, 142 patients were enrolled for an urgent surgical indication and 8 for a major bleeding indication. After some exclusions for lack of urgency and reclassifications following adjudication, there were 113 surgical cases and 9 major bleeding patients evaluable for hemostasis.
Platelet function assays test reversal
On the primary reversal endpoint, which was restoration of activity on the proprietary platelet function assays Verify Now and PRUTest, a rapid restoration of platelet function was achieved in both surgical and major-bleeding patients. Platelet reactivity climbed to near normal levels within 10 minutes of administration, and peak effects were sustained through the first 24 hours after administration.
On the basis of the platelet function assays, the pattern of response to bentracimab was “very similar in the surgical and bleeding patients,” reported Dr. Bhatt, executive director of interventional cardiovascular programs at Brigham and Women’s Health, Boston.
The effect was also consistent across a broad array of prespecified subgroups, including stratifications by age, renal function, time from last dose of ticagrelor, race, and the presence of comorbidities, such as diabetes, renal dysfunction, hypertension, and history of MI.
Hemostasis documented in all but one patient
Adjudicated hemostasis was achieved in 100% of the 113 urgent surgical patients evaluated. In the nine major bleeding patients, six achieved excellent hemostasis and one achieved good hemostasis. One had poor hemostasis, and one was unevaluable.
Platelet rebound following bentracimab administration, measured by mean platelet volume, was not observed.
There were no serious adverse events, allergic reactions, or serious infusion-related reactions associated with the administration of bentracimab, Dr. Bhatt said.
While Dr. Bhatt acknowledged that the number of patients in the major-bleeding subgroup was small, he noted that the reduction in platelet reactivity relative to baseline was still significant. In addition, he characterized urgent surgery as “an excellent model of bleeding” and pointed out the consistency of results in the surgical and major-bleeding groups.
The interim results are also consistent with phase 1 data published 2 years ago, and with the subsequent phase 2 studies. All of these data are now under regulatory review both in the United States and in Europe, according to Dr. Bhatt.
No good current options for reversal
Evidence of efficacy and safety is encouraging, because current options for urgently reversing ticagrelor are “disappointing,” according to the invited discussant Gilles Montalescot, MD, PhD, professor of cardiology, Pitié-Salpêtrière Hôpital, Paris.
“Platelet transfusion has some value for clopidogrel and prasugrel, but it does not work for ticagrelor,” said Dr. Montalescot, referring to two other P2Y12 inhibitors. Substantiating the need for a reversal agent, he identified several other strategies that have proven ineffective, such as desmopressin and sorbent hemadsorption.
Overall, Dr. Montalescot acknowledged the need for a highly effective ticagrelor reversal agent, but he did have some criticisms of REVERSE-IT. For one, he was not convinced about the design.
“What was unethical in having a control group?” he asked, suggesting that it was feasible and would have addressed issues of relative efficacy and safety.
For example, the authors concluded that none of the thrombotic events were likely to be treatment related, but “four events occurred immediately after reversal without an alternate explanation,” Dr. Montalescot pointed out. “Was this a signal or background noise?”
Nevertheless, he agreed that the interim phase 3 data are consistent with the previously reported phase 2 studies, and he reiterated that a strategy to reverse ticagrelor’s effects is an important unmet need.
Dr. Bhatt has a financial relationship with a large number of pharmaceutical companies, including PhaseBio, which provided funding for the REVERSE-IT trial. Dr. Montalescot reported financial relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Boston Scientific, Bristol-Myers Squibb, Cell-Prothera, CSL-Behring, Europa, Idorsia, Servicer, Medtronic, Merck Sharpe & Dohme, Novartis, Pfizer, Quantum Genomics, and Sanofi-Aventis.
The experimental monoclonal antibody bentracimab, which reverses the antiplatelet effects of ticagrelor, appears to be heading toward regulatory approval, on the basis of an interim analysis of the phase 3 REVERSE-IT trial.
“Rates of effective hemostasis were adjudicated as good or excellent in more than 90% of cases with no drug-related serious adverse events or allergic or infusion-related reactions,” reported Deepak L. Bhatt, MD, at the American Heart Association scientific sessions.
The interim analysis of this nonrandomized, single-arm study was requested by the Food and Drug Administration, which is considering a conditional accelerated approval of bentracimab (formerly PB2452) if efficacy and safety are established.
Upon administration, bentracimab binds to free ticagrelor so that ticagrelor cannot bind to the P2Y12 platelet receptor. This interrupts one of the key steps in the pathway of platelet aggregation.
REVERSE-IT is still enrolling patients. This interim analysis was conducted with the first 150 patients who met eligibility criteria and were treated. Of these, 142 patients were enrolled for an urgent surgical indication and 8 for a major bleeding indication. After some exclusions for lack of urgency and reclassifications following adjudication, there were 113 surgical cases and 9 major bleeding patients evaluable for hemostasis.
Platelet function assays test reversal
On the primary reversal endpoint, which was restoration of activity on the proprietary platelet function assays Verify Now and PRUTest, a rapid restoration of platelet function was achieved in both surgical and major-bleeding patients. Platelet reactivity climbed to near normal levels within 10 minutes of administration, and peak effects were sustained through the first 24 hours after administration.
On the basis of the platelet function assays, the pattern of response to bentracimab was “very similar in the surgical and bleeding patients,” reported Dr. Bhatt, executive director of interventional cardiovascular programs at Brigham and Women’s Health, Boston.
The effect was also consistent across a broad array of prespecified subgroups, including stratifications by age, renal function, time from last dose of ticagrelor, race, and the presence of comorbidities, such as diabetes, renal dysfunction, hypertension, and history of MI.
Hemostasis documented in all but one patient
Adjudicated hemostasis was achieved in 100% of the 113 urgent surgical patients evaluated. In the nine major bleeding patients, six achieved excellent hemostasis and one achieved good hemostasis. One had poor hemostasis, and one was unevaluable.
Platelet rebound following bentracimab administration, measured by mean platelet volume, was not observed.
There were no serious adverse events, allergic reactions, or serious infusion-related reactions associated with the administration of bentracimab, Dr. Bhatt said.
While Dr. Bhatt acknowledged that the number of patients in the major-bleeding subgroup was small, he noted that the reduction in platelet reactivity relative to baseline was still significant. In addition, he characterized urgent surgery as “an excellent model of bleeding” and pointed out the consistency of results in the surgical and major-bleeding groups.
The interim results are also consistent with phase 1 data published 2 years ago, and with the subsequent phase 2 studies. All of these data are now under regulatory review both in the United States and in Europe, according to Dr. Bhatt.
No good current options for reversal
Evidence of efficacy and safety is encouraging, because current options for urgently reversing ticagrelor are “disappointing,” according to the invited discussant Gilles Montalescot, MD, PhD, professor of cardiology, Pitié-Salpêtrière Hôpital, Paris.
“Platelet transfusion has some value for clopidogrel and prasugrel, but it does not work for ticagrelor,” said Dr. Montalescot, referring to two other P2Y12 inhibitors. Substantiating the need for a reversal agent, he identified several other strategies that have proven ineffective, such as desmopressin and sorbent hemadsorption.
