Next time a child in your care has a suspected fracture as a result of a fall and x-ray films reveal a buckle fracture, consider telling parents there’s no need for an urgent visit to the ED. As long as the pain is manageable, treating the injury within a day or so will likely be more convenient for the family, will cost less, and will not result in any complications for the child.

Buckle (or torus) fractures—the most common type of fracture occurring in the pediatric population and accounting for a large number of visits to primary care physicians (PCPs), EDs, and orthopedic clinics each year¹ —involve impaction of bone along only 1 cortex and are therefore inherently stable.² Even with only minimal immobilization, the overwhelming majority of buckle fractures heal without complication.³ Although many patients present directly to the ED for management of these fractures, many others present initially to their PCP, given the relatively minor nature of their symptoms and mechanism of injury.

At our institution, the radiology department and referring physician jointly triage out-patients when radiographs requested by the referring physician show evidence of a fracture. Stable and unstable fractures are referred for immediate care—in the pediatric orthopedic clinic if the clinic is open and appointments are available; otherwise in the ED for initial splinting, with follow-up in the orthopedic clinic as soon as possible.

Referral of patients with buckle fractures for same-day care in the ED may bring about unnecessary costs and inconvenience for patients and families. However, policy at our institution dictates that all fractures, including stable buckle fractures, be referred for treatment immediately, once identified.

To determine whether patients with buckle fractures can be safely counseled on the possibility of nonurgent management, we compared the clinical outcomes of pediatric buckle fractures treated acutely or subacutely. The results of our study have practical implications for the timing of treatment or referrals, and for the management of buckle fractures by appropriately trained PCPs, especially in settings where orthopedic consultation may not be readily available.

Methods

Patient selection

The Vanderbilt Children’s Hospital institutional review board approved this retrospective cohort study, with waiver of patient consent. We reviewed 1923 consecutive charts of patients who were seen in the hospital’s pediatric orthopedic clinic for stable fractures between July, 1, 2004 and August 31, 2007. We identified patients for our study population by current procedural terminology (CPT) codes for fracture care that were compatible with buckle fracture or other stable fracture management without manipulation. Applicable CPT codes included the following fracture sites: radial head/neck (24650), ulnar shaft (25530), distal radius with or without ulnar styloid (25600), metacarpal (26600), phalanx of hand or foot (26720, 28510), distal fibula (27786), and metatarsal (28470).

Inclusion and exclusion criteria. Inclusion criteria among this screened population were an isolated buckle fracture mentioned in the official radiology report or pediatric orthopedic clinical note, and age <18 years at the time of injury. We excluded patients for the following reasons: uncertain date of injury (n=67), lack of final clinical follow-up (n=59), acute manipulation of the fracture (n=10), multiple concurrent injuries (n=11), or known metabolic bone disease (n=3) or coagulopathy (n=1).

After initial patient selection, a CAQ-certified pediatric radiologist (with additional fellowship training in pediatric musculoskeletal radiology) and a board-certified orthopedic surgeon (with pediatric orthopedic fellowship training) examined available radiographic images to confirm the diagnosis of a buckle fracture. We further excluded patients whose radiographic findings did not meet criteria for isolated buckle fractures.

Study populations

The final study population consisted of 341 children with confirmed isolated buckle fractures. We assigned patients to acute or subacute treatment groups based on the length of time between injury and presentation for care. Patients were assigned to acute treatment (n=155) if they presented for care on the same day as the injury. All others first seen >1 day after documented time of injury were assigned to subacute treatment (n=186).

We determined length of time between injury and presentation based on data available in the electronic medical record. If the injury was first documented in the orthopedic clinic, we reviewed notes to determine when the patient had initially sought care, and whether from our institution, a PCP, or an outside ED. If documentation showed that initial contact with any health care professional occurred within 1 day of the injury, we assigned the patient to acute management.

Data analysis

Data collection from computerized medical records included date of injury, date of initial care, anatomic location of fracture, mechanism of injury, referring physician, whether the patient was seen initially in the ED, date of last orthopedic follow-up, number of clinical visits, and clinical outcome. Clinical outcome was judged as “good” or “poor” at the last orthopedic follow-up visit, approximately 3 to 4 weeks after injury. A poor clinical outcome could indicate a clinically apparent deformity or functional impairment, need for subacute manipulation, or refracture. We deemed 1 patient’s outcome uncertain due to an ambiguous final clinical note, and we had this case reviewed by a pediatric orthopedist. Any visit to a PCP, ED, or orthopedic clinic was included in the total number of a patient’s clinical visits.

Consulting radiologists also noted the presence and degree of fracture angulation for each patient on initial and follow-up films. Degree of angulation was rated as mild (<10°), moderate (11°-20°), or severe (>20°). Follow-up films were not available for 14 patients (5.2% of acutely treated patients; 3.2% of subacutely treated patients), as final clinical follow-up occasionally occurred outside our institution. In these cases, we relied on the clinical note to determine degree of angulation, if present.

We obtained total charges (technical and professional) for buckle fracture treatment for patients treated initially in the ED and for patients seen initially in the orthopedic clinic.

Statistical analysis

We used an independent samples t-test to compare mean patient ages, times from initial treatment to final treatment, and the numbers of clinical encounters for patients in the acute and subacute treatment groups. For the acute treatment group, time from injury to initial care, by definition, was considered “0.” For the subacute treatment group, we constructed 99.9% confidence intervals around the mean time from injury to initial care to determine whether or not they included “0.”

We used Fisher’s exact test to gauge differences in the proportions of absent or mild initial angulation, absent or mild final angulation, and the point of initial care between the acute and subacute treatment groups. We used Pearson’s chi-squared test to assess between-group differences in the distribution of fracture sites (forearm, hand/foot, or leg), mechanism of injury (fall, direct blow, other), change in angulation (none, improved, worsened), and point of entry into the health care system (PCP, ED, orthopedic clinic). We performed statistical analyses with the statistical package SPSS v15 (SPSS, Inc., Chicago, Ill).

Results

Patient characteristics

Of the 1923 pediatric patients with stable fractures seen in the orthopedic clinic at our institution during the study period, 588 had isolated buckle fractures. Of these, we excluded 151 based on predefined criteria (see Methods). After consensus review of radiographs by a pediatric orthopedist and pediatric radiologist, we excluded an additional 96 patients with inconclusive radiographs. The final study group numbered 341 pediatric patients with confirmed isolated buckle fractures.

The forearm was most commonly affected, with isolated distal radius fractures accounting for 67.7% (231/341) of all fractures, and combined radius/ulna fractures accounting for 14.7% (50/341). The most common mechanism of injury was a fall (85.9%; 293/341), usually a direct fall, with a higher percentage of patients with direct falls in the acute management group ( TABLE 1 ). Mean age and sex were not significantly different for the 2 treatment groups.

TABLE 1
Baseline characteristics of study populations

Acute vs subacute management outcomes

Of the 341 patients included in the study, 155 patients were treated acutely and 186 patients were treated subacutely. For the subacute management group, mean time between injury and treatment was 2.5±2.6 days ( TABLE 2 ). We observed no poor clinical outcomes in either acute or subacute management groups. All patients, regardless of time elapsed from injury to initial splinting, recovered without complication. The difference in number of clinical visits between the acute and subacute management groups was not significant (acute 3.2±0.5; subacute 3.1±0.5). The mean length of clinical follow-up from initial splinting to discharge from orthopedic care was higher in the acute management group (acute 32.9±17.1 days; subacute 28.9±13.4 days).

Most patients presented with non-angulated fractures, regardless of time from injury to initial presentation ( TABLE 2 ). The degree of angulation worsened in a small proportion of fractures during convalescence. The difference in initial angulation, final angulation, or change in angulation between acute and subacute management groups was not significant.

A higher proportion of patients in the acute treatment group presented directly to the ED for care, whereas a higher proportion of patients in the subacute treatment group presented to their PCP during routine working hours and were referred to the orthopedic clinic ( TABLE 2 ). For both acute and subacute management groups, we compared outcomes for patients seen initially in the ED or orthopedic clinic. No adverse outcomes occurred among any of the studied patients.

TABLE 2
Clinical outcomes did not differ between acute and subacute management groups

Charge analysis

We compared total charges (professional and technical) for managing buckle fractures initially in the ED with those initially seen in the orthopedic clinic. Total charge per patient in the ED, including subsequent follow-up in the orthopedic clinic, was $4397 ($2516, professional; $1881, technical). Total charge per patient for treatment only in the orthopedic clinic was $1426 ($918, professional; $508, technical). Total charge per patient was $2971 more for patients treated initially in the ED.

Between July 1, 2004, and August 31, 2007, 159 patients (46.6%) with buckle fractures entered the health care system through their primary care physician. Of these, 44 patients were seen acutely by the physician; 115 patients were seen on a subacute basis. Of the 44 patients seen acutely, 24 (54%) were referred directly to the ED; 20 (45%) were referred to the orthopedic clinic. Of the 115 patients seen subacutely, 27 (23%) were referred directly to the ED, and the remaining 88 (76%) were referred to the orthopedic clinic. In sum, 51 patients (32%) were seen initially by a PCP, who referred them to the ED. The cost savings with each patient seen subacutely in the orthopedic clinic was $2971, and avoiding ED treatment for all patients could have yielded a total gross savings of approximately $150,000.

Discussion

Buckle fractures are inherently stable and almost universally heal without complication.^4,5 Perhaps because of the high likelihood of good outcome, there is a relative paucity of articles in the recent literature addressing the management of this common pediatric fracture. Older studies have addressed casting vs splinting and the need for follow-up, but no study has yet examined whether immediate treatment is necessary.^6,7 Although some studies have noted incidentally that many children have delayed presentation for care,⁵ none has specifically examined the clinical or economic impact of a delay in care or the effect of subacute treatment on outcomes.

Delayed treatment does not adversely affect clinical outcome. Our study objective was to compare clinical outcomes of buckle fractures treated acutely on the same day of injury with outcomes of those treated subacutely. The 2 groups did not differ in extent or angulation of fracture at presentation. We found no difference in outcomes between the groups; all fractures healed without complication. We observed no difference in final angulation of fracture on follow-up imaging. Though our institution routinely obtains follow-up films, it is worth mentioning that the utility of repeat films in pediatric buckle fractures with minimal initial angulation has been debated.⁵ These data suggest that subacute treatment of a buckle fracture is a safe and reasonable option.

Non-ED treatment substantially reduces cost. One goal of efficient health care delivery is to decrease the cost and burden of care without increasing long-term morbidity and disability. Evidence suggests that families may prefer less acute management options that allow greater convenience and flexibility, provided that clinical outcomes are not compromised.⁸ In the case of pediatric buckle fractures, higher costs (for both the patient and the hospital) and longer wait times related to ED care may be avoided by counseling patients on the option of subacute care. Our study found that referring patients directly to the orthopedic clinic, even if this results in a delay in definitive management, leads to a reduction in health care burden without a change in clinical outcome.

Children with buckle fractures are frequently (46.6%) taken to their PCP for initial care. Many pediatricians and family physicians—especially the increasing number of physicians who have completed additional fellowship training in sports medicine—may prefer to manage buckle fractures within their practices. Many other PCPs may be practicing in communities lacking local orthopedic expertise. The results of this study provide reassurance regarding the positive outcome of buckle fractures. Furthermore, managing buckle fractures in the primary care setting may be even more cost effective than referring patients to a specialty orthopedic clinic—but additional research on this point is needed.

We do not advocate delayed imaging or treatment of suspected fractures. However, once a diagnosis of buckle fracture is confirmed radiographically, our data show that subacute treatment yields significant cost and time savings without affecting final clinical outcome.

Study limitations

This study is limited by its retrospective data collection in 1 pediatric tertiary care hospital. As current clinical practice is to treat all buckle fractures once identified, very few patients with known injury were specifically treated in a subacute fashion. We defined the subacute care group as patients who were treated >1 day from the time of injury. Because initial splinting did not occur in this group, we expect that the observed results would be similar, and no worse, compared with buckle fracture care directed by a subacute treatment algorithm.

This study examined only patients with a diagnosis of isolated buckle fracture. Non-buckle stable fractures were excluded a priori from our patient population. Although it is possible that most stable fractures (eg, nondisplaced transverse fractures, Salter-Harris I injuries) could be managed subacutely, we addressed only isolated buckle fractures.

Because of the universally positive outcomes in these cases, most of our patients had no orthopedic follow-up beyond 1 month. We are not able to comment on whether any longer-term abnormalities in function occurred. This question could be addressed through a prospective trial requiring reevaluation of each patient at a set endpoint of the study.

Although buckle fractures are inherently stable and do not present a significant risk of displacement with delayed treatment, they are nevertheless painful fractures that can be a cause of considerable anxiety for both patient and family. The goal of the physician, beyond ensuring the best medical outcome, extends to provide emotional support to the patient and family. Pain control and reassurance are therefore central to the discussion of fracture management, and are most likely the driving factor for a patient to seek urgent care. A key limitation of this study was the inability to determine differences in pain control between acute and subacute treatment. As mentioned above, a prospective study would enable the issue of pain control to be better addressed.