Overall, Dr. Montalescot acknowledged the need for a highly effective ticagrelor reversal agent, but he did have some criticisms of REVERSE-IT. For one, he was not convinced about the design.
“What was unethical in having a control group?” he asked, suggesting that it was feasible and would have addressed issues of relative efficacy and safety.
For example, the authors concluded that none of the thrombotic events were likely to be treatment related, but “four events occurred immediately after reversal without an alternate explanation,” Dr. Montalescot pointed out. “Was this a signal or background noise?”
Nevertheless, he agreed that the interim phase 3 data are consistent with the previously reported phase 2 studies, and he reiterated that a strategy to reverse ticagrelor’s effects is an important unmet need.
Dr. Bhatt has a financial relationship with a large number of pharmaceutical companies, including PhaseBio, which provided funding for the REVERSE-IT trial. Dr. Montalescot reported financial relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Boston Scientific, Bristol-Myers Squibb, Cell-Prothera, CSL-Behring, Europa, Idorsia, Servicer, Medtronic, Merck Sharpe & Dohme, Novartis, Pfizer, Quantum Genomics, and Sanofi-Aventis.
FROM AHA 2021
Genotype, need for transfusion predict death in VEXAS syndrome
Among patients with the recently defined severe autoinflammatory syndrome VEXAS, those who are transfusion dependent or have a specific amino acid substitution are at highest risk for death, whereas those with ear chondritis are at significantly lower risk, a multinational team of investigators has found.
Their study of mortality and predictors of survival among patients with genetically confirmed VEXAS showed that patients with a VEXAS variant resulting in an amino acid substitution of a methionine for a valine had a 3.5-fold higher risk for death, compared with patients with either a methionine-to-threonine substitution or a methionine-to-leucine swap.
Transfusion dependence was an independent predictor of mortality. Patients who became dependent on transfusions after symptom onset had a nearly threefold higher risk for death, reported Marcela A. Ferrada, MD, a clinical fellow at the National Institute of Arthritis and Musculoskeletal and Skin Diseases.
“These findings should inform risk assessment and clinical management in patients with VEXAS syndrome,” she said in an oral abstract presentation during the virtual annual meeting of the American College of Rheumatology.
“These genetic findings have proven right now to be not only diagnostic, but we have shown that they’re also prognostic, and we hope that this is going to help us identify patients who could have more aggressive treatment,” Dr. Ferrada said.
She also discussed her findings in a media briefing held 2 days prior to her plenary presentation. At that briefing, this news organization asked participating clinicians whether they had patients who they suspected may have had undiagnosed VEXAS.
“My answer to that is interesting,” replied moderator Vaneet Sandhu, MD, from Loma Linda (Calif.) University and Riverside University Health System.
“In the last couple of days, I’ve been reading about VEXAS, and actually texted one of my colleagues yesterday and said, ‘Hey, you know these patients we’ve been seeing who have these strange rashes and chondritis and have maybe a diagnosis of leukocytoclastic vasculitis or something else – are we not diagnosing these patients?’ ” she said.
“I think we are looking at every patient with chondritis and reexamining their phenotype. We had dismissed certain symptoms because they didn’t fit the archetype for relapsing polychondritis, for example, but it could be VEXAS,” said Alfred Kim, MD, PhD, of Washington University in St. Louis, who also presented data during the briefing.
Three variants
VEXAS is caused by somatic mutations in UBA1, a gene that initiates cytoplasmic ubiquitylation, a process by which misfolded proteins are tagged for degradation.
The syndrome’s name is an acronym descriptive of the major features:
- Vacuoles in bone marrow cells.
- E-1 activating enzyme that UBA1 encodes for.
- X-linked.
- Autoinflammatory.
- Somatic mutation featuring hematologic mosaicism.
VEXAS results in rheumatologic, dermatologic, and hematologic symptoms that are often misdiagnosed as being caused by treatment-refractory relapsing polychondritis, polyarteritis nodosa, Sweet syndrome, giant cell arteritis, or myelodysplastic syndrome (MDS).
VEXAS was identified as a distinct syndrome within the past year by Dr. Ferrada and other investigators at NIAMS, the National Human Genome Research Institute, and other institutions.
In the study reported at ACR 2021, Dr. Ferrada and colleagues assessed 83 men who had been referred for genetic testing for VEXAS at the National Institutes of Health, in Bethesda, Md., and at Leeds (England) Teaching Hospitals NHS Trust.
All patients were confirmed to have VEXAS-defining genetic mutations in UBA1 by Sanger sequencing of peripheral blood samples. Only those patients with mutations at codon p.Met41 were included in the investigators’ analysis. Mutations at that site account for nearly all cases of VEXAS that have been identified to date.
The most common clinical manifestation of VEXAS was skin involvement, which occurred in all but one of the 83 patients. Other common manifestations included arthritis (58 patients), pulmonary infiltrates (57 patients), and ear chondritis (54 patients).
Fifteen patients were found to have the leucine variant, 18 had the valine variant, and 50 had the threonine variant. The median age at disease onset was 66 years in the leucine and threonine variant groups and 65 in the valine variant group.
The clinical diagnosis differed according to genotype: 4 of 18 patients (22%) with the valine variant were diagnosed with relapsing polychondritis, compared with 8 of 15 (53%) with the leucine variant and 31 of 50 (62%) with the threonine variant (P = .01).
In contrast, 55% of patients with valine genotype were diagnosed with undifferentiated fever, compared with 6% of those with the leucine and 16% with the threonine genotypes (P = .001). More patients with the leucine variant (60%) were diagnosed with Sweet syndrome, compared with 11% and 14% of patients with the valine and threonine variants, respectively (P = .001).
There was no significant difference among the three genotypes in the percentage of patients diagnosed with MDS.
The follow-up period ranged from 1 to 18 years (median, 4.7 years). The median survival time from disease onset for all patients was 10 years.
Among patients with the valine variant, median survival was 9 years, which was significantly less than among patients with the other two variants (P = .01).
In univariable analysis, independent predictors of mortality were ear chondritis (hazard ratio, 0.26; P = .005), transfusion dependence, a time-dependent variable (HR, 2.59; P = .03), and the valine variant (HR, 3.5; P = .008).
The association between VEXAS genotype and phenotype could be explained by the finding that, among patients with the valine variant, there was significantly less translation of the catalytically proficient UBA1b isoform than in patients with the other two variants, Dr. Ferrada said.
Therapeutic options
Dr. Ferrada noted that to date no drugs have been shown to provide consistent therapeutic benefits for patients with VEXAS, but evidence as to the etiology of the syndrome points to possible treatment approaches.
“All of these findings I think are extremely important to help us guide management of these patients, as we know that the mutation is located in the stem cells in the bone marrow. So we suspect that doing a bone marrow transplant in these patients is going to be curative,” Dr. Ferrada said during the briefing.
Investigators are planning a phase 2 trial of allogeneic hematopoietic stem cell transplant for patients with VEXAS.
The study was supported by the National Institutes of Health. Dr. Ferrada, Dr. Sandhu, and Dr. Kim have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Among patients with the recently defined severe autoinflammatory syndrome VEXAS, those who are transfusion dependent or have a specific amino acid substitution are at highest risk for death, whereas those with ear chondritis are at significantly lower risk, a multinational team of investigators has found.
Their study of mortality and predictors of survival among patients with genetically confirmed VEXAS showed that patients with a VEXAS variant resulting in an amino acid substitution of a methionine for a valine had a 3.5-fold higher risk for death, compared with patients with either a methionine-to-threonine substitution or a methionine-to-leucine swap.
Transfusion dependence was an independent predictor of mortality. Patients who became dependent on transfusions after symptom onset had a nearly threefold higher risk for death, reported Marcela A. Ferrada, MD, a clinical fellow at the National Institute of Arthritis and Musculoskeletal and Skin Diseases.
“These findings should inform risk assessment and clinical management in patients with VEXAS syndrome,” she said in an oral abstract presentation during the virtual annual meeting of the American College of Rheumatology.
“These genetic findings have proven right now to be not only diagnostic, but we have shown that they’re also prognostic, and we hope that this is going to help us identify patients who could have more aggressive treatment,” Dr. Ferrada said.
She also discussed her findings in a media briefing held 2 days prior to her plenary presentation. At that briefing, this news organization asked participating clinicians whether they had patients who they suspected may have had undiagnosed VEXAS.
“My answer to that is interesting,” replied moderator Vaneet Sandhu, MD, from Loma Linda (Calif.) University and Riverside University Health System.
“In the last couple of days, I’ve been reading about VEXAS, and actually texted one of my colleagues yesterday and said, ‘Hey, you know these patients we’ve been seeing who have these strange rashes and chondritis and have maybe a diagnosis of leukocytoclastic vasculitis or something else – are we not diagnosing these patients?’ ” she said.
“I think we are looking at every patient with chondritis and reexamining their phenotype. We had dismissed certain symptoms because they didn’t fit the archetype for relapsing polychondritis, for example, but it could be VEXAS,” said Alfred Kim, MD, PhD, of Washington University in St. Louis, who also presented data during the briefing.
Three variants
VEXAS is caused by somatic mutations in UBA1, a gene that initiates cytoplasmic ubiquitylation, a process by which misfolded proteins are tagged for degradation.
The syndrome’s name is an acronym descriptive of the major features:
- Vacuoles in bone marrow cells.
- E-1 activating enzyme that UBA1 encodes for.
- X-linked.
- Autoinflammatory.
- Somatic mutation featuring hematologic mosaicism.
VEXAS results in rheumatologic, dermatologic, and hematologic symptoms that are often misdiagnosed as being caused by treatment-refractory relapsing polychondritis, polyarteritis nodosa, Sweet syndrome, giant cell arteritis, or myelodysplastic syndrome (MDS).
VEXAS was identified as a distinct syndrome within the past year by Dr. Ferrada and other investigators at NIAMS, the National Human Genome Research Institute, and other institutions.
In the study reported at ACR 2021, Dr. Ferrada and colleagues assessed 83 men who had been referred for genetic testing for VEXAS at the National Institutes of Health, in Bethesda, Md., and at Leeds (England) Teaching Hospitals NHS Trust.
All patients were confirmed to have VEXAS-defining genetic mutations in UBA1 by Sanger sequencing of peripheral blood samples. Only those patients with mutations at codon p.Met41 were included in the investigators’ analysis. Mutations at that site account for nearly all cases of VEXAS that have been identified to date.
The most common clinical manifestation of VEXAS was skin involvement, which occurred in all but one of the 83 patients. Other common manifestations included arthritis (58 patients), pulmonary infiltrates (57 patients), and ear chondritis (54 patients).
Fifteen patients were found to have the leucine variant, 18 had the valine variant, and 50 had the threonine variant. The median age at disease onset was 66 years in the leucine and threonine variant groups and 65 in the valine variant group.
The clinical diagnosis differed according to genotype: 4 of 18 patients (22%) with the valine variant were diagnosed with relapsing polychondritis, compared with 8 of 15 (53%) with the leucine variant and 31 of 50 (62%) with the threonine variant (P = .01).
In contrast, 55% of patients with valine genotype were diagnosed with undifferentiated fever, compared with 6% of those with the leucine and 16% with the threonine genotypes (P = .001). More patients with the leucine variant (60%) were diagnosed with Sweet syndrome, compared with 11% and 14% of patients with the valine and threonine variants, respectively (P = .001).
There was no significant difference among the three genotypes in the percentage of patients diagnosed with MDS.
The follow-up period ranged from 1 to 18 years (median, 4.7 years). The median survival time from disease onset for all patients was 10 years.
Among patients with the valine variant, median survival was 9 years, which was significantly less than among patients with the other two variants (P = .01).
In univariable analysis, independent predictors of mortality were ear chondritis (hazard ratio, 0.26; P = .005), transfusion dependence, a time-dependent variable (HR, 2.59; P = .03), and the valine variant (HR, 3.5; P = .008).
The association between VEXAS genotype and phenotype could be explained by the finding that, among patients with the valine variant, there was significantly less translation of the catalytically proficient UBA1b isoform than in patients with the other two variants, Dr. Ferrada said.
Therapeutic options
Dr. Ferrada noted that to date no drugs have been shown to provide consistent therapeutic benefits for patients with VEXAS, but evidence as to the etiology of the syndrome points to possible treatment approaches.
“All of these findings I think are extremely important to help us guide management of these patients, as we know that the mutation is located in the stem cells in the bone marrow. So we suspect that doing a bone marrow transplant in these patients is going to be curative,” Dr. Ferrada said during the briefing.
Investigators are planning a phase 2 trial of allogeneic hematopoietic stem cell transplant for patients with VEXAS.
The study was supported by the National Institutes of Health. Dr. Ferrada, Dr. Sandhu, and Dr. Kim have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Among patients with the recently defined severe autoinflammatory syndrome VEXAS, those who are transfusion dependent or have a specific amino acid substitution are at highest risk for death, whereas those with ear chondritis are at significantly lower risk, a multinational team of investigators has found.
Their study of mortality and predictors of survival among patients with genetically confirmed VEXAS showed that patients with a VEXAS variant resulting in an amino acid substitution of a methionine for a valine had a 3.5-fold higher risk for death, compared with patients with either a methionine-to-threonine substitution or a methionine-to-leucine swap.
Transfusion dependence was an independent predictor of mortality. Patients who became dependent on transfusions after symptom onset had a nearly threefold higher risk for death, reported Marcela A. Ferrada, MD, a clinical fellow at the National Institute of Arthritis and Musculoskeletal and Skin Diseases.
“These findings should inform risk assessment and clinical management in patients with VEXAS syndrome,” she said in an oral abstract presentation during the virtual annual meeting of the American College of Rheumatology.
“These genetic findings have proven right now to be not only diagnostic, but we have shown that they’re also prognostic, and we hope that this is going to help us identify patients who could have more aggressive treatment,” Dr. Ferrada said.
She also discussed her findings in a media briefing held 2 days prior to her plenary presentation. At that briefing, this news organization asked participating clinicians whether they had patients who they suspected may have had undiagnosed VEXAS.
“My answer to that is interesting,” replied moderator Vaneet Sandhu, MD, from Loma Linda (Calif.) University and Riverside University Health System.