CORRESPONDENCE
Debbie Lee Bennett, MD, Massachusetts General Hospital, 55 Fruit Street, FND-216, Boston, MA 02114; dlbennett@partners.org
(At the time this study was accepted for publication, Dr. Bennett was at Vanderbilt Children’s Hospital.)

Next time a child in your care has a suspected fracture as a result of a fall and x-ray films reveal a buckle fracture, consider telling parents there’s no need for an urgent visit to the ED. As long as the pain is manageable, treating the injury within a day or so will likely be more convenient for the family, will cost less, and will not result in any complications for the child.

Buckle (or torus) fractures—the most common type of fracture occurring in the pediatric population and accounting for a large number of visits to primary care physicians (PCPs), EDs, and orthopedic clinics each year¹ —involve impaction of bone along only 1 cortex and are therefore inherently stable.² Even with only minimal immobilization, the overwhelming majority of buckle fractures heal without complication.³ Although many patients present directly to the ED for management of these fractures, many others present initially to their PCP, given the relatively minor nature of their symptoms and mechanism of injury.

At our institution, the radiology department and referring physician jointly triage out-patients when radiographs requested by the referring physician show evidence of a fracture. Stable and unstable fractures are referred for immediate care—in the pediatric orthopedic clinic if the clinic is open and appointments are available; otherwise in the ED for initial splinting, with follow-up in the orthopedic clinic as soon as possible.

Referral of patients with buckle fractures for same-day care in the ED may bring about unnecessary costs and inconvenience for patients and families. However, policy at our institution dictates that all fractures, including stable buckle fractures, be referred for treatment immediately, once identified.

To determine whether patients with buckle fractures can be safely counseled on the possibility of nonurgent management, we compared the clinical outcomes of pediatric buckle fractures treated acutely or subacutely. The results of our study have practical implications for the timing of treatment or referrals, and for the management of buckle fractures by appropriately trained PCPs, especially in settings where orthopedic consultation may not be readily available.

Methods

Patient selection

The Vanderbilt Children’s Hospital institutional review board approved this retrospective cohort study, with waiver of patient consent. We reviewed 1923 consecutive charts of patients who were seen in the hospital’s pediatric orthopedic clinic for stable fractures between July, 1, 2004 and August 31, 2007. We identified patients for our study population by current procedural terminology (CPT) codes for fracture care that were compatible with buckle fracture or other stable fracture management without manipulation. Applicable CPT codes included the following fracture sites: radial head/neck (24650), ulnar shaft (25530), distal radius with or without ulnar styloid (25600), metacarpal (26600), phalanx of hand or foot (26720, 28510), distal fibula (27786), and metatarsal (28470).

Inclusion and exclusion criteria. Inclusion criteria among this screened population were an isolated buckle fracture mentioned in the official radiology report or pediatric orthopedic clinical note, and age <18 years at the time of injury. We excluded patients for the following reasons: uncertain date of injury (n=67), lack of final clinical follow-up (n=59), acute manipulation of the fracture (n=10), multiple concurrent injuries (n=11), or known metabolic bone disease (n=3) or coagulopathy (n=1).

After initial patient selection, a CAQ-certified pediatric radiologist (with additional fellowship training in pediatric musculoskeletal radiology) and a board-certified orthopedic surgeon (with pediatric orthopedic fellowship training) examined available radiographic images to confirm the diagnosis of a buckle fracture. We further excluded patients whose radiographic findings did not meet criteria for isolated buckle fractures.

Study populations

The final study population consisted of 341 children with confirmed isolated buckle fractures. We assigned patients to acute or subacute treatment groups based on the length of time between injury and presentation for care. Patients were assigned to acute treatment (n=155) if they presented for care on the same day as the injury. All others first seen >1 day after documented time of injury were assigned to subacute treatment (n=186).

We determined length of time between injury and presentation based on data available in the electronic medical record. If the injury was first documented in the orthopedic clinic, we reviewed notes to determine when the patient had initially sought care, and whether from our institution, a PCP, or an outside ED. If documentation showed that initial contact with any health care professional occurred within 1 day of the injury, we assigned the patient to acute management.

Data analysis

Data collection from computerized medical records included date of injury, date of initial care, anatomic location of fracture, mechanism of injury, referring physician, whether the patient was seen initially in the ED, date of last orthopedic follow-up, number of clinical visits, and clinical outcome. Clinical outcome was judged as “good” or “poor” at the last orthopedic follow-up visit, approximately 3 to 4 weeks after injury. A poor clinical outcome could indicate a clinically apparent deformity or functional impairment, need for subacute manipulation, or refracture. We deemed 1 patient’s outcome uncertain due to an ambiguous final clinical note, and we had this case reviewed by a pediatric orthopedist. Any visit to a PCP, ED, or orthopedic clinic was included in the total number of a patient’s clinical visits.

Consulting radiologists also noted the presence and degree of fracture angulation for each patient on initial and follow-up films. Degree of angulation was rated as mild (<10°), moderate (11°-20°), or severe (>20°). Follow-up films were not available for 14 patients (5.2% of acutely treated patients; 3.2% of subacutely treated patients), as final clinical follow-up occasionally occurred outside our institution. In these cases, we relied on the clinical note to determine degree of angulation, if present.

We obtained total charges (technical and professional) for buckle fracture treatment for patients treated initially in the ED and for patients seen initially in the orthopedic clinic.

Statistical analysis

We used an independent samples t-test to compare mean patient ages, times from initial treatment to final treatment, and the numbers of clinical encounters for patients in the acute and subacute treatment groups. For the acute treatment group, time from injury to initial care, by definition, was considered “0.” For the subacute treatment group, we constructed 99.9% confidence intervals around the mean time from injury to initial care to determine whether or not they included “0.”

We used Fisher’s exact test to gauge differences in the proportions of absent or mild initial angulation, absent or mild final angulation, and the point of initial care between the acute and subacute treatment groups. We used Pearson’s chi-squared test to assess between-group differences in the distribution of fracture sites (forearm, hand/foot, or leg), mechanism of injury (fall, direct blow, other), change in angulation (none, improved, worsened), and point of entry into the health care system (PCP, ED, orthopedic clinic). We performed statistical analyses with the statistical package SPSS v15 (SPSS, Inc., Chicago, Ill).

Results

Patient characteristics

Of the 1923 pediatric patients with stable fractures seen in the orthopedic clinic at our institution during the study period, 588 had isolated buckle fractures. Of these, we excluded 151 based on predefined criteria (see Methods). After consensus review of radiographs by a pediatric orthopedist and pediatric radiologist, we excluded an additional 96 patients with inconclusive radiographs. The final study group numbered 341 pediatric patients with confirmed isolated buckle fractures.

The forearm was most commonly affected, with isolated distal radius fractures accounting for 67.7% (231/341) of all fractures, and combined radius/ulna fractures accounting for 14.7% (50/341). The most common mechanism of injury was a fall (85.9%; 293/341), usually a direct fall, with a higher percentage of patients with direct falls in the acute management group ( TABLE 1 ). Mean age and sex were not significantly different for the 2 treatment groups.

TABLE 1
Baseline characteristics of study populations

Acute vs subacute management outcomes

Of the 341 patients included in the study, 155 patients were treated acutely and 186 patients were treated subacutely. For the subacute management group, mean time between injury and treatment was 2.5±2.6 days ( TABLE 2 ). We observed no poor clinical outcomes in either acute or subacute management groups. All patients, regardless of time elapsed from injury to initial splinting, recovered without complication. The difference in number of clinical visits between the acute and subacute management groups was not significant (acute 3.2±0.5; subacute 3.1±0.5). The mean length of clinical follow-up from initial splinting to discharge from orthopedic care was higher in the acute management group (acute 32.9±17.1 days; subacute 28.9±13.4 days).

Most patients presented with non-angulated fractures, regardless of time from injury to initial presentation ( TABLE 2 ). The degree of angulation worsened in a small proportion of fractures during convalescence. The difference in initial angulation, final angulation, or change in angulation between acute and subacute management groups was not significant.

A higher proportion of patients in the acute treatment group presented directly to the ED for care, whereas a higher proportion of patients in the subacute treatment group presented to their PCP during routine working hours and were referred to the orthopedic clinic ( TABLE 2 ). For both acute and subacute management groups, we compared outcomes for patients seen initially in the ED or orthopedic clinic. No adverse outcomes occurred among any of the studied patients.

TABLE 2
Clinical outcomes did not differ between acute and subacute management groups

Charge analysis

We compared total charges (professional and technical) for managing buckle fractures initially in the ED with those initially seen in the orthopedic clinic. Total charge per patient in the ED, including subsequent follow-up in the orthopedic clinic, was $4397 ($2516, professional; $1881, technical). Total charge per patient for treatment only in the orthopedic clinic was $1426 ($918, professional; $508, technical). Total charge per patient was $2971 more for patients treated initially in the ED.

Between July 1, 2004, and August 31, 2007, 159 patients (46.6%) with buckle fractures entered the health care system through their primary care physician. Of these, 44 patients were seen acutely by the physician; 115 patients were seen on a subacute basis. Of the 44 patients seen acutely, 24 (54%) were referred directly to the ED; 20 (45%) were referred to the orthopedic clinic. Of the 115 patients seen subacutely, 27 (23%) were referred directly to the ED, and the remaining 88 (76%) were referred to the orthopedic clinic. In sum, 51 patients (32%) were seen initially by a PCP, who referred them to the ED. The cost savings with each patient seen subacutely in the orthopedic clinic was $2971, and avoiding ED treatment for all patients could have yielded a total gross savings of approximately $150,000.

Discussion

Buckle fractures are inherently stable and almost universally heal without complication.^4,5 Perhaps because of the high likelihood of good outcome, there is a relative paucity of articles in the recent literature addressing the management of this common pediatric fracture. Older studies have addressed casting vs splinting and the need for follow-up, but no study has yet examined whether immediate treatment is necessary.^6,7 Although some studies have noted incidentally that many children have delayed presentation for care,⁵ none has specifically examined the clinical or economic impact of a delay in care or the effect of subacute treatment on outcomes.

Delayed treatment does not adversely affect clinical outcome. Our study objective was to compare clinical outcomes of buckle fractures treated acutely on the same day of injury with outcomes of those treated subacutely. The 2 groups did not differ in extent or angulation of fracture at presentation. We found no difference in outcomes between the groups; all fractures healed without complication. We observed no difference in final angulation of fracture on follow-up imaging. Though our institution routinely obtains follow-up films, it is worth mentioning that the utility of repeat films in pediatric buckle fractures with minimal initial angulation has been debated.⁵ These data suggest that subacute treatment of a buckle fracture is a safe and reasonable option.

Non-ED treatment substantially reduces cost. One goal of efficient health care delivery is to decrease the cost and burden of care without increasing long-term morbidity and disability. Evidence suggests that families may prefer less acute management options that allow greater convenience and flexibility, provided that clinical outcomes are not compromised.⁸ In the case of pediatric buckle fractures, higher costs (for both the patient and the hospital) and longer wait times related to ED care may be avoided by counseling patients on the option of subacute care. Our study found that referring patients directly to the orthopedic clinic, even if this results in a delay in definitive management, leads to a reduction in health care burden without a change in clinical outcome.

Children with buckle fractures are frequently (46.6%) taken to their PCP for initial care. Many pediatricians and family physicians—especially the increasing number of physicians who have completed additional fellowship training in sports medicine—may prefer to manage buckle fractures within their practices. Many other PCPs may be practicing in communities lacking local orthopedic expertise. The results of this study provide reassurance regarding the positive outcome of buckle fractures. Furthermore, managing buckle fractures in the primary care setting may be even more cost effective than referring patients to a specialty orthopedic clinic—but additional research on this point is needed.

We do not advocate delayed imaging or treatment of suspected fractures. However, once a diagnosis of buckle fracture is confirmed radiographically, our data show that subacute treatment yields significant cost and time savings without affecting final clinical outcome.

Study limitations

This study is limited by its retrospective data collection in 1 pediatric tertiary care hospital. As current clinical practice is to treat all buckle fractures once identified, very few patients with known injury were specifically treated in a subacute fashion. We defined the subacute care group as patients who were treated >1 day from the time of injury. Because initial splinting did not occur in this group, we expect that the observed results would be similar, and no worse, compared with buckle fracture care directed by a subacute treatment algorithm.

This study examined only patients with a diagnosis of isolated buckle fracture. Non-buckle stable fractures were excluded a priori from our patient population. Although it is possible that most stable fractures (eg, nondisplaced transverse fractures, Salter-Harris I injuries) could be managed subacutely, we addressed only isolated buckle fractures.

Because of the universally positive outcomes in these cases, most of our patients had no orthopedic follow-up beyond 1 month. We are not able to comment on whether any longer-term abnormalities in function occurred. This question could be addressed through a prospective trial requiring reevaluation of each patient at a set endpoint of the study.

Although buckle fractures are inherently stable and do not present a significant risk of displacement with delayed treatment, they are nevertheless painful fractures that can be a cause of considerable anxiety for both patient and family. The goal of the physician, beyond ensuring the best medical outcome, extends to provide emotional support to the patient and family. Pain control and reassurance are therefore central to the discussion of fracture management, and are most likely the driving factor for a patient to seek urgent care. A key limitation of this study was the inability to determine differences in pain control between acute and subacute treatment. As mentioned above, a prospective study would enable the issue of pain control to be better addressed.

CORRESPONDENCE
Debbie Lee Bennett, MD, Massachusetts General Hospital, 55 Fruit Street, FND-216, Boston, MA 02114; dlbennett@partners.org
(At the time this study was accepted for publication, Dr. Bennett was at Vanderbilt Children’s Hospital.)

Next time a child in your care has a suspected fracture as a result of a fall and x-ray films reveal a buckle fracture, consider telling parents there’s no need for an urgent visit to the ED. As long as the pain is manageable, treating the injury within a day or so will likely be more convenient for the family, will cost less, and will not result in any complications for the child.

Buckle (or torus) fractures—the most common type of fracture occurring in the pediatric population and accounting for a large number of visits to primary care physicians (PCPs), EDs, and orthopedic clinics each year¹ —involve impaction of bone along only 1 cortex and are therefore inherently stable.² Even with only minimal immobilization, the overwhelming majority of buckle fractures heal without complication.³ Although many patients present directly to the ED for management of these fractures, many others present initially to their PCP, given the relatively minor nature of their symptoms and mechanism of injury.

At our institution, the radiology department and referring physician jointly triage out-patients when radiographs requested by the referring physician show evidence of a fracture. Stable and unstable fractures are referred for immediate care—in the pediatric orthopedic clinic if the clinic is open and appointments are available; otherwise in the ED for initial splinting, with follow-up in the orthopedic clinic as soon as possible.

Referral of patients with buckle fractures for same-day care in the ED may bring about unnecessary costs and inconvenience for patients and families. However, policy at our institution dictates that all fractures, including stable buckle fractures, be referred for treatment immediately, once identified.

To determine whether patients with buckle fractures can be safely counseled on the possibility of nonurgent management, we compared the clinical outcomes of pediatric buckle fractures treated acutely or subacutely. The results of our study have practical implications for the timing of treatment or referrals, and for the management of buckle fractures by appropriately trained PCPs, especially in settings where orthopedic consultation may not be readily available.

Methods

Patient selection

The Vanderbilt Children’s Hospital institutional review board approved this retrospective cohort study, with waiver of patient consent. We reviewed 1923 consecutive charts of patients who were seen in the hospital’s pediatric orthopedic clinic for stable fractures between July, 1, 2004 and August 31, 2007. We identified patients for our study population by current procedural terminology (CPT) codes for fracture care that were compatible with buckle fracture or other stable fracture management without manipulation. Applicable CPT codes included the following fracture sites: radial head/neck (24650), ulnar shaft (25530), distal radius with or without ulnar styloid (25600), metacarpal (26600), phalanx of hand or foot (26720, 28510), distal fibula (27786), and metatarsal (28470).

Inclusion and exclusion criteria. Inclusion criteria among this screened population were an isolated buckle fracture mentioned in the official radiology report or pediatric orthopedic clinical note, and age <18 years at the time of injury. We excluded patients for the following reasons: uncertain date of injury (n=67), lack of final clinical follow-up (n=59), acute manipulation of the fracture (n=10), multiple concurrent injuries (n=11), or known metabolic bone disease (n=3) or coagulopathy (n=1).

After initial patient selection, a CAQ-certified pediatric radiologist (with additional fellowship training in pediatric musculoskeletal radiology) and a board-certified orthopedic surgeon (with pediatric orthopedic fellowship training) examined available radiographic images to confirm the diagnosis of a buckle fracture. We further excluded patients whose radiographic findings did not meet criteria for isolated buckle fractures.

Study populations

The final study population consisted of 341 children with confirmed isolated buckle fractures. We assigned patients to acute or subacute treatment groups based on the length of time between injury and presentation for care. Patients were assigned to acute treatment (n=155) if they presented for care on the same day as the injury. All others first seen >1 day after documented time of injury were assigned to subacute treatment (n=186).

We determined length of time between injury and presentation based on data available in the electronic medical record. If the injury was first documented in the orthopedic clinic, we reviewed notes to determine when the patient had initially sought care, and whether from our institution, a PCP, or an outside ED. If documentation showed that initial contact with any health care professional occurred within 1 day of the injury, we assigned the patient to acute management.

Data analysis

Data collection from computerized medical records included date of injury, date of initial care, anatomic location of fracture, mechanism of injury, referring physician, whether the patient was seen initially in the ED, date of last orthopedic follow-up, number of clinical visits, and clinical outcome. Clinical outcome was judged as “good” or “poor” at the last orthopedic follow-up visit, approximately 3 to 4 weeks after injury. A poor clinical outcome could indicate a clinically apparent deformity or functional impairment, need for subacute manipulation, or refracture. We deemed 1 patient’s outcome uncertain due to an ambiguous final clinical note, and we had this case reviewed by a pediatric orthopedist. Any visit to a PCP, ED, or orthopedic clinic was included in the total number of a patient’s clinical visits.

Consulting radiologists also noted the presence and degree of fracture angulation for each patient on initial and follow-up films. Degree of angulation was rated as mild (<10°), moderate (11°-20°), or severe (>20°). Follow-up films were not available for 14 patients (5.2% of acutely treated patients; 3.2% of subacutely treated patients), as final clinical follow-up occasionally occurred outside our institution. In these cases, we relied on the clinical note to determine degree of angulation, if present.

We obtained total charges (technical and professional) for buckle fracture treatment for patients treated initially in the ED and for patients seen initially in the orthopedic clinic.

Statistical analysis

We used an independent samples t-test to compare mean patient ages, times from initial treatment to final treatment, and the numbers of clinical encounters for patients in the acute and subacute treatment groups. For the acute treatment group, time from injury to initial care, by definition, was considered “0.” For the subacute treatment group, we constructed 99.9% confidence intervals around the mean time from injury to initial care to determine whether or not they included “0.”

We used Fisher’s exact test to gauge differences in the proportions of absent or mild initial angulation, absent or mild final angulation, and the point of initial care between the acute and subacute treatment groups. We used Pearson’s chi-squared test to assess between-group differences in the distribution of fracture sites (forearm, hand/foot, or leg), mechanism of injury (fall, direct blow, other), change in angulation (none, improved, worsened), and point of entry into the health care system (PCP, ED, orthopedic clinic). We performed statistical analyses with the statistical package SPSS v15 (SPSS, Inc., Chicago, Ill).

Results

Patient characteristics

Of the 1923 pediatric patients with stable fractures seen in the orthopedic clinic at our institution during the study period, 588 had isolated buckle fractures. Of these, we excluded 151 based on predefined criteria (see Methods). After consensus review of radiographs by a pediatric orthopedist and pediatric radiologist, we excluded an additional 96 patients with inconclusive radiographs. The final study group numbered 341 pediatric patients with confirmed isolated buckle fractures.

The forearm was most commonly affected, with isolated distal radius fractures accounting for 67.7% (231/341) of all fractures, and combined radius/ulna fractures accounting for 14.7% (50/341). The most common mechanism of injury was a fall (85.9%; 293/341), usually a direct fall, with a higher percentage of patients with direct falls in the acute management group ( TABLE 1 ). Mean age and sex were not significantly different for the 2 treatment groups.

TABLE 1
Baseline characteristics of study populations

Acute vs subacute management outcomes

Of the 341 patients included in the study, 155 patients were treated acutely and 186 patients were treated subacutely. For the subacute management group, mean time between injury and treatment was 2.5±2.6 days ( TABLE 2 ). We observed no poor clinical outcomes in either acute or subacute management groups. All patients, regardless of time elapsed from injury to initial splinting, recovered without complication. The difference in number of clinical visits between the acute and subacute management groups was not significant (acute 3.2±0.5; subacute 3.1±0.5). The mean length of clinical follow-up from initial splinting to discharge from orthopedic care was higher in the acute management group (acute 32.9±17.1 days; subacute 28.9±13.4 days).

Most patients presented with non-angulated fractures, regardless of time from injury to initial presentation ( TABLE 2 ). The degree of angulation worsened in a small proportion of fractures during convalescence. The difference in initial angulation, final angulation, or change in angulation between acute and subacute management groups was not significant.

A higher proportion of patients in the acute treatment group presented directly to the ED for care, whereas a higher proportion of patients in the subacute treatment group presented to their PCP during routine working hours and were referred to the orthopedic clinic ( TABLE 2 ). For both acute and subacute management groups, we compared outcomes for patients seen initially in the ED or orthopedic clinic. No adverse outcomes occurred among any of the studied patients.

TABLE 2
Clinical outcomes did not differ between acute and subacute management groups

Charge analysis

We compared total charges (professional and technical) for managing buckle fractures initially in the ED with those initially seen in the orthopedic clinic. Total charge per patient in the ED, including subsequent follow-up in the orthopedic clinic, was $4397 ($2516, professional; $1881, technical). Total charge per patient for treatment only in the orthopedic clinic was $1426 ($918, professional; $508, technical). Total charge per patient was $2971 more for patients treated initially in the ED.

Between July 1, 2004, and August 31, 2007, 159 patients (46.6%) with buckle fractures entered the health care system through their primary care physician. Of these, 44 patients were seen acutely by the physician; 115 patients were seen on a subacute basis. Of the 44 patients seen acutely, 24 (54%) were referred directly to the ED; 20 (45%) were referred to the orthopedic clinic. Of the 115 patients seen subacutely, 27 (23%) were referred directly to the ED, and the remaining 88 (76%) were referred to the orthopedic clinic. In sum, 51 patients (32%) were seen initially by a PCP, who referred them to the ED. The cost savings with each patient seen subacutely in the orthopedic clinic was $2971, and avoiding ED treatment for all patients could have yielded a total gross savings of approximately $150,000.

Discussion

Buckle fractures are inherently stable and almost universally heal without complication.^4,5 Perhaps because of the high likelihood of good outcome, there is a relative paucity of articles in the recent literature addressing the management of this common pediatric fracture. Older studies have addressed casting vs splinting and the need for follow-up, but no study has yet examined whether immediate treatment is necessary.^6,7 Although some studies have noted incidentally that many children have delayed presentation for care,⁵ none has specifically examined the clinical or economic impact of a delay in care or the effect of subacute treatment on outcomes.

Delayed treatment does not adversely affect clinical outcome. Our study objective was to compare clinical outcomes of buckle fractures treated acutely on the same day of injury with outcomes of those treated subacutely. The 2 groups did not differ in extent or angulation of fracture at presentation. We found no difference in outcomes between the groups; all fractures healed without complication. We observed no difference in final angulation of fracture on follow-up imaging. Though our institution routinely obtains follow-up films, it is worth mentioning that the utility of repeat films in pediatric buckle fractures with minimal initial angulation has been debated.⁵ These data suggest that subacute treatment of a buckle fracture is a safe and reasonable option.

Non-ED treatment substantially reduces cost. One goal of efficient health care delivery is to decrease the cost and burden of care without increasing long-term morbidity and disability. Evidence suggests that families may prefer less acute management options that allow greater convenience and flexibility, provided that clinical outcomes are not compromised.⁸ In the case of pediatric buckle fractures, higher costs (for both the patient and the hospital) and longer wait times related to ED care may be avoided by counseling patients on the option of subacute care. Our study found that referring patients directly to the orthopedic clinic, even if this results in a delay in definitive management, leads to a reduction in health care burden without a change in clinical outcome.

Children with buckle fractures are frequently (46.6%) taken to their PCP for initial care. Many pediatricians and family physicians—especially the increasing number of physicians who have completed additional fellowship training in sports medicine—may prefer to manage buckle fractures within their practices. Many other PCPs may be practicing in communities lacking local orthopedic expertise. The results of this study provide reassurance regarding the positive outcome of buckle fractures. Furthermore, managing buckle fractures in the primary care setting may be even more cost effective than referring patients to a specialty orthopedic clinic—but additional research on this point is needed.

We do not advocate delayed imaging or treatment of suspected fractures. However, once a diagnosis of buckle fracture is confirmed radiographically, our data show that subacute treatment yields significant cost and time savings without affecting final clinical outcome.

Study limitations

This study is limited by its retrospective data collection in 1 pediatric tertiary care hospital. As current clinical practice is to treat all buckle fractures once identified, very few patients with known injury were specifically treated in a subacute fashion. We defined the subacute care group as patients who were treated >1 day from the time of injury. Because initial splinting did not occur in this group, we expect that the observed results would be similar, and no worse, compared with buckle fracture care directed by a subacute treatment algorithm.

This study examined only patients with a diagnosis of isolated buckle fracture. Non-buckle stable fractures were excluded a priori from our patient population. Although it is possible that most stable fractures (eg, nondisplaced transverse fractures, Salter-Harris I injuries) could be managed subacutely, we addressed only isolated buckle fractures.