“In the last couple of days, I’ve been reading about VEXAS, and actually texted one of my colleagues yesterday and said, ‘Hey, you know these patients we’ve been seeing who have these strange rashes and chondritis and have maybe a diagnosis of leukocytoclastic vasculitis or something else – are we not diagnosing these patients?’ ” she said.
“I think we are looking at every patient with chondritis and reexamining their phenotype. We had dismissed certain symptoms because they didn’t fit the archetype for relapsing polychondritis, for example, but it could be VEXAS,” said Alfred Kim, MD, PhD, of Washington University in St. Louis, who also presented data during the briefing.
Three variants
VEXAS is caused by somatic mutations in UBA1, a gene that initiates cytoplasmic ubiquitylation, a process by which misfolded proteins are tagged for degradation.
The syndrome’s name is an acronym descriptive of the major features:
- Vacuoles in bone marrow cells.
- E-1 activating enzyme that UBA1 encodes for.
- X-linked.
- Autoinflammatory.
- Somatic mutation featuring hematologic mosaicism.
VEXAS results in rheumatologic, dermatologic, and hematologic symptoms that are often misdiagnosed as being caused by treatment-refractory relapsing polychondritis, polyarteritis nodosa, Sweet syndrome, giant cell arteritis, or myelodysplastic syndrome (MDS).
VEXAS was identified as a distinct syndrome within the past year by Dr. Ferrada and other investigators at NIAMS, the National Human Genome Research Institute, and other institutions.
In the study reported at ACR 2021, Dr. Ferrada and colleagues assessed 83 men who had been referred for genetic testing for VEXAS at the National Institutes of Health, in Bethesda, Md., and at Leeds (England) Teaching Hospitals NHS Trust.
All patients were confirmed to have VEXAS-defining genetic mutations in UBA1 by Sanger sequencing of peripheral blood samples. Only those patients with mutations at codon p.Met41 were included in the investigators’ analysis. Mutations at that site account for nearly all cases of VEXAS that have been identified to date.
The most common clinical manifestation of VEXAS was skin involvement, which occurred in all but one of the 83 patients. Other common manifestations included arthritis (58 patients), pulmonary infiltrates (57 patients), and ear chondritis (54 patients).
Fifteen patients were found to have the leucine variant, 18 had the valine variant, and 50 had the threonine variant. The median age at disease onset was 66 years in the leucine and threonine variant groups and 65 in the valine variant group.
The clinical diagnosis differed according to genotype: 4 of 18 patients (22%) with the valine variant were diagnosed with relapsing polychondritis, compared with 8 of 15 (53%) with the leucine variant and 31 of 50 (62%) with the threonine variant (P = .01).
In contrast, 55% of patients with valine genotype were diagnosed with undifferentiated fever, compared with 6% of those with the leucine and 16% with the threonine genotypes (P = .001). More patients with the leucine variant (60%) were diagnosed with Sweet syndrome, compared with 11% and 14% of patients with the valine and threonine variants, respectively (P = .001).
There was no significant difference among the three genotypes in the percentage of patients diagnosed with MDS.
The follow-up period ranged from 1 to 18 years (median, 4.7 years). The median survival time from disease onset for all patients was 10 years.
Among patients with the valine variant, median survival was 9 years, which was significantly less than among patients with the other two variants (P = .01).
In univariable analysis, independent predictors of mortality were ear chondritis (hazard ratio, 0.26; P = .005), transfusion dependence, a time-dependent variable (HR, 2.59; P = .03), and the valine variant (HR, 3.5; P = .008).
The association between VEXAS genotype and phenotype could be explained by the finding that, among patients with the valine variant, there was significantly less translation of the catalytically proficient UBA1b isoform than in patients with the other two variants, Dr. Ferrada said.
Therapeutic options
Dr. Ferrada noted that to date no drugs have been shown to provide consistent therapeutic benefits for patients with VEXAS, but evidence as to the etiology of the syndrome points to possible treatment approaches.
“All of these findings I think are extremely important to help us guide management of these patients, as we know that the mutation is located in the stem cells in the bone marrow. So we suspect that doing a bone marrow transplant in these patients is going to be curative,” Dr. Ferrada said during the briefing.
Investigators are planning a phase 2 trial of allogeneic hematopoietic stem cell transplant for patients with VEXAS.
The study was supported by the National Institutes of Health. Dr. Ferrada, Dr. Sandhu, and Dr. Kim have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM ACR 2021
Risk-based antenatal type-and-screen blood testing safe and economical
Implementing a selective type-and-screen blood testing policy in the labor and delivery unit was associated with projected annual savings of close to $200,000, a large single-center study found. Furthermore, there was no evidence of increased maternal morbidity in the university-based facility performing more than 4,400 deliveries per year, according to Ashley E. Benson, MD, MA, of the department of obstetrics and gynecology at the University of Utah, Salt Lake City, and colleagues.
The study, published in Obstetrics & Gynecology, evaluated patient safety, resource utilization, and transfusion-related costs after a policy change from universal type and screen to selective, risk-based type and screen on admission to labor and delivery.
“There had been some national interest in moving toward decreased resource utilization, and findings that universal screening was not cost effective,” Dr. Benson, who has since relocated to Oregon Health & Science University, Portland, said in an interview. An earlier cost-effective modeling study at her center had suggested that universal test and screen was not cost effective and likely not safer either. “So based on that data we felt an implementation study was warranted.”
The switch to a selective policy was made in 2018, after which her group compared outcomes from October 2017 to September 2019, looking those both 1 year preimplementation and 1 year post implementation.
One year post implementation, the following outcomes emerged, compared with preimplementation:
- Overall projected saving of $181,000 a year in the maternity unit
- Lower mean monthly type- and screen-related costs, such as those for ABO typing, antibody screen, and antibody workup. cross-matches, hold clots, and transfused products: $9,753 vs. $20,676 in the preimplementation year (P < .001)
- A lower mean monthly cost of total transfusion preparedness: $25,090 vs. $39,211 (P < .001)
- No differences in emergency-release transfusion events (four vs. three, P = .99),the study’s primary safety outcome
- Fewer emergency-release red blood cell units transfused (9 vs. 24, P = .002) and O-negative RBC units transfused (8 vs. 18, P = .016)
- No differences in hysterectomies (0.05% vs. 0.1%, P = .44) and ICU admissions (0.45% vs. 0.51%, P = .43)
“In a year of selective type and screen, we saw a 51% reduction in costs related to type and screen, and a 38% reduction in overall transfusion-related costs,” the authors wrote. “This study supports other literature suggesting that more judicious use of type and screen may be safe and cost effective.”
Dr. Benson said the results were positively received when presented a meeting 2 years ago but the published version has yet to prompt feedback.
The study
Antepartum patients underwent transfusion preparedness tests according to the center’s standard antenatal admission order sets and were risk stratified in alignment with California Maternal Quality Care Collaborative recommendations. The mean maternal age of patients in both time periods was similar at just over 29 years and the mean gestational age at delivery was just under 38 weeks.
Under the new policy, a “hold clot” is obtained for women stratified as low or medium risk on admission. In this instance, a tube of patient blood is held in the blood bank but processed only if needed, as in the event of active hemorrhage or an order for transfusion. A blood cross-match is obtained on all women stratified as high risk or having a prior positive antibody screen.