Because of the universally positive outcomes in these cases, most of our patients had no orthopedic follow-up beyond 1 month. We are not able to comment on whether any longer-term abnormalities in function occurred. This question could be addressed through a prospective trial requiring reevaluation of each patient at a set endpoint of the study.

Although buckle fractures are inherently stable and do not present a significant risk of displacement with delayed treatment, they are nevertheless painful fractures that can be a cause of considerable anxiety for both patient and family. The goal of the physician, beyond ensuring the best medical outcome, extends to provide emotional support to the patient and family. Pain control and reassurance are therefore central to the discussion of fracture management, and are most likely the driving factor for a patient to seek urgent care. A key limitation of this study was the inability to determine differences in pain control between acute and subacute treatment. As mentioned above, a prospective study would enable the issue of pain control to be better addressed.

CORRESPONDENCE
Debbie Lee Bennett, MD, Massachusetts General Hospital, 55 Fruit Street, FND-216, Boston, MA 02114; dlbennett@partners.org
(At the time this study was accepted for publication, Dr. Bennett was at Vanderbilt Children’s Hospital.)

The authors report no financial relationships relevant to this article.

Overactive bladder (OAB)—urinary urgency, with or without incontinence, usually with frequency and nocturia¹—is a common problem among women who seek care from an ObGyn. In fact, the condition is estimated to carry a health-care cost in excess of $12 billion annually in the United States.²

A recent community-based survey in Norway estimated the prevalence of urinary incontinence there to be 27% in women between the ages of 65 and 69 years and 35% to 40% in those 80 years or older.³ A population-based study in the United States suggested an even higher rate of urinary incontinence here: greater than 50% in women 60 years or older, with 1) urge urinary incontinence (UUI) predominating⁴ and 2) the prevalence particularly high among older women who are homebound or who live in a long-term care facility.⁵

OAB can undermine quality of life in several ways: social isolation, anxiety, poor sleep, higher risk of fracture after a fall,⁶ reduced ability to function, and poor self-perception. Despite these harmful effects, many women delay seeking care for OAB because they are embarrassed to talk about it with their physician.

Treatment by generalists is feasible—but there is a catch

It’s possible to treat most patients with OAB without referral to a specialist. Two common concerns, however, may set up a roadblock to successful management: the adverse effects associated with some agents and suboptimal control of symptoms.

In this Update, we review recent findings about 1) the potential that anticholinergic therapy has for impairing cognitive function in the older population of women and 2) the important role that concomitant behavioral therapy plays in the long-term success of, and patients’ satisfaction with, treatment of OAB.

Behavioral therapy for OAB: Is it worth all the effort?

Burgio KL, Locher JL, Goode PS. Combined behavioral and drug therapy for urge incontinence in older women. J Am Geriatr Soc. 2000;48:370–374.

The authors of this article followed a randomized clinical trial of older women that compared behavioral and drug therapy for OAB. In the trial, biofeedback-assisted behavioral training (comprising anorectal biofeedback, urge strategies, pelvic muscle biofeedback, and practitioner-directed review with optimization) was compared with treatment with oxybutynin, between 2.5 and 15 mg/day. Both biofeedback-assisted behavioral therapy and the drug regimen were found effective, although neither treatment provided an entirely satisfactory result for all patients. (For a brief description of what constitutes behavioral treatment, see “6 tenets of behavioral therapy for urge urinary incontinence.”)

Second phase of the trial. To determine if treatment satisfaction could be enhanced, the investigators performed a modified crossover study to determine whether combination therapy—biofeedback-assisted behavioral training plus oxybutynin—added any benefit over treatment with behavioral therapy or drug therapy alone. Eligibility was determined by age (55 years or older), demonstrated UUI for at least 3 months, and incomplete dryness or incomplete satisfaction with the outcome of 8 weeks of single-intervention treatment (with either treatment) during the initial phase of the trial.

This subgroup was offered an additional 8 weeks of combination therapy. The primary outcome measure was a reduction in the frequency of episodes of incontinence episodes as recorded by subjects in a bladder diary.

Of 197 women who participated in the original randomized clinical trial, 35—27 who completed drug therapy and 8 who completed behavioral treatment—elected to receive combination therapy. Those 35 subjects did not differ in any of the multiple baseline variables; mean age was 69.3 years (standard deviation [SD], ±7.9 years).

Among subjects originally assigned to behavioral therapy alone, overall reduction in incontinence increased from a mean of 57.5% to a mean of 88.5% after combined therapy (P=.034). Subjects originally assigned to drug therapy alone demonstrated an improvement from 72.7% reduction in incontinence to a mean 84.3% overall reduction with combined therapy (P=.001).

These data suggest that combined therapy can be more effective than behavioral therapy or drug therapy alone. The impact of this study is limited, however, by the relatively low percentage (12.7%) of patients who had received behavioral therapy and chose to add drug therapy, compared with the 41.5% who moved from drug therapy alone to add behavioral therapy.

Furthermore, subjects were self-selected: They chose to continue with an additional 8 weeks of therapy after their initial suboptimal outcome. It is possible that some subjects who were neither totally continent nor completely satisfied with initial therapy chose not to continue with the crossover segment of the trial because it posed too great a burden or because they were discouraged with the initial degree of improvement.

Generalizing these results to all older women with UUI is difficult. The authors point out, however, that, in practice, patients may be more likely than not to choose combination therapy in the hope of shortening the duration of medical therapy. Although it isn’t known whether providing combination therapy from the outset would have yielded better outcomes than either single therapy did, the authors hypothesize that initial combination therapy may result in greater improvement because patients have a high level of motivation and expectation of improvement at the beginning of treatment.

Importance of this article. The investigators demonstrated that a combination of behavioral and drug therapies can provide increased effectiveness in patients for whom each treatment alone led to suboptimal satisfaction. Furthermore, by targeting women older than 55 years, the investigators were able to demonstrate this effectiveness in a group for whom pelvic-floor training may be more difficult than it is for younger women.

It will be interesting to see if future research will 1) validate these findings and 2) determine whether combined therapy can reduce the duration of drug therapy in this older population through behavioral modification and pelvic floor reeducation.

Does oxybutynin for UUI further erode cognition in elderly women who are cognitively impaired?

Lackner TE, Wyman JF, McCarthy TC, Monigold M, Davey C. Randomized, placebo-controlled trial of the cognitive effect, safety, and tolerability of oral extended-release oxybutynin in cognitively impaired nursing home residents with urge urinary incontinence. J Am Geriatr Soc. 2008;56:862–870.

Although anticholinergic therapy is modestly effective against UUI in nursing home residents, past studies have suggested that such treatment can impair, or further impair, cognition in this population—a concern that may lead to underuse. This double-blinded, randomized, placebo-controlled trial compared short-term oral extended-release oxybutynin with placebo.

Consequently, the authors sought to determine the cognitive effect, safety, and tolerability of 5 mg/day oral extended-release oxybutynin (the most commonly prescribed dosage) in cognitively impaired older nursing home residents who have UUI.

Subjects were eligible if they:

• were 65 years or older
• had UUI
• lived in a nursing home longer than 3 months
• had cognitive impairment.

Women already being treated for urinary incontinence, those who had an indwelling Foley catheter or urinary retention, and those who were bed-bound or incommunicative were excluded.

Fifty women, mean age 88.6 years (SD, ±6.2), from 12 nursing home facilities, agreed to participate. They were further stratified based on the score of a Mini-Mental State Exam (MMSE): 13 had severe cognitive impairment (MMSE score, 5–10) and 37 had mild or moderate impairment (score, 11–23).

Subjects were randomized to 4 weeks’ treatment with either 5 mg/day oral extended-release oxybutynin or one placebo tablet daily. A nurse practitioner who was blinded to randomization collected all data. The Confusion Assessment Method (CAM) algorithm, MMSE, and Severe Impairment Battery (SIB) were used to assess cognitive decline. The Brief Agitation Rating Scale (BARS) assessed agitation.

No baseline differences were noted with regard to: age; demographic, functional, and neuropsychiatric characteristics; clinical factors predisposing to delirium; and serum anticholinergic activity. Adherence was similar in the treatment (97%) and placebo (97.4%) groups.

Finding: Cognitive impairment. Treatment and placebo groups in the baseline mild-or-moderate stratum (by MMSE) showed equivalent mean changes in CAM scores at all time points. Because of the small sample size, however, CAM score equivalence could not be definitively determined for the groups in the severe impairment stratum. Evaluation of mean MMSE and BARS scores showed no significant changes between groups.

Finding: Tolerability. Excellent tolerability was noted in the treatment group: 96% of subjects completed the trial (compared with 92% of the placebo group). No difference in the rate of adverse events was noted between treatment and placebo groups; of adverse events recorded, 90% were judged “mild” by the investigators. Constipation and dry mouth were most common.

Finding: Falls. More than half—54%—of subjects in both groups experienced at least one fall during the trial or during the preceding or following 3 months. Despite this, no difference in the rate of falls between the treatment and placebo groups was noted. Furthermore, regression analysis revealed no treatment or period effect on falls per month across the time of observation.

Conclusions. Treatment with 5 mg/day oral extended-release oxybutynin in older patients with some cognitive impairment is well tolerated, the study’s findings suggest, with minimal risk of further cognitive decline or delirium over the short term. The potential that long-term therapy has to harm cognitive function remains, however; data on long-term treatment are needed to illuminate that area.

The authors also address the importance of dosing, especially over time, and discuss the lower potential of newer-generation anticholinergics to produce cognitive impairment.

A limited number of articles in the medical literature address anticholinergics in an older population, specifically, and only a few of those evaluated the effects of the drugs on cognitive function. By investigating patients who had an existing cognitive impairment, the authors of this article were able to target a cohort at risk of further cognitive impairment from medication use—thereby giving further weight to their findings of no significant effect.

Main strengths and limitations of the study. The investigators used validated, standardized cognitive tests that were administered by a uniform blinded evaluator in a randomized, controlled trial. The study was limited, however, because patients were evaluated only over a relatively short period (1 month) and because the efficacy of therapy was not addressed.

Further studies of anticholinergic medications, using the same rigorous scientific approach that these investigators applied, are needed to address 1) the long-term efficacy of oxybutynin and similar agents and 2) the cognitive effects of long-term treatment in this older population.

The authors report no financial relationships relevant to this article.

Overactive bladder (OAB)—urinary urgency, with or without incontinence, usually with frequency and nocturia¹—is a common problem among women who seek care from an ObGyn. In fact, the condition is estimated to carry a health-care cost in excess of $12 billion annually in the United States.²

A recent community-based survey in Norway estimated the prevalence of urinary incontinence there to be 27% in women between the ages of 65 and 69 years and 35% to 40% in those 80 years or older.³ A population-based study in the United States suggested an even higher rate of urinary incontinence here: greater than 50% in women 60 years or older, with 1) urge urinary incontinence (UUI) predominating⁴ and 2) the prevalence particularly high among older women who are homebound or who live in a long-term care facility.⁵

OAB can undermine quality of life in several ways: social isolation, anxiety, poor sleep, higher risk of fracture after a fall,⁶ reduced ability to function, and poor self-perception. Despite these harmful effects, many women delay seeking care for OAB because they are embarrassed to talk about it with their physician.

Treatment by generalists is feasible—but there is a catch

It’s possible to treat most patients with OAB without referral to a specialist. Two common concerns, however, may set up a roadblock to successful management: the adverse effects associated with some agents and suboptimal control of symptoms.

In this Update, we review recent findings about 1) the potential that anticholinergic therapy has for impairing cognitive function in the older population of women and 2) the important role that concomitant behavioral therapy plays in the long-term success of, and patients’ satisfaction with, treatment of OAB.

Behavioral therapy for OAB: Is it worth all the effort?

Burgio KL, Locher JL, Goode PS. Combined behavioral and drug therapy for urge incontinence in older women. J Am Geriatr Soc. 2000;48:370–374.

The authors of this article followed a randomized clinical trial of older women that compared behavioral and drug therapy for OAB. In the trial, biofeedback-assisted behavioral training (comprising anorectal biofeedback, urge strategies, pelvic muscle biofeedback, and practitioner-directed review with optimization) was compared with treatment with oxybutynin, between 2.5 and 15 mg/day. Both biofeedback-assisted behavioral therapy and the drug regimen were found effective, although neither treatment provided an entirely satisfactory result for all patients. (For a brief description of what constitutes behavioral treatment, see “6 tenets of behavioral therapy for urge urinary incontinence.”)

Second phase of the trial. To determine if treatment satisfaction could be enhanced, the investigators performed a modified crossover study to determine whether combination therapy—biofeedback-assisted behavioral training plus oxybutynin—added any benefit over treatment with behavioral therapy or drug therapy alone. Eligibility was determined by age (55 years or older), demonstrated UUI for at least 3 months, and incomplete dryness or incomplete satisfaction with the outcome of 8 weeks of single-intervention treatment (with either treatment) during the initial phase of the trial.

This subgroup was offered an additional 8 weeks of combination therapy. The primary outcome measure was a reduction in the frequency of episodes of incontinence episodes as recorded by subjects in a bladder diary.