Relevant costs were the direct costs of transfusion-related testing in the labor and delivery unit from a health system perspective.
Obstetric hemorrhage is the leading cause of maternal death worldwide, the authors pointed out. While transfusion in obstetric patients occurs in only 1% or 2% of all deliveries it is nevertheless difficult to predict which patients will need transfusion, with only 2%-8% of those stratified as high risk ultimately requiring transfusion. Although obstetric hemorrhage safety bundles recommend risk stratification on admission to labor and delivery with selective type and screen for higher-risk individuals, for safety and simplicity’s sake, many labor and delivery units perform universal type and screen.
The authors cautioned that these results occurred in an academic tertiary care center with systems fine-tuned to deal with active hemorrhage and deliver timely transfusable blood. “At the moment we don’t have enough data to say whether the selective approach would be safe in hospitals with more limited blood bank capacity and access and fewer transfusion specialists in a setting optimized to respond to emergent needs, Dr. Benson said.
Katayoun F. M. Fomani, MD, a transfusion medicine specialist and medical director of blood bank and transfusion services at Long Island Jewish Medical Center, New York, agreed. “This approach only works in a controlled environment such as in this study where eligible women were assessed antenatally at the same center, but it would not work at every institution,” she said in an interview. “In addition, all patients were assessed according to the California Collaborative guideline, which itself increases the safety level but is not followed everywhere.”
The obstetric division at her hospital in New York adheres to the universal type and screen. “We have patients coming in from outside whose antenatal testing was not done at our hospital,” she said. “For this selective approach to work you need a controlled population and the electronic resources and personnel to follow each patient carefully.”
The authors indicated no specific funding for this study and disclosed no potential conflicts of interest. Dr. Fomani had no potential competing interests to declare.
Implementing a selective type-and-screen blood testing policy in the labor and delivery unit was associated with projected annual savings of close to $200,000, a large single-center study found. Furthermore, there was no evidence of increased maternal morbidity in the university-based facility performing more than 4,400 deliveries per year, according to Ashley E. Benson, MD, MA, of the department of obstetrics and gynecology at the University of Utah, Salt Lake City, and colleagues.
The study, published in Obstetrics & Gynecology, evaluated patient safety, resource utilization, and transfusion-related costs after a policy change from universal type and screen to selective, risk-based type and screen on admission to labor and delivery.
“There had been some national interest in moving toward decreased resource utilization, and findings that universal screening was not cost effective,” Dr. Benson, who has since relocated to Oregon Health & Science University, Portland, said in an interview. An earlier cost-effective modeling study at her center had suggested that universal test and screen was not cost effective and likely not safer either. “So based on that data we felt an implementation study was warranted.”
The switch to a selective policy was made in 2018, after which her group compared outcomes from October 2017 to September 2019, looking those both 1 year preimplementation and 1 year post implementation.
One year post implementation, the following outcomes emerged, compared with preimplementation:
- Overall projected saving of $181,000 a year in the maternity unit
- Lower mean monthly type- and screen-related costs, such as those for ABO typing, antibody screen, and antibody workup. cross-matches, hold clots, and transfused products: $9,753 vs. $20,676 in the preimplementation year (P < .001)
- A lower mean monthly cost of total transfusion preparedness: $25,090 vs. $39,211 (P < .001)
- No differences in emergency-release transfusion events (four vs. three, P = .99),the study’s primary safety outcome
- Fewer emergency-release red blood cell units transfused (9 vs. 24, P = .002) and O-negative RBC units transfused (8 vs. 18, P = .016)
- No differences in hysterectomies (0.05% vs. 0.1%, P = .44) and ICU admissions (0.45% vs. 0.51%, P = .43)
“In a year of selective type and screen, we saw a 51% reduction in costs related to type and screen, and a 38% reduction in overall transfusion-related costs,” the authors wrote. “This study supports other literature suggesting that more judicious use of type and screen may be safe and cost effective.”
Dr. Benson said the results were positively received when presented a meeting 2 years ago but the published version has yet to prompt feedback.
The study
Antepartum patients underwent transfusion preparedness tests according to the center’s standard antenatal admission order sets and were risk stratified in alignment with California Maternal Quality Care Collaborative recommendations. The mean maternal age of patients in both time periods was similar at just over 29 years and the mean gestational age at delivery was just under 38 weeks.
Under the new policy, a “hold clot” is obtained for women stratified as low or medium risk on admission. In this instance, a tube of patient blood is held in the blood bank but processed only if needed, as in the event of active hemorrhage or an order for transfusion. A blood cross-match is obtained on all women stratified as high risk or having a prior positive antibody screen.
Relevant costs were the direct costs of transfusion-related testing in the labor and delivery unit from a health system perspective.
Obstetric hemorrhage is the leading cause of maternal death worldwide, the authors pointed out. While transfusion in obstetric patients occurs in only 1% or 2% of all deliveries it is nevertheless difficult to predict which patients will need transfusion, with only 2%-8% of those stratified as high risk ultimately requiring transfusion. Although obstetric hemorrhage safety bundles recommend risk stratification on admission to labor and delivery with selective type and screen for higher-risk individuals, for safety and simplicity’s sake, many labor and delivery units perform universal type and screen.
The authors cautioned that these results occurred in an academic tertiary care center with systems fine-tuned to deal with active hemorrhage and deliver timely transfusable blood. “At the moment we don’t have enough data to say whether the selective approach would be safe in hospitals with more limited blood bank capacity and access and fewer transfusion specialists in a setting optimized to respond to emergent needs, Dr. Benson said.
Katayoun F. M. Fomani, MD, a transfusion medicine specialist and medical director of blood bank and transfusion services at Long Island Jewish Medical Center, New York, agreed. “This approach only works in a controlled environment such as in this study where eligible women were assessed antenatally at the same center, but it would not work at every institution,” she said in an interview. “In addition, all patients were assessed according to the California Collaborative guideline, which itself increases the safety level but is not followed everywhere.”
The obstetric division at her hospital in New York adheres to the universal type and screen. “We have patients coming in from outside whose antenatal testing was not done at our hospital,” she said. “For this selective approach to work you need a controlled population and the electronic resources and personnel to follow each patient carefully.”
The authors indicated no specific funding for this study and disclosed no potential conflicts of interest. Dr. Fomani had no potential competing interests to declare.
Implementing a selective type-and-screen blood testing policy in the labor and delivery unit was associated with projected annual savings of close to $200,000, a large single-center study found. Furthermore, there was no evidence of increased maternal morbidity in the university-based facility performing more than 4,400 deliveries per year, according to Ashley E. Benson, MD, MA, of the department of obstetrics and gynecology at the University of Utah, Salt Lake City, and colleagues.
The study, published in Obstetrics & Gynecology, evaluated patient safety, resource utilization, and transfusion-related costs after a policy change from universal type and screen to selective, risk-based type and screen on admission to labor and delivery.
“There had been some national interest in moving toward decreased resource utilization, and findings that universal screening was not cost effective,” Dr. Benson, who has since relocated to Oregon Health & Science University, Portland, said in an interview. An earlier cost-effective modeling study at her center had suggested that universal test and screen was not cost effective and likely not safer either. “So based on that data we felt an implementation study was warranted.”