Of 197 women who participated in the original randomized clinical trial, 35—27 who completed drug therapy and 8 who completed behavioral treatment—elected to receive combination therapy. Those 35 subjects did not differ in any of the multiple baseline variables; mean age was 69.3 years (standard deviation [SD], ±7.9 years).

Among subjects originally assigned to behavioral therapy alone, overall reduction in incontinence increased from a mean of 57.5% to a mean of 88.5% after combined therapy (P=.034). Subjects originally assigned to drug therapy alone demonstrated an improvement from 72.7% reduction in incontinence to a mean 84.3% overall reduction with combined therapy (P=.001).

These data suggest that combined therapy can be more effective than behavioral therapy or drug therapy alone. The impact of this study is limited, however, by the relatively low percentage (12.7%) of patients who had received behavioral therapy and chose to add drug therapy, compared with the 41.5% who moved from drug therapy alone to add behavioral therapy.

Furthermore, subjects were self-selected: They chose to continue with an additional 8 weeks of therapy after their initial suboptimal outcome. It is possible that some subjects who were neither totally continent nor completely satisfied with initial therapy chose not to continue with the crossover segment of the trial because it posed too great a burden or because they were discouraged with the initial degree of improvement.

Generalizing these results to all older women with UUI is difficult. The authors point out, however, that, in practice, patients may be more likely than not to choose combination therapy in the hope of shortening the duration of medical therapy. Although it isn’t known whether providing combination therapy from the outset would have yielded better outcomes than either single therapy did, the authors hypothesize that initial combination therapy may result in greater improvement because patients have a high level of motivation and expectation of improvement at the beginning of treatment.

Importance of this article. The investigators demonstrated that a combination of behavioral and drug therapies can provide increased effectiveness in patients for whom each treatment alone led to suboptimal satisfaction. Furthermore, by targeting women older than 55 years, the investigators were able to demonstrate this effectiveness in a group for whom pelvic-floor training may be more difficult than it is for younger women.

It will be interesting to see if future research will 1) validate these findings and 2) determine whether combined therapy can reduce the duration of drug therapy in this older population through behavioral modification and pelvic floor reeducation.

Does oxybutynin for UUI further erode cognition in elderly women who are cognitively impaired?

Lackner TE, Wyman JF, McCarthy TC, Monigold M, Davey C. Randomized, placebo-controlled trial of the cognitive effect, safety, and tolerability of oral extended-release oxybutynin in cognitively impaired nursing home residents with urge urinary incontinence. J Am Geriatr Soc. 2008;56:862–870.

Although anticholinergic therapy is modestly effective against UUI in nursing home residents, past studies have suggested that such treatment can impair, or further impair, cognition in this population—a concern that may lead to underuse. This double-blinded, randomized, placebo-controlled trial compared short-term oral extended-release oxybutynin with placebo.

Consequently, the authors sought to determine the cognitive effect, safety, and tolerability of 5 mg/day oral extended-release oxybutynin (the most commonly prescribed dosage) in cognitively impaired older nursing home residents who have UUI.

Subjects were eligible if they:

• were 65 years or older
• had UUI
• lived in a nursing home longer than 3 months
• had cognitive impairment.

Women already being treated for urinary incontinence, those who had an indwelling Foley catheter or urinary retention, and those who were bed-bound or incommunicative were excluded.

Fifty women, mean age 88.6 years (SD, ±6.2), from 12 nursing home facilities, agreed to participate. They were further stratified based on the score of a Mini-Mental State Exam (MMSE): 13 had severe cognitive impairment (MMSE score, 5–10) and 37 had mild or moderate impairment (score, 11–23).

Subjects were randomized to 4 weeks’ treatment with either 5 mg/day oral extended-release oxybutynin or one placebo tablet daily. A nurse practitioner who was blinded to randomization collected all data. The Confusion Assessment Method (CAM) algorithm, MMSE, and Severe Impairment Battery (SIB) were used to assess cognitive decline. The Brief Agitation Rating Scale (BARS) assessed agitation.

No baseline differences were noted with regard to: age; demographic, functional, and neuropsychiatric characteristics; clinical factors predisposing to delirium; and serum anticholinergic activity. Adherence was similar in the treatment (97%) and placebo (97.4%) groups.

Finding: Cognitive impairment. Treatment and placebo groups in the baseline mild-or-moderate stratum (by MMSE) showed equivalent mean changes in CAM scores at all time points. Because of the small sample size, however, CAM score equivalence could not be definitively determined for the groups in the severe impairment stratum. Evaluation of mean MMSE and BARS scores showed no significant changes between groups.

Finding: Tolerability. Excellent tolerability was noted in the treatment group: 96% of subjects completed the trial (compared with 92% of the placebo group). No difference in the rate of adverse events was noted between treatment and placebo groups; of adverse events recorded, 90% were judged “mild” by the investigators. Constipation and dry mouth were most common.

Finding: Falls. More than half—54%—of subjects in both groups experienced at least one fall during the trial or during the preceding or following 3 months. Despite this, no difference in the rate of falls between the treatment and placebo groups was noted. Furthermore, regression analysis revealed no treatment or period effect on falls per month across the time of observation.

Conclusions. Treatment with 5 mg/day oral extended-release oxybutynin in older patients with some cognitive impairment is well tolerated, the study’s findings suggest, with minimal risk of further cognitive decline or delirium over the short term. The potential that long-term therapy has to harm cognitive function remains, however; data on long-term treatment are needed to illuminate that area.

The authors also address the importance of dosing, especially over time, and discuss the lower potential of newer-generation anticholinergics to produce cognitive impairment.

A limited number of articles in the medical literature address anticholinergics in an older population, specifically, and only a few of those evaluated the effects of the drugs on cognitive function. By investigating patients who had an existing cognitive impairment, the authors of this article were able to target a cohort at risk of further cognitive impairment from medication use—thereby giving further weight to their findings of no significant effect.

Main strengths and limitations of the study. The investigators used validated, standardized cognitive tests that were administered by a uniform blinded evaluator in a randomized, controlled trial. The study was limited, however, because patients were evaluated only over a relatively short period (1 month) and because the efficacy of therapy was not addressed.

Further studies of anticholinergic medications, using the same rigorous scientific approach that these investigators applied, are needed to address 1) the long-term efficacy of oxybutynin and similar agents and 2) the cognitive effects of long-term treatment in this older population.

The authors report no financial relationships relevant to this article.

Overactive bladder (OAB)—urinary urgency, with or without incontinence, usually with frequency and nocturia¹—is a common problem among women who seek care from an ObGyn. In fact, the condition is estimated to carry a health-care cost in excess of $12 billion annually in the United States.²

A recent community-based survey in Norway estimated the prevalence of urinary incontinence there to be 27% in women between the ages of 65 and 69 years and 35% to 40% in those 80 years or older.³ A population-based study in the United States suggested an even higher rate of urinary incontinence here: greater than 50% in women 60 years or older, with 1) urge urinary incontinence (UUI) predominating⁴ and 2) the prevalence particularly high among older women who are homebound or who live in a long-term care facility.⁵

OAB can undermine quality of life in several ways: social isolation, anxiety, poor sleep, higher risk of fracture after a fall,⁶ reduced ability to function, and poor self-perception. Despite these harmful effects, many women delay seeking care for OAB because they are embarrassed to talk about it with their physician.

Treatment by generalists is feasible—but there is a catch

It’s possible to treat most patients with OAB without referral to a specialist. Two common concerns, however, may set up a roadblock to successful management: the adverse effects associated with some agents and suboptimal control of symptoms.

In this Update, we review recent findings about 1) the potential that anticholinergic therapy has for impairing cognitive function in the older population of women and 2) the important role that concomitant behavioral therapy plays in the long-term success of, and patients’ satisfaction with, treatment of OAB.

Behavioral therapy for OAB: Is it worth all the effort?

Burgio KL, Locher JL, Goode PS. Combined behavioral and drug therapy for urge incontinence in older women. J Am Geriatr Soc. 2000;48:370–374.

The authors of this article followed a randomized clinical trial of older women that compared behavioral and drug therapy for OAB. In the trial, biofeedback-assisted behavioral training (comprising anorectal biofeedback, urge strategies, pelvic muscle biofeedback, and practitioner-directed review with optimization) was compared with treatment with oxybutynin, between 2.5 and 15 mg/day. Both biofeedback-assisted behavioral therapy and the drug regimen were found effective, although neither treatment provided an entirely satisfactory result for all patients. (For a brief description of what constitutes behavioral treatment, see “6 tenets of behavioral therapy for urge urinary incontinence.”)

Second phase of the trial. To determine if treatment satisfaction could be enhanced, the investigators performed a modified crossover study to determine whether combination therapy—biofeedback-assisted behavioral training plus oxybutynin—added any benefit over treatment with behavioral therapy or drug therapy alone. Eligibility was determined by age (55 years or older), demonstrated UUI for at least 3 months, and incomplete dryness or incomplete satisfaction with the outcome of 8 weeks of single-intervention treatment (with either treatment) during the initial phase of the trial.

This subgroup was offered an additional 8 weeks of combination therapy. The primary outcome measure was a reduction in the frequency of episodes of incontinence episodes as recorded by subjects in a bladder diary.

Of 197 women who participated in the original randomized clinical trial, 35—27 who completed drug therapy and 8 who completed behavioral treatment—elected to receive combination therapy. Those 35 subjects did not differ in any of the multiple baseline variables; mean age was 69.3 years (standard deviation [SD], ±7.9 years).

Among subjects originally assigned to behavioral therapy alone, overall reduction in incontinence increased from a mean of 57.5% to a mean of 88.5% after combined therapy (P=.034). Subjects originally assigned to drug therapy alone demonstrated an improvement from 72.7% reduction in incontinence to a mean 84.3% overall reduction with combined therapy (P=.001).

These data suggest that combined therapy can be more effective than behavioral therapy or drug therapy alone. The impact of this study is limited, however, by the relatively low percentage (12.7%) of patients who had received behavioral therapy and chose to add drug therapy, compared with the 41.5% who moved from drug therapy alone to add behavioral therapy.

Furthermore, subjects were self-selected: They chose to continue with an additional 8 weeks of therapy after their initial suboptimal outcome. It is possible that some subjects who were neither totally continent nor completely satisfied with initial therapy chose not to continue with the crossover segment of the trial because it posed too great a burden or because they were discouraged with the initial degree of improvement.

Generalizing these results to all older women with UUI is difficult. The authors point out, however, that, in practice, patients may be more likely than not to choose combination therapy in the hope of shortening the duration of medical therapy. Although it isn’t known whether providing combination therapy from the outset would have yielded better outcomes than either single therapy did, the authors hypothesize that initial combination therapy may result in greater improvement because patients have a high level of motivation and expectation of improvement at the beginning of treatment.

Importance of this article. The investigators demonstrated that a combination of behavioral and drug therapies can provide increased effectiveness in patients for whom each treatment alone led to suboptimal satisfaction. Furthermore, by targeting women older than 55 years, the investigators were able to demonstrate this effectiveness in a group for whom pelvic-floor training may be more difficult than it is for younger women.

It will be interesting to see if future research will 1) validate these findings and 2) determine whether combined therapy can reduce the duration of drug therapy in this older population through behavioral modification and pelvic floor reeducation.

Does oxybutynin for UUI further erode cognition in elderly women who are cognitively impaired?

Lackner TE, Wyman JF, McCarthy TC, Monigold M, Davey C. Randomized, placebo-controlled trial of the cognitive effect, safety, and tolerability of oral extended-release oxybutynin in cognitively impaired nursing home residents with urge urinary incontinence. J Am Geriatr Soc. 2008;56:862–870.

Although anticholinergic therapy is modestly effective against UUI in nursing home residents, past studies have suggested that such treatment can impair, or further impair, cognition in this population—a concern that may lead to underuse. This double-blinded, randomized, placebo-controlled trial compared short-term oral extended-release oxybutynin with placebo.

Consequently, the authors sought to determine the cognitive effect, safety, and tolerability of 5 mg/day oral extended-release oxybutynin (the most commonly prescribed dosage) in cognitively impaired older nursing home residents who have UUI.

Subjects were eligible if they:

• were 65 years or older
• had UUI
• lived in a nursing home longer than 3 months
• had cognitive impairment.

Women already being treated for urinary incontinence, those who had an indwelling Foley catheter or urinary retention, and those who were bed-bound or incommunicative were excluded.

Fifty women, mean age 88.6 years (SD, ±6.2), from 12 nursing home facilities, agreed to participate. They were further stratified based on the score of a Mini-Mental State Exam (MMSE): 13 had severe cognitive impairment (MMSE score, 5–10) and 37 had mild or moderate impairment (score, 11–23).

Subjects were randomized to 4 weeks’ treatment with either 5 mg/day oral extended-release oxybutynin or one placebo tablet daily. A nurse practitioner who was blinded to randomization collected all data. The Confusion Assessment Method (CAM) algorithm, MMSE, and Severe Impairment Battery (SIB) were used to assess cognitive decline. The Brief Agitation Rating Scale (BARS) assessed agitation.

No baseline differences were noted with regard to: age; demographic, functional, and neuropsychiatric characteristics; clinical factors predisposing to delirium; and serum anticholinergic activity. Adherence was similar in the treatment (97%) and placebo (97.4%) groups.

Finding: Cognitive impairment. Treatment and placebo groups in the baseline mild-or-moderate stratum (by MMSE) showed equivalent mean changes in CAM scores at all time points. Because of the small sample size, however, CAM score equivalence could not be definitively determined for the groups in the severe impairment stratum. Evaluation of mean MMSE and BARS scores showed no significant changes between groups.

Finding: Tolerability. Excellent tolerability was noted in the treatment group: 96% of subjects completed the trial (compared with 92% of the placebo group). No difference in the rate of adverse events was noted between treatment and placebo groups; of adverse events recorded, 90% were judged “mild” by the investigators. Constipation and dry mouth were most common.

Finding: Falls. More than half—54%—of subjects in both groups experienced at least one fall during the trial or during the preceding or following 3 months. Despite this, no difference in the rate of falls between the treatment and placebo groups was noted. Furthermore, regression analysis revealed no treatment or period effect on falls per month across the time of observation.

Conclusions. Treatment with 5 mg/day oral extended-release oxybutynin in older patients with some cognitive impairment is well tolerated, the study’s findings suggest, with minimal risk of further cognitive decline or delirium over the short term. The potential that long-term therapy has to harm cognitive function remains, however; data on long-term treatment are needed to illuminate that area.

The authors also address the importance of dosing, especially over time, and discuss the lower potential of newer-generation anticholinergics to produce cognitive impairment.

A limited number of articles in the medical literature address anticholinergics in an older population, specifically, and only a few of those evaluated the effects of the drugs on cognitive function. By investigating patients who had an existing cognitive impairment, the authors of this article were able to target a cohort at risk of further cognitive impairment from medication use—thereby giving further weight to their findings of no significant effect.

Main strengths and limitations of the study. The investigators used validated, standardized cognitive tests that were administered by a uniform blinded evaluator in a randomized, controlled trial. The study was limited, however, because patients were evaluated only over a relatively short period (1 month) and because the efficacy of therapy was not addressed.

Further studies of anticholinergic medications, using the same rigorous scientific approach that these investigators applied, are needed to address 1) the long-term efficacy of oxybutynin and similar agents and 2) the cognitive effects of long-term treatment in this older population.

Flavored Cigarettes Snubbed Out

The Food and Drug Administration has banned fruit- and candy-flavored cigarettes as part of its effort to prevent children from starting to smoke. The agency said it will act against any company that continues to make, ship, or sell such products in the United States. The tobacco control legislation approved by Congress last spring authorized the FDA to target flavored cigarettes, and the agency said it is also examining options for regulating menthol cigarettes and flavored tobacco products other than cigarettes. Almost 90% of adult smokers start the habit as teenagers, and studies have shown that 17-year-old smokers are three times as likely to use flavored cigarettes as are smokers over 25, the FDA said. “Candy and fruit flavorings have unfortunately been some of the most egregious examples of marketing tobacco products to children, and the academy supported the inclusion of this ban in the legislation,” American Academy of Pediatrics President David Tayloe Jr. said in a statement.

FDA Makes Device Grants

In an effort to have more medical devices available for children, the FDA has awarded a total of &dollar;2 million in grants to three nonprofit device consortiums. A panel of experts reviewed 16 applications for the grants, which were mandated by Congress in 2007 and will be administered by the FDA's Office of Orphan Products Development. The grants, to groups based in California, Massachusetts, and Michigan, are to encourage connections between innovators and potential manufacturers of pediatric medical devices. Each of the grant recipients will coordinate efforts of the FDA, device companies, and the National Institutes of Health to bring pediatric medical devices to market sooner. Development of medical devices for children is a challenge because of differences in size, growth, and body chemistry between age groups. As a result, availability of pediatric devices lags up to a decade behind similar devices intended for adults, according to the FDA.

Review Raps Medicaid Services

Preventive care for children and adults is lagging in Medicaid, the Government Accountability Office (GAO) found. It reported that many children covered by Medicaid are not receiving well-child checkups and that providers may not be aware that obesity-related services are covered for youngsters in the program. Most states told GAO that they have set goals for and monitored children's utilization of preventive services available and that they have taken steps to increase the number of children who received those services through Medicaid. However, the GAO study found that only 58% of children who were eligible under the program to receive a periodic screening, diagnostic, or treatment service in 2007 actually received one.

HHS Supports Health Centers

The Department of Health and Human Services has granted &dollar;25.7 million to increase and improve health and support services at public health centers, which are treating many more children than they did before the economic downturn. The federal health center system, overseen by the Health Resources and Services Administration, served more than 17 million medically needy people in 2008, up from 10 million patients in 2001, according to HHS. Since the economic downturn began, the health center patient population has grown by another million people, one-third of them children.

Obesity Counseling Found Ineffective

Primary care obesity screening followed by a series of counseling sessions failed to improve body mass index, physical activity, or nutrition in overweight or mildly obese children, a study in the British Medical Journal found. A total of 139 overweight and mildly obese children aged 5-10 years underwent four brief consultations with their physicians in Melbourne over 12 weeks. The objective was to change the children's behavior. But when compared with that of a control group after a year, the intervention group's BMI had not fallen significantly, the study found. Money might be better spent on obesity-prevention activities at the community and population levels, rather than on individual counseling by primary care physicians, the authors concluded.

HHS Awards Adoption Incentives

The Department of Health and Human Services announced the distribution of &dollar;35 million to 38 states and Puerto Rico to increase adoptions among children in foster care. Congress created the Adoptions Incentive program in 1997 as part of the Adoption and Safe Families Act, particularly to move older children and those with special needs into permanent homes. As part of the program, states can earn &dollar;4,000 for each additional adopted foster child above a baseline rate established in 2007. They receive additional payments for the adoption of foster children older than age 8 and those with special needs. States use the incentive payments to improve their programs for abused and neglected children, according to HHS.

Flavored Cigarettes Snubbed Out

The Food and Drug Administration has banned fruit- and candy-flavored cigarettes as part of its effort to prevent children from starting to smoke. The agency said it will act against any company that continues to make, ship, or sell such products in the United States. The tobacco control legislation approved by Congress last spring authorized the FDA to target flavored cigarettes, and the agency said it is also examining options for regulating menthol cigarettes and flavored tobacco products other than cigarettes. Almost 90% of adult smokers start the habit as teenagers, and studies have shown that 17-year-old smokers are three times as likely to use flavored cigarettes as are smokers over 25, the FDA said. “Candy and fruit flavorings have unfortunately been some of the most egregious examples of marketing tobacco products to children, and the academy supported the inclusion of this ban in the legislation,” American Academy of Pediatrics President David Tayloe Jr. said in a statement.

FDA Makes Device Grants

In an effort to have more medical devices available for children, the FDA has awarded a total of &dollar;2 million in grants to three nonprofit device consortiums. A panel of experts reviewed 16 applications for the grants, which were mandated by Congress in 2007 and will be administered by the FDA's Office of Orphan Products Development. The grants, to groups based in California, Massachusetts, and Michigan, are to encourage connections between innovators and potential manufacturers of pediatric medical devices. Each of the grant recipients will coordinate efforts of the FDA, device companies, and the National Institutes of Health to bring pediatric medical devices to market sooner. Development of medical devices for children is a challenge because of differences in size, growth, and body chemistry between age groups. As a result, availability of pediatric devices lags up to a decade behind similar devices intended for adults, according to the FDA.

Review Raps Medicaid Services

Preventive care for children and adults is lagging in Medicaid, the Government Accountability Office (GAO) found. It reported that many children covered by Medicaid are not receiving well-child checkups and that providers may not be aware that obesity-related services are covered for youngsters in the program. Most states told GAO that they have set goals for and monitored children's utilization of preventive services available and that they have taken steps to increase the number of children who received those services through Medicaid. However, the GAO study found that only 58% of children who were eligible under the program to receive a periodic screening, diagnostic, or treatment service in 2007 actually received one.

HHS Supports Health Centers

The Department of Health and Human Services has granted &dollar;25.7 million to increase and improve health and support services at public health centers, which are treating many more children than they did before the economic downturn. The federal health center system, overseen by the Health Resources and Services Administration, served more than 17 million medically needy people in 2008, up from 10 million patients in 2001, according to HHS. Since the economic downturn began, the health center patient population has grown by another million people, one-third of them children.

Obesity Counseling Found Ineffective

Primary care obesity screening followed by a series of counseling sessions failed to improve body mass index, physical activity, or nutrition in overweight or mildly obese children, a study in the British Medical Journal found. A total of 139 overweight and mildly obese children aged 5-10 years underwent four brief consultations with their physicians in Melbourne over 12 weeks. The objective was to change the children's behavior. But when compared with that of a control group after a year, the intervention group's BMI had not fallen significantly, the study found. Money might be better spent on obesity-prevention activities at the community and population levels, rather than on individual counseling by primary care physicians, the authors concluded.

HHS Awards Adoption Incentives

The Department of Health and Human Services announced the distribution of &dollar;35 million to 38 states and Puerto Rico to increase adoptions among children in foster care. Congress created the Adoptions Incentive program in 1997 as part of the Adoption and Safe Families Act, particularly to move older children and those with special needs into permanent homes. As part of the program, states can earn &dollar;4,000 for each additional adopted foster child above a baseline rate established in 2007. They receive additional payments for the adoption of foster children older than age 8 and those with special needs. States use the incentive payments to improve their programs for abused and neglected children, according to HHS.

Flavored Cigarettes Snubbed Out

The Food and Drug Administration has banned fruit- and candy-flavored cigarettes as part of its effort to prevent children from starting to smoke. The agency said it will act against any company that continues to make, ship, or sell such products in the United States. The tobacco control legislation approved by Congress last spring authorized the FDA to target flavored cigarettes, and the agency said it is also examining options for regulating menthol cigarettes and flavored tobacco products other than cigarettes. Almost 90% of adult smokers start the habit as teenagers, and studies have shown that 17-year-old smokers are three times as likely to use flavored cigarettes as are smokers over 25, the FDA said. “Candy and fruit flavorings have unfortunately been some of the most egregious examples of marketing tobacco products to children, and the academy supported the inclusion of this ban in the legislation,” American Academy of Pediatrics President David Tayloe Jr. said in a statement.

FDA Makes Device Grants

In an effort to have more medical devices available for children, the FDA has awarded a total of &dollar;2 million in grants to three nonprofit device consortiums. A panel of experts reviewed 16 applications for the grants, which were mandated by Congress in 2007 and will be administered by the FDA's Office of Orphan Products Development. The grants, to groups based in California, Massachusetts, and Michigan, are to encourage connections between innovators and potential manufacturers of pediatric medical devices. Each of the grant recipients will coordinate efforts of the FDA, device companies, and the National Institutes of Health to bring pediatric medical devices to market sooner. Development of medical devices for children is a challenge because of differences in size, growth, and body chemistry between age groups. As a result, availability of pediatric devices lags up to a decade behind similar devices intended for adults, according to the FDA.

Review Raps Medicaid Services

Preventive care for children and adults is lagging in Medicaid, the Government Accountability Office (GAO) found. It reported that many children covered by Medicaid are not receiving well-child checkups and that providers may not be aware that obesity-related services are covered for youngsters in the program. Most states told GAO that they have set goals for and monitored children's utilization of preventive services available and that they have taken steps to increase the number of children who received those services through Medicaid. However, the GAO study found that only 58% of children who were eligible under the program to receive a periodic screening, diagnostic, or treatment service in 2007 actually received one.

HHS Supports Health Centers

The Department of Health and Human Services has granted &dollar;25.7 million to increase and improve health and support services at public health centers, which are treating many more children than they did before the economic downturn. The federal health center system, overseen by the Health Resources and Services Administration, served more than 17 million medically needy people in 2008, up from 10 million patients in 2001, according to HHS. Since the economic downturn began, the health center patient population has grown by another million people, one-third of them children.

Obesity Counseling Found Ineffective

Primary care obesity screening followed by a series of counseling sessions failed to improve body mass index, physical activity, or nutrition in overweight or mildly obese children, a study in the British Medical Journal found. A total of 139 overweight and mildly obese children aged 5-10 years underwent four brief consultations with their physicians in Melbourne over 12 weeks. The objective was to change the children's behavior. But when compared with that of a control group after a year, the intervention group's BMI had not fallen significantly, the study found. Money might be better spent on obesity-prevention activities at the community and population levels, rather than on individual counseling by primary care physicians, the authors concluded.