The switch to a selective policy was made in 2018, after which her group compared outcomes from October 2017 to September 2019, looking those both 1 year preimplementation and 1 year post implementation.
One year post implementation, the following outcomes emerged, compared with preimplementation:
- Overall projected saving of $181,000 a year in the maternity unit
- Lower mean monthly type- and screen-related costs, such as those for ABO typing, antibody screen, and antibody workup. cross-matches, hold clots, and transfused products: $9,753 vs. $20,676 in the preimplementation year (P < .001)
- A lower mean monthly cost of total transfusion preparedness: $25,090 vs. $39,211 (P < .001)
- No differences in emergency-release transfusion events (four vs. three, P = .99),the study’s primary safety outcome
- Fewer emergency-release red blood cell units transfused (9 vs. 24, P = .002) and O-negative RBC units transfused (8 vs. 18, P = .016)
- No differences in hysterectomies (0.05% vs. 0.1%, P = .44) and ICU admissions (0.45% vs. 0.51%, P = .43)
“In a year of selective type and screen, we saw a 51% reduction in costs related to type and screen, and a 38% reduction in overall transfusion-related costs,” the authors wrote. “This study supports other literature suggesting that more judicious use of type and screen may be safe and cost effective.”
Dr. Benson said the results were positively received when presented a meeting 2 years ago but the published version has yet to prompt feedback.
The study
Antepartum patients underwent transfusion preparedness tests according to the center’s standard antenatal admission order sets and were risk stratified in alignment with California Maternal Quality Care Collaborative recommendations. The mean maternal age of patients in both time periods was similar at just over 29 years and the mean gestational age at delivery was just under 38 weeks.
Under the new policy, a “hold clot” is obtained for women stratified as low or medium risk on admission. In this instance, a tube of patient blood is held in the blood bank but processed only if needed, as in the event of active hemorrhage or an order for transfusion. A blood cross-match is obtained on all women stratified as high risk or having a prior positive antibody screen.
Relevant costs were the direct costs of transfusion-related testing in the labor and delivery unit from a health system perspective.
Obstetric hemorrhage is the leading cause of maternal death worldwide, the authors pointed out. While transfusion in obstetric patients occurs in only 1% or 2% of all deliveries it is nevertheless difficult to predict which patients will need transfusion, with only 2%-8% of those stratified as high risk ultimately requiring transfusion. Although obstetric hemorrhage safety bundles recommend risk stratification on admission to labor and delivery with selective type and screen for higher-risk individuals, for safety and simplicity’s sake, many labor and delivery units perform universal type and screen.
The authors cautioned that these results occurred in an academic tertiary care center with systems fine-tuned to deal with active hemorrhage and deliver timely transfusable blood. “At the moment we don’t have enough data to say whether the selective approach would be safe in hospitals with more limited blood bank capacity and access and fewer transfusion specialists in a setting optimized to respond to emergent needs, Dr. Benson said.
Katayoun F. M. Fomani, MD, a transfusion medicine specialist and medical director of blood bank and transfusion services at Long Island Jewish Medical Center, New York, agreed. “This approach only works in a controlled environment such as in this study where eligible women were assessed antenatally at the same center, but it would not work at every institution,” she said in an interview. “In addition, all patients were assessed according to the California Collaborative guideline, which itself increases the safety level but is not followed everywhere.”
The obstetric division at her hospital in New York adheres to the universal type and screen. “We have patients coming in from outside whose antenatal testing was not done at our hospital,” she said. “For this selective approach to work you need a controlled population and the electronic resources and personnel to follow each patient carefully.”
The authors indicated no specific funding for this study and disclosed no potential conflicts of interest. Dr. Fomani had no potential competing interests to declare.
FROM OBSTETRICS & GYNECOLOGY
Antithrombotic therapy not warranted in COVID-19 outpatients
Antithrombotic therapy in clinically stable, nonhospitalized COVID-19 patients does not offer protection against adverse cardiovascular or pulmonary events, new randomized clinical trial results suggest.
Antithrombotic therapy has proven useful in acutely ill inpatients with COVID-19, but in this study, treatment with aspirin or apixaban (Eliquis) did not reduce the rate of all-cause mortality, symptomatic venous or arterial thromboembolism, myocardial infarction, stroke, or hospitalization for cardiovascular or pulmonary causes in patients ill with COVID-19 but who were not hospitalized.
“Among symptomatic, clinically stable outpatients with COVID-19, treatment with aspirin or apixaban compared with placebo did not reduce the rate of a composite clinical outcome,” the authors conclude. “However, the study was terminated after enrollment of 9% of participants because of a primary event rate lower than anticipated.”
The study, which was led by Jean M. Connors, MD, Brigham and Women’s Hospital, Boston, was published online October 11 in JAMA.
The ACTIV-4B Outpatient Thrombosis Prevention Trial was a randomized, adaptive, double-blind, placebo-controlled trial that sought to compare anticoagulant and antiplatelet therapy among 7,000 symptomatic but clinically stable outpatients with COVID-19.
The trial was conducted at 52 sites in the U.S. between Sept. 2020 and June 2021, with final follow-up this past August 5, and involved minimal face-to-face interactions with study participants.
Patients were randomized in a 1:1:1:1 ratio to aspirin (81 mg orally once daily; n = 164 patients), prophylactic-dose apixaban (2.5 mg orally twice daily; n = 165), therapeutic-dose apixaban (5 mg orally twice daily; n = 164), or placebo (n = 164) for 45 days.
The primary endpoint was a composite of all-cause mortality, symptomatic venous or arterial thromboembolism, myocardial infarction, stroke, or hospitalization for cardiovascular or pulmonary cause.
The trial was terminated early this past June by the independent data monitoring committee because of lower than anticipated event rates. At the time, just 657 symptomatic outpatients with COVID-19 had been enrolled.
The median age of the study participants was 54 years (Interquartile Range [IQR] 46-59); 59% were women.
The median time from diagnosis to randomization was 7 days, and the median time from randomization to initiation of study medications was 3 days.
The trial’s primary efficacy and safety analyses were restricted to patients who received at least one dose of trial medication, for a final number of 558 patients.
Among these patients, the primary endpoint occurred in 1 patient (0.7%) in the aspirin group, 1 patient (0.7%) in the 2.5 mg apixaban group, 2 patients (1.4%) in the 5-mg apixaban group, and 1 patient (0.7%) in the placebo group.
The researchers found that the absolute risk reductions compared with placebo for the primary outcome were 0.0% (95% confidence interval not calculable) in the aspirin group, 0.7% (95% confidence interval, -2.1% to 4.1%) in the prophylactic-dose apixaban group, and 1.4% (95% CI, -1.5% to 5%) in the therapeutic-dose apixaban group.
No major bleeding events were reported.
The absolute risk differences compared with placebo for clinically relevant nonmajor bleeding events were 2% (95% CI, -2.7% to 6.8%) in the aspirin group, 4.5% (95% CI, -0.7% to 10.2%) in the prophylactic-dose apixaban group, and 6.9% (95% CI, 1.4% to 12.9%) in the therapeutic-dose apixaban group.