HHS Awards Adoption Incentives

The Department of Health and Human Services announced the distribution of &dollar;35 million to 38 states and Puerto Rico to increase adoptions among children in foster care. Congress created the Adoptions Incentive program in 1997 as part of the Adoption and Safe Families Act, particularly to move older children and those with special needs into permanent homes. As part of the program, states can earn &dollar;4,000 for each additional adopted foster child above a baseline rate established in 2007. They receive additional payments for the adoption of foster children older than age 8 and those with special needs. States use the incentive payments to improve their programs for abused and neglected children, according to HHS.

pdnews@elsevier.com

General pediatricians can take care of a great number of children with reflux disease. I recommend a step-up approach employing lifestyle modifications and/or medication prior to specialist referral in most cases. When symptoms become more troublesome or there is no response to therapeutic interventions, consultation with a pediatric gastroenterologist may be appropriate.

Begin with a thorough patient history, which is instrumental to distinguishing gastroesophageal reflux disease (GERD) from other conditions. Family medical and medication history also are important because of compelling evidence demonstrating a family link with GERD.

Advise school-age children with GERD to eat smaller meals throughout the day and not to eat too close to bedtime. Tomato-containing products, caffeine-containing products, citrus, and—believe it or not—chocolate are commonly implicated as evoking or exacerbating symptoms of GERD. Foods with high-fat content also are associated with the disorder, as they delay the ability of the stomach to empty quickly, thus potentially worsening GERD.

Sleep disturbances may be the sole symptom for a lot of older children with reflux. Microburps or microaspirations that occur when children are supine at night wake some; they do not wake others, so keep in mind that some children might be unaware of their GERD. A good question to ask is how many pillows they sleep on at night; some children already self-manage their symptoms by elevating their upper torso at night without realizing why.

Early morning nausea also can occur after a night of continuous reflux. Therefore, the presentation of a child who says he or she routinely does not want to eat in the morning, particularly if he or she complains of nausea, raises clinical suspicion for GERD. Also, some children can report regurgitating and re-swallowing all day as they sit in class.

In addition to lifestyle changes, a trial of acid-suppressing medication, such as an H₂ blocker or a proton pump inhibitor, can be tried. Limit initial treatment to 6-8 weeks for most children. If a child reports respiratory symptoms associated with GERD, consider a longer course of acid suppression therapy. It is important to discuss the specific GERD-related symptoms you expect the medication to resolve prior to initiation of therapy.

A referral to a pediatric gastroenterologist is warranted after lifestyle modifications and pharmacotherapy fail, or if symptoms return after therapy is discontinued. Sometimes patients do not improve with these interventions or they get better but you cannot get patients off the medication without symptoms returning. Also, other warning signs or symptoms such as anemia or occult blood in the stool or vomit require a referral.

Frequently, children, particularly those of school age, with GERD complain of a stomachache. However, GERD is more of a burning pain versus a cramping pain. Pain that is associated with GERD or due to another “organic” cause tends to be pain that localizes away from the belly button and is more epigastric, versus periumbilical pain, which tends to be more functional. In addition, abdominal pain that awakens children at night tends to be more organic in nature. Some children with GERD are misdiagnosed and actually have a functional GI disorder or vice versa. Definitions of pediatric functional GI disorders can aid in the differential diagnosis; these are outlined in Rome III criteria (www.romecriteria.org

There is no diagnostic test that is 100% accurate for the diagnosis of GERD. Thus, it is important to avoid too much testing or inappropriate treatment. For example, pediatricians tend to do an upper gastrointestinal series using barium and x-ray fluoroscopy, which is not good for ruling GERD in or out, but can be beneficial in identifying upper GI anatomic abnormalities. Nuclear scintigraphy can be employed to assess gastric emptying and aspiration of reflux contents.

Pediatricians can order a pH probe to ascertain the degree of acid exposure to the esophagus, although some centers require a GI consultation first. Endoscopic studies require a referral to a specialist. Specialists also may perform a newer modality called multichannel intraluminal impedance, which, when combined with the pH probe, can measure both acid reflux and nonacid or weakly acid reflux.

In a survey of 6,000 American Academy of Pediatrics members, 82% of the 1,245 responding pediatricians and pediatric specialists said they treat GERD based on clinical suspicion (J. Pediatr. Gastroenterol. Nutr. 2007;45:56-64). Such empiric therapy is still appropriate in the pediatric patient. However, there is a need for future research on the optimal therapy type, dose, and duration in these patients with clinically suspected GERD.

To promote a more standardized approach to pediatric GERD, I participated on an international committee that released an evidence-based set of definitions for reflux and GERD in the pediatric population (Am. J. Gastroenterol. 2009;104:1278-95). Additional guidance on GERD is available from the North American Society for Pediatric Gastroenterology, Hepatology, and Nutrition (www.naspghan.orgwww.cdhnf.org

pdnews@elsevier.com

General pediatricians can take care of a great number of children with reflux disease. I recommend a step-up approach employing lifestyle modifications and/or medication prior to specialist referral in most cases. When symptoms become more troublesome or there is no response to therapeutic interventions, consultation with a pediatric gastroenterologist may be appropriate.

Begin with a thorough patient history, which is instrumental to distinguishing gastroesophageal reflux disease (GERD) from other conditions. Family medical and medication history also are important because of compelling evidence demonstrating a family link with GERD.

Advise school-age children with GERD to eat smaller meals throughout the day and not to eat too close to bedtime. Tomato-containing products, caffeine-containing products, citrus, and—believe it or not—chocolate are commonly implicated as evoking or exacerbating symptoms of GERD. Foods with high-fat content also are associated with the disorder, as they delay the ability of the stomach to empty quickly, thus potentially worsening GERD.

Sleep disturbances may be the sole symptom for a lot of older children with reflux. Microburps or microaspirations that occur when children are supine at night wake some; they do not wake others, so keep in mind that some children might be unaware of their GERD. A good question to ask is how many pillows they sleep on at night; some children already self-manage their symptoms by elevating their upper torso at night without realizing why.

Early morning nausea also can occur after a night of continuous reflux. Therefore, the presentation of a child who says he or she routinely does not want to eat in the morning, particularly if he or she complains of nausea, raises clinical suspicion for GERD. Also, some children can report regurgitating and re-swallowing all day as they sit in class.

In addition to lifestyle changes, a trial of acid-suppressing medication, such as an H₂ blocker or a proton pump inhibitor, can be tried. Limit initial treatment to 6-8 weeks for most children. If a child reports respiratory symptoms associated with GERD, consider a longer course of acid suppression therapy. It is important to discuss the specific GERD-related symptoms you expect the medication to resolve prior to initiation of therapy.

A referral to a pediatric gastroenterologist is warranted after lifestyle modifications and pharmacotherapy fail, or if symptoms return after therapy is discontinued. Sometimes patients do not improve with these interventions or they get better but you cannot get patients off the medication without symptoms returning. Also, other warning signs or symptoms such as anemia or occult blood in the stool or vomit require a referral.

Frequently, children, particularly those of school age, with GERD complain of a stomachache. However, GERD is more of a burning pain versus a cramping pain. Pain that is associated with GERD or due to another “organic” cause tends to be pain that localizes away from the belly button and is more epigastric, versus periumbilical pain, which tends to be more functional. In addition, abdominal pain that awakens children at night tends to be more organic in nature. Some children with GERD are misdiagnosed and actually have a functional GI disorder or vice versa. Definitions of pediatric functional GI disorders can aid in the differential diagnosis; these are outlined in Rome III criteria (www.romecriteria.org

There is no diagnostic test that is 100% accurate for the diagnosis of GERD. Thus, it is important to avoid too much testing or inappropriate treatment. For example, pediatricians tend to do an upper gastrointestinal series using barium and x-ray fluoroscopy, which is not good for ruling GERD in or out, but can be beneficial in identifying upper GI anatomic abnormalities. Nuclear scintigraphy can be employed to assess gastric emptying and aspiration of reflux contents.

Pediatricians can order a pH probe to ascertain the degree of acid exposure to the esophagus, although some centers require a GI consultation first. Endoscopic studies require a referral to a specialist. Specialists also may perform a newer modality called multichannel intraluminal impedance, which, when combined with the pH probe, can measure both acid reflux and nonacid or weakly acid reflux.

In a survey of 6,000 American Academy of Pediatrics members, 82% of the 1,245 responding pediatricians and pediatric specialists said they treat GERD based on clinical suspicion (J. Pediatr. Gastroenterol. Nutr. 2007;45:56-64). Such empiric therapy is still appropriate in the pediatric patient. However, there is a need for future research on the optimal therapy type, dose, and duration in these patients with clinically suspected GERD.

To promote a more standardized approach to pediatric GERD, I participated on an international committee that released an evidence-based set of definitions for reflux and GERD in the pediatric population (Am. J. Gastroenterol. 2009;104:1278-95). Additional guidance on GERD is available from the North American Society for Pediatric Gastroenterology, Hepatology, and Nutrition (www.naspghan.orgwww.cdhnf.org

pdnews@elsevier.com

General pediatricians can take care of a great number of children with reflux disease. I recommend a step-up approach employing lifestyle modifications and/or medication prior to specialist referral in most cases. When symptoms become more troublesome or there is no response to therapeutic interventions, consultation with a pediatric gastroenterologist may be appropriate.

Begin with a thorough patient history, which is instrumental to distinguishing gastroesophageal reflux disease (GERD) from other conditions. Family medical and medication history also are important because of compelling evidence demonstrating a family link with GERD.

Advise school-age children with GERD to eat smaller meals throughout the day and not to eat too close to bedtime. Tomato-containing products, caffeine-containing products, citrus, and—believe it or not—chocolate are commonly implicated as evoking or exacerbating symptoms of GERD. Foods with high-fat content also are associated with the disorder, as they delay the ability of the stomach to empty quickly, thus potentially worsening GERD.

Sleep disturbances may be the sole symptom for a lot of older children with reflux. Microburps or microaspirations that occur when children are supine at night wake some; they do not wake others, so keep in mind that some children might be unaware of their GERD. A good question to ask is how many pillows they sleep on at night; some children already self-manage their symptoms by elevating their upper torso at night without realizing why.

Early morning nausea also can occur after a night of continuous reflux. Therefore, the presentation of a child who says he or she routinely does not want to eat in the morning, particularly if he or she complains of nausea, raises clinical suspicion for GERD. Also, some children can report regurgitating and re-swallowing all day as they sit in class.

In addition to lifestyle changes, a trial of acid-suppressing medication, such as an H₂ blocker or a proton pump inhibitor, can be tried. Limit initial treatment to 6-8 weeks for most children. If a child reports respiratory symptoms associated with GERD, consider a longer course of acid suppression therapy. It is important to discuss the specific GERD-related symptoms you expect the medication to resolve prior to initiation of therapy.

A referral to a pediatric gastroenterologist is warranted after lifestyle modifications and pharmacotherapy fail, or if symptoms return after therapy is discontinued. Sometimes patients do not improve with these interventions or they get better but you cannot get patients off the medication without symptoms returning. Also, other warning signs or symptoms such as anemia or occult blood in the stool or vomit require a referral.

Frequently, children, particularly those of school age, with GERD complain of a stomachache. However, GERD is more of a burning pain versus a cramping pain. Pain that is associated with GERD or due to another “organic” cause tends to be pain that localizes away from the belly button and is more epigastric, versus periumbilical pain, which tends to be more functional. In addition, abdominal pain that awakens children at night tends to be more organic in nature. Some children with GERD are misdiagnosed and actually have a functional GI disorder or vice versa. Definitions of pediatric functional GI disorders can aid in the differential diagnosis; these are outlined in Rome III criteria (www.romecriteria.org

There is no diagnostic test that is 100% accurate for the diagnosis of GERD. Thus, it is important to avoid too much testing or inappropriate treatment. For example, pediatricians tend to do an upper gastrointestinal series using barium and x-ray fluoroscopy, which is not good for ruling GERD in or out, but can be beneficial in identifying upper GI anatomic abnormalities. Nuclear scintigraphy can be employed to assess gastric emptying and aspiration of reflux contents.

Pediatricians can order a pH probe to ascertain the degree of acid exposure to the esophagus, although some centers require a GI consultation first. Endoscopic studies require a referral to a specialist. Specialists also may perform a newer modality called multichannel intraluminal impedance, which, when combined with the pH probe, can measure both acid reflux and nonacid or weakly acid reflux.

In a survey of 6,000 American Academy of Pediatrics members, 82% of the 1,245 responding pediatricians and pediatric specialists said they treat GERD based on clinical suspicion (J. Pediatr. Gastroenterol. Nutr. 2007;45:56-64). Such empiric therapy is still appropriate in the pediatric patient. However, there is a need for future research on the optimal therapy type, dose, and duration in these patients with clinically suspected GERD.

To promote a more standardized approach to pediatric GERD, I participated on an international committee that released an evidence-based set of definitions for reflux and GERD in the pediatric population (Am. J. Gastroenterol. 2009;104:1278-95). Additional guidance on GERD is available from the North American Society for Pediatric Gastroenterology, Hepatology, and Nutrition (www.naspghan.orgwww.cdhnf.org

John Nelson, MD, FACP, FHM, hasn't taken a medical test in more than 20 years. So when news began to spread last week that the American Board of Internal Medicine (ABIM) soon will be offering a Recognition of Focused Practice (RFP) in Hospital Medicine certification, he started to get a little nervous.