Safety and efficacy results were similar in all randomly assigned patients.
The researchers speculated that a combination of two demographic shifts over time may have led to the lower than anticipated rate of events in ACTIV-4B.
“First, the threshold for hospital admission has markedly declined since the beginning of the pandemic, such that hospitalization is no longer limited almost exclusively to those with severe pulmonary distress likely to require mechanical ventilation,” they write. “As a result, the severity of illness among individuals with COVID-19 and destined for outpatient care has declined.”
“Second, at least within the U.S., where the trial was conducted, individuals currently being infected with SARS-CoV-2 tend to be younger and have fewer comorbidities when compared with individuals with incident infection at the onset of the pandemic,” they add.
Further, COVID-19 testing was quite limited early in the pandemic, they note, “and it is possible that the anticipated event rates based on data from registries available at that time were overestimated because the denominator (that is, the number of infected individuals overall) was essentially unknown.”
Robust evidence
“The ACTIV-4B trial is the first randomized trial to generate robust evidence about the effects of antithrombotic therapy in outpatients with COVID-19,” Otavio Berwanger, MD, PhD, director of the Academic Research Organization, Hospital Israelita Albert Einstein, Sao Paulo-SP, Brazil, told this news organization.
“It should be noted that this was a well-designed trial with low risk of bias. On the other hand, the main limitation is the low number of events and, consequently, the limited statistical power,” said Dr. Berwanger, who wrote an accompanying editorial.
The ACTIV-4B trial has immediate implications for clinical practice, he added.
“In this sense, considering the neutral results for major cardiopulmonary outcomes, the use of aspirin or apixaban for the management of outpatients with COVID-19 should not be recommended.”
ACTIV-4B also provides useful information for the steering committees of other ongoing trials of antithrombotic therapy for patients with COVID-19 who are not hospitalized, Dr. Berwanger added.
“In this sense, probably issues like statistical power, outcome choices, recruitment feasibility, and even futility would need to be revisited. And finally, lessons learned from the implementation of an innovative, pragmatic, and decentralized trial design represent an important legacy for future trials in cardiovascular diseases and other common conditions,” he said.
The study was funded by the National Institutes of Health, and the National Heart, Lung, and Blood Institute. Dr. Connors reports financial relationships with Bristol-Myers Squibb, Pfizer, Abbott, Alnylam, Takeda, Roche, and Sanofi. Dr. Berwanger reports financial relationships with AstraZeneca, Amgen, Servier, Bristol-Myers Squibb, Bayer, Novartis, Pfizer, and Boehringer Ingelheim.
A version of this article first appeared on Medscape.com.
Antithrombotic therapy in clinically stable, nonhospitalized COVID-19 patients does not offer protection against adverse cardiovascular or pulmonary events, new randomized clinical trial results suggest.
Antithrombotic therapy has proven useful in acutely ill inpatients with COVID-19, but in this study, treatment with aspirin or apixaban (Eliquis) did not reduce the rate of all-cause mortality, symptomatic venous or arterial thromboembolism, myocardial infarction, stroke, or hospitalization for cardiovascular or pulmonary causes in patients ill with COVID-19 but who were not hospitalized.
“Among symptomatic, clinically stable outpatients with COVID-19, treatment with aspirin or apixaban compared with placebo did not reduce the rate of a composite clinical outcome,” the authors conclude. “However, the study was terminated after enrollment of 9% of participants because of a primary event rate lower than anticipated.”
The study, which was led by Jean M. Connors, MD, Brigham and Women’s Hospital, Boston, was published online October 11 in JAMA.
The ACTIV-4B Outpatient Thrombosis Prevention Trial was a randomized, adaptive, double-blind, placebo-controlled trial that sought to compare anticoagulant and antiplatelet therapy among 7,000 symptomatic but clinically stable outpatients with COVID-19.
The trial was conducted at 52 sites in the U.S. between Sept. 2020 and June 2021, with final follow-up this past August 5, and involved minimal face-to-face interactions with study participants.
Patients were randomized in a 1:1:1:1 ratio to aspirin (81 mg orally once daily; n = 164 patients), prophylactic-dose apixaban (2.5 mg orally twice daily; n = 165), therapeutic-dose apixaban (5 mg orally twice daily; n = 164), or placebo (n = 164) for 45 days.
The primary endpoint was a composite of all-cause mortality, symptomatic venous or arterial thromboembolism, myocardial infarction, stroke, or hospitalization for cardiovascular or pulmonary cause.
The trial was terminated early this past June by the independent data monitoring committee because of lower than anticipated event rates. At the time, just 657 symptomatic outpatients with COVID-19 had been enrolled.
The median age of the study participants was 54 years (Interquartile Range [IQR] 46-59); 59% were women.
The median time from diagnosis to randomization was 7 days, and the median time from randomization to initiation of study medications was 3 days.
The trial’s primary efficacy and safety analyses were restricted to patients who received at least one dose of trial medication, for a final number of 558 patients.
Among these patients, the primary endpoint occurred in 1 patient (0.7%) in the aspirin group, 1 patient (0.7%) in the 2.5 mg apixaban group, 2 patients (1.4%) in the 5-mg apixaban group, and 1 patient (0.7%) in the placebo group.
The researchers found that the absolute risk reductions compared with placebo for the primary outcome were 0.0% (95% confidence interval not calculable) in the aspirin group, 0.7% (95% confidence interval, -2.1% to 4.1%) in the prophylactic-dose apixaban group, and 1.4% (95% CI, -1.5% to 5%) in the therapeutic-dose apixaban group.
No major bleeding events were reported.
The absolute risk differences compared with placebo for clinically relevant nonmajor bleeding events were 2% (95% CI, -2.7% to 6.8%) in the aspirin group, 4.5% (95% CI, -0.7% to 10.2%) in the prophylactic-dose apixaban group, and 6.9% (95% CI, 1.4% to 12.9%) in the therapeutic-dose apixaban group.
Safety and efficacy results were similar in all randomly assigned patients.
The researchers speculated that a combination of two demographic shifts over time may have led to the lower than anticipated rate of events in ACTIV-4B.
“First, the threshold for hospital admission has markedly declined since the beginning of the pandemic, such that hospitalization is no longer limited almost exclusively to those with severe pulmonary distress likely to require mechanical ventilation,” they write. “As a result, the severity of illness among individuals with COVID-19 and destined for outpatient care has declined.”
“Second, at least within the U.S., where the trial was conducted, individuals currently being infected with SARS-CoV-2 tend to be younger and have fewer comorbidities when compared with individuals with incident infection at the onset of the pandemic,” they add.
Further, COVID-19 testing was quite limited early in the pandemic, they note, “and it is possible that the anticipated event rates based on data from registries available at that time were overestimated because the denominator (that is, the number of infected individuals overall) was essentially unknown.”
Robust evidence
“The ACTIV-4B trial is the first randomized trial to generate robust evidence about the effects of antithrombotic therapy in outpatients with COVID-19,” Otavio Berwanger, MD, PhD, director of the Academic Research Organization, Hospital Israelita Albert Einstein, Sao Paulo-SP, Brazil, told this news organization.
“It should be noted that this was a well-designed trial with low risk of bias. On the other hand, the main limitation is the low number of events and, consequently, the limited statistical power,” said Dr. Berwanger, who wrote an accompanying editorial.
The ACTIV-4B trial has immediate implications for clinical practice, he added.
“In this sense, considering the neutral results for major cardiopulmonary outcomes, the use of aspirin or apixaban for the management of outpatients with COVID-19 should not be recommended.”
ACTIV-4B also provides useful information for the steering committees of other ongoing trials of antithrombotic therapy for patients with COVID-19 who are not hospitalized, Dr. Berwanger added.
“In this sense, probably issues like statistical power, outcome choices, recruitment feasibility, and even futility would need to be revisited. And finally, lessons learned from the implementation of an innovative, pragmatic, and decentralized trial design represent an important legacy for future trials in cardiovascular diseases and other common conditions,” he said.
The study was funded by the National Institutes of Health, and the National Heart, Lung, and Blood Institute. Dr. Connors reports financial relationships with Bristol-Myers Squibb, Pfizer, Abbott, Alnylam, Takeda, Roche, and Sanofi. Dr. Berwanger reports financial relationships with AstraZeneca, Amgen, Servier, Bristol-Myers Squibb, Bayer, Novartis, Pfizer, and Boehringer Ingelheim.
A version of this article first appeared on Medscape.com.
Antithrombotic therapy in clinically stable, nonhospitalized COVID-19 patients does not offer protection against adverse cardiovascular or pulmonary events, new randomized clinical trial results suggest.
Antithrombotic therapy has proven useful in acutely ill inpatients with COVID-19, but in this study, treatment with aspirin or apixaban (Eliquis) did not reduce the rate of all-cause mortality, symptomatic venous or arterial thromboembolism, myocardial infarction, stroke, or hospitalization for cardiovascular or pulmonary causes in patients ill with COVID-19 but who were not hospitalized.
“Among symptomatic, clinically stable outpatients with COVID-19, treatment with aspirin or apixaban compared with placebo did not reduce the rate of a composite clinical outcome,” the authors conclude. “However, the study was terminated after enrollment of 9% of participants because of a primary event rate lower than anticipated.”
The study, which was led by Jean M. Connors, MD, Brigham and Women’s Hospital, Boston, was published online October 11 in JAMA.
The ACTIV-4B Outpatient Thrombosis Prevention Trial was a randomized, adaptive, double-blind, placebo-controlled trial that sought to compare anticoagulant and antiplatelet therapy among 7,000 symptomatic but clinically stable outpatients with COVID-19.
The trial was conducted at 52 sites in the U.S. between Sept. 2020 and June 2021, with final follow-up this past August 5, and involved minimal face-to-face interactions with study participants.
Patients were randomized in a 1:1:1:1 ratio to aspirin (81 mg orally once daily; n = 164 patients), prophylactic-dose apixaban (2.5 mg orally twice daily; n = 165), therapeutic-dose apixaban (5 mg orally twice daily; n = 164), or placebo (n = 164) for 45 days.
The primary endpoint was a composite of all-cause mortality, symptomatic venous or arterial thromboembolism, myocardial infarction, stroke, or hospitalization for cardiovascular or pulmonary cause.
The trial was terminated early this past June by the independent data monitoring committee because of lower than anticipated event rates. At the time, just 657 symptomatic outpatients with COVID-19 had been enrolled.
The median age of the study participants was 54 years (Interquartile Range [IQR] 46-59); 59% were women.
The median time from diagnosis to randomization was 7 days, and the median time from randomization to initiation of study medications was 3 days.
The trial’s primary efficacy and safety analyses were restricted to patients who received at least one dose of trial medication, for a final number of 558 patients.
Among these patients, the primary endpoint occurred in 1 patient (0.7%) in the aspirin group, 1 patient (0.7%) in the 2.5 mg apixaban group, 2 patients (1.4%) in the 5-mg apixaban group, and 1 patient (0.7%) in the placebo group.
The researchers found that the absolute risk reductions compared with placebo for the primary outcome were 0.0% (95% confidence interval not calculable) in the aspirin group, 0.7% (95% confidence interval, -2.1% to 4.1%) in the prophylactic-dose apixaban group, and 1.4% (95% CI, -1.5% to 5%) in the therapeutic-dose apixaban group.
No major bleeding events were reported.
The absolute risk differences compared with placebo for clinically relevant nonmajor bleeding events were 2% (95% CI, -2.7% to 6.8%) in the aspirin group, 4.5% (95% CI, -0.7% to 10.2%) in the prophylactic-dose apixaban group, and 6.9% (95% CI, 1.4% to 12.9%) in the therapeutic-dose apixaban group.
Safety and efficacy results were similar in all randomly assigned patients.
The researchers speculated that a combination of two demographic shifts over time may have led to the lower than anticipated rate of events in ACTIV-4B.
“First, the threshold for hospital admission has markedly declined since the beginning of the pandemic, such that hospitalization is no longer limited almost exclusively to those with severe pulmonary distress likely to require mechanical ventilation,” they write. “As a result, the severity of illness among individuals with COVID-19 and destined for outpatient care has declined.”
“Second, at least within the U.S., where the trial was conducted, individuals currently being infected with SARS-CoV-2 tend to be younger and have fewer comorbidities when compared with individuals with incident infection at the onset of the pandemic,” they add.
Further, COVID-19 testing was quite limited early in the pandemic, they note, “and it is possible that the anticipated event rates based on data from registries available at that time were overestimated because the denominator (that is, the number of infected individuals overall) was essentially unknown.”
Robust evidence
“The ACTIV-4B trial is the first randomized trial to generate robust evidence about the effects of antithrombotic therapy in outpatients with COVID-19,” Otavio Berwanger, MD, PhD, director of the Academic Research Organization, Hospital Israelita Albert Einstein, Sao Paulo-SP, Brazil, told this news organization.
“It should be noted that this was a well-designed trial with low risk of bias. On the other hand, the main limitation is the low number of events and, consequently, the limited statistical power,” said Dr. Berwanger, who wrote an accompanying editorial.
The ACTIV-4B trial has immediate implications for clinical practice, he added.
“In this sense, considering the neutral results for major cardiopulmonary outcomes, the use of aspirin or apixaban for the management of outpatients with COVID-19 should not be recommended.”
ACTIV-4B also provides useful information for the steering committees of other ongoing trials of antithrombotic therapy for patients with COVID-19 who are not hospitalized, Dr. Berwanger added.
“In this sense, probably issues like statistical power, outcome choices, recruitment feasibility, and even futility would need to be revisited. And finally, lessons learned from the implementation of an innovative, pragmatic, and decentralized trial design represent an important legacy for future trials in cardiovascular diseases and other common conditions,” he said.
The study was funded by the National Institutes of Health, and the National Heart, Lung, and Blood Institute. Dr. Connors reports financial relationships with Bristol-Myers Squibb, Pfizer, Abbott, Alnylam, Takeda, Roche, and Sanofi. Dr. Berwanger reports financial relationships with AstraZeneca, Amgen, Servier, Bristol-Myers Squibb, Bayer, Novartis, Pfizer, and Boehringer Ingelheim.
A version of this article first appeared on Medscape.com.