"I will lose sleep the week before I take this test," says Dr. Nelson, co-founder and past president of SHM, and a principal in the practice management firm Nelson Flores Hospital Medicine Consultants. "This exam will help identify those who see this as a career. … Boy, there is nothing like a test to demonstrate professional centeredness."

The exam, likely to be available in the fall of 2010, will identify physicians who have "maintained their internal medicine certification focused in hospital medicine," according to the ABIM Web site.

"For those individuals [whose certificate] will be expiring in 2010 or 2011, this is a viable pathway for re-certification," says Eric Holmbloe, MD, senior vice president and chief medical officer at ABIM. "Interested diplomats should be able to begin the application process in early 2010. We are feverishly working to complete the test and build the technology infrastructure. We should have more information available in about six weeks."

HM pioneers like Dr. Nelson consider the RFP designation a validation of decades-long efforts to carve a niche in medicine. The test will symbolize dedication to the specialty and provide HM physicians with professional self-regulation.

Scott Flanders, MD, FHM, president of SHM, terms the announcement a "watershed moment" for the field.

"I think this is a major, major moment for HM," says Dr. Flanders, who practices at the University of Michigan Medical Center in Ann Arbor. "We've been looking at this for a long time. This validates the field, and the belief that HM is a positive [for the field of medicine]."

Dr. Nelson couldn't agree more. "This test is the first way hospitalists will be able to show their competence," he says. "I think it's a great opportunity. This will help people take our field more seriously."

John Nelson, MD, FACP, FHM, hasn't taken a medical test in more than 20 years. So when news began to spread last week that the American Board of Internal Medicine (ABIM) soon will be offering a Recognition of Focused Practice (RFP) in Hospital Medicine certification, he started to get a little nervous.

"I will lose sleep the week before I take this test," says Dr. Nelson, co-founder and past president of SHM, and a principal in the practice management firm Nelson Flores Hospital Medicine Consultants. "This exam will help identify those who see this as a career. … Boy, there is nothing like a test to demonstrate professional centeredness."

The exam, likely to be available in the fall of 2010, will identify physicians who have "maintained their internal medicine certification focused in hospital medicine," according to the ABIM Web site.

"For those individuals [whose certificate] will be expiring in 2010 or 2011, this is a viable pathway for re-certification," says Eric Holmbloe, MD, senior vice president and chief medical officer at ABIM. "Interested diplomats should be able to begin the application process in early 2010. We are feverishly working to complete the test and build the technology infrastructure. We should have more information available in about six weeks."

HM pioneers like Dr. Nelson consider the RFP designation a validation of decades-long efforts to carve a niche in medicine. The test will symbolize dedication to the specialty and provide HM physicians with professional self-regulation.

Scott Flanders, MD, FHM, president of SHM, terms the announcement a "watershed moment" for the field.

"I think this is a major, major moment for HM," says Dr. Flanders, who practices at the University of Michigan Medical Center in Ann Arbor. "We've been looking at this for a long time. This validates the field, and the belief that HM is a positive [for the field of medicine]."

Dr. Nelson couldn't agree more. "This test is the first way hospitalists will be able to show their competence," he says. "I think it's a great opportunity. This will help people take our field more seriously."

John Nelson, MD, FACP, FHM, hasn't taken a medical test in more than 20 years. So when news began to spread last week that the American Board of Internal Medicine (ABIM) soon will be offering a Recognition of Focused Practice (RFP) in Hospital Medicine certification, he started to get a little nervous.

"I will lose sleep the week before I take this test," says Dr. Nelson, co-founder and past president of SHM, and a principal in the practice management firm Nelson Flores Hospital Medicine Consultants. "This exam will help identify those who see this as a career. … Boy, there is nothing like a test to demonstrate professional centeredness."

The exam, likely to be available in the fall of 2010, will identify physicians who have "maintained their internal medicine certification focused in hospital medicine," according to the ABIM Web site.

"For those individuals [whose certificate] will be expiring in 2010 or 2011, this is a viable pathway for re-certification," says Eric Holmbloe, MD, senior vice president and chief medical officer at ABIM. "Interested diplomats should be able to begin the application process in early 2010. We are feverishly working to complete the test and build the technology infrastructure. We should have more information available in about six weeks."

HM pioneers like Dr. Nelson consider the RFP designation a validation of decades-long efforts to carve a niche in medicine. The test will symbolize dedication to the specialty and provide HM physicians with professional self-regulation.

Scott Flanders, MD, FHM, president of SHM, terms the announcement a "watershed moment" for the field.

"I think this is a major, major moment for HM," says Dr. Flanders, who practices at the University of Michigan Medical Center in Ann Arbor. "We've been looking at this for a long time. This validates the field, and the belief that HM is a positive [for the field of medicine]."

Dr. Nelson couldn't agree more. "This test is the first way hospitalists will be able to show their competence," he says. "I think it's a great opportunity. This will help people take our field more seriously."

A presentation at last week's 13th annual Management of the Hospitalized Patient conference in San Francisco described various ways that hospitals, hospitalists, and HM groups can incorporate new social media into their practice routines.

Hospitalist Russell Cucina, MD, MS, associate medical director of information technology at the University of California at San Francisco, says some physicians mistakenly disclose unprofessional content through social networks. He points to a recent article in the Journal of the American Medical Association (2009;302(12):1309-1315), which shows some physicians inadvertently violate Health Insurance Portability and Accountability Act privacy rules by accepting e-mails from patients that contain protected personal health information.

But in many cases, hospitals and physicians use blogs, Twitter, Facebook, LinkedIn, and other networking sites to exchange information with colleagues, promote their practice in their communities, or recruit new physicians. Such organizations as the Mayo Clinic and SHM use Facebook to reach targeted audiences, while the Centers for Disease Control and Prevention (CDC) uses Twitter to quickly disseminate influenza updates. Dr. Cucina says he knows of 167 U.S. hospitals using the much-hyped Twitter, but he could not find an HM group that uses the quick-hit network. He also reports that Ozmosis and Sermo, networking sites reserved for physicians, have yet to catch on in a big way.

Christine Roed, MD, a hospitalist at El Camino Hospital in Mountain View, Calif., says she sees great potential for communicating within her small medical group and for tapping into public health information. "I also feel it might be quite overwhelming. I think we have to look quite carefully at which information sources are reliable and, in turn, advise the public," Dr. Roed says. "I think a lot of physicians don't really have time to sit down and figure out what they're going to do with these things."

A presentation at last week's 13th annual Management of the Hospitalized Patient conference in San Francisco described various ways that hospitals, hospitalists, and HM groups can incorporate new social media into their practice routines.

Hospitalist Russell Cucina, MD, MS, associate medical director of information technology at the University of California at San Francisco, says some physicians mistakenly disclose unprofessional content through social networks. He points to a recent article in the Journal of the American Medical Association (2009;302(12):1309-1315), which shows some physicians inadvertently violate Health Insurance Portability and Accountability Act privacy rules by accepting e-mails from patients that contain protected personal health information.

But in many cases, hospitals and physicians use blogs, Twitter, Facebook, LinkedIn, and other networking sites to exchange information with colleagues, promote their practice in their communities, or recruit new physicians. Such organizations as the Mayo Clinic and SHM use Facebook to reach targeted audiences, while the Centers for Disease Control and Prevention (CDC) uses Twitter to quickly disseminate influenza updates. Dr. Cucina says he knows of 167 U.S. hospitals using the much-hyped Twitter, but he could not find an HM group that uses the quick-hit network. He also reports that Ozmosis and Sermo, networking sites reserved for physicians, have yet to catch on in a big way.

Christine Roed, MD, a hospitalist at El Camino Hospital in Mountain View, Calif., says she sees great potential for communicating within her small medical group and for tapping into public health information. "I also feel it might be quite overwhelming. I think we have to look quite carefully at which information sources are reliable and, in turn, advise the public," Dr. Roed says. "I think a lot of physicians don't really have time to sit down and figure out what they're going to do with these things."

A presentation at last week's 13th annual Management of the Hospitalized Patient conference in San Francisco described various ways that hospitals, hospitalists, and HM groups can incorporate new social media into their practice routines.

Hospitalist Russell Cucina, MD, MS, associate medical director of information technology at the University of California at San Francisco, says some physicians mistakenly disclose unprofessional content through social networks. He points to a recent article in the Journal of the American Medical Association (2009;302(12):1309-1315), which shows some physicians inadvertently violate Health Insurance Portability and Accountability Act privacy rules by accepting e-mails from patients that contain protected personal health information.

But in many cases, hospitals and physicians use blogs, Twitter, Facebook, LinkedIn, and other networking sites to exchange information with colleagues, promote their practice in their communities, or recruit new physicians. Such organizations as the Mayo Clinic and SHM use Facebook to reach targeted audiences, while the Centers for Disease Control and Prevention (CDC) uses Twitter to quickly disseminate influenza updates. Dr. Cucina says he knows of 167 U.S. hospitals using the much-hyped Twitter, but he could not find an HM group that uses the quick-hit network. He also reports that Ozmosis and Sermo, networking sites reserved for physicians, have yet to catch on in a big way.

Christine Roed, MD, a hospitalist at El Camino Hospital in Mountain View, Calif., says she sees great potential for communicating within her small medical group and for tapping into public health information. "I also feel it might be quite overwhelming. I think we have to look quite carefully at which information sources are reliable and, in turn, advise the public," Dr. Roed says. "I think a lot of physicians don't really have time to sit down and figure out what they're going to do with these things."

Last week’s release of the “chairman’s mark” of the America’s Healthy Future Act from Senate Finance Committee Chairman Max Baucus (D-Mont.) opened the latest chapter in the debate over healthcare reform. Beyond the hot-button issues, several Medicare-related proposals could directly impact hospitalists. Here’s a look at four of them, with observations from Eric Siegal, MD, FHM, chair of SHM’s Public Policy Committee.

Addition of a hospital value-based purchasing (VBP) program to Medicare beginning in 2012. The program would tie incentive payments to performance on quality measures related to such conditions as heart failure, pneumonia, surgical care, and patient perceptions of care. So far, the program’s rough outlines have been well received. “We fundamentally support hospital value-based purchasing,” Dr. Siegal says. “We think it’s a necessary step in the evolution to higher-value health care in general.”

Expansion of the Physician’s Quality Reporting Initiative, with a 1% payment penalty by 2012 for nonparticipants. The bill also would direct the Centers for Medicare and Medicaid Services (CMS) to improve the appeals process and feedback mechanism. Although the Baucus plan’s “mark” doesn’t discuss transitioning to pay-for-performance, Dr. Siegal says the shift likely is inevitable. In the meantime, pay-for-reporting can encourage better outcomes through a public reporting mechanism and “grease the skids” for a pay-for-performance initiative.

Creation of a CMS Payment Innovation Center “authorized to test, evaluate, and expand different payment structures and methodologies,” with a goal of improving quality and reducing Medicare costs. Dr. Siegal says the proposal is consistent with SHM’s aims. “We have for a long time advocated for a robust capability to test new payment models and to figure out what works better than what we have right now,” he says.

Establishment of a three-year Medicare pilot called the Community Care Transitions Program. The program would spend $500 million over 10 years on efforts to reduce preventable rehospitalizations. SHM’s Project BOOST (Better Outcomes for Older Adults through Safe Transitions) likely would qualify. “We’re very positive about that,” Dr. Siegal says. “I think there is a huge amount of scrutiny now on avoidable rehospitalizations. We think BOOST is a step in the right direction, and we’d love to see greater funding to roll this out on a much larger basis.”

For more information on the current healthcare reform debate, visit SHM’s advocacy portal.

Last week’s release of the “chairman’s mark” of the America’s Healthy Future Act from Senate Finance Committee Chairman Max Baucus (D-Mont.) opened the latest chapter in the debate over healthcare reform. Beyond the hot-button issues, several Medicare-related proposals could directly impact hospitalists. Here’s a look at four of them, with observations from Eric Siegal, MD, FHM, chair of SHM’s Public Policy Committee.

Addition of a hospital value-based purchasing (VBP) program to Medicare beginning in 2012. The program would tie incentive payments to performance on quality measures related to such conditions as heart failure, pneumonia, surgical care, and patient perceptions of care. So far, the program’s rough outlines have been well received. “We fundamentally support hospital value-based purchasing,” Dr. Siegal says. “We think it’s a necessary step in the evolution to higher-value health care in general.”

Expansion of the Physician’s Quality Reporting Initiative, with a 1% payment penalty by 2012 for nonparticipants. The bill also would direct the Centers for Medicare and Medicaid Services (CMS) to improve the appeals process and feedback mechanism. Although the Baucus plan’s “mark” doesn’t discuss transitioning to pay-for-performance, Dr. Siegal says the shift likely is inevitable. In the meantime, pay-for-reporting can encourage better outcomes through a public reporting mechanism and “grease the skids” for a pay-for-performance initiative.

Creation of a CMS Payment Innovation Center “authorized to test, evaluate, and expand different payment structures and methodologies,” with a goal of improving quality and reducing Medicare costs. Dr. Siegal says the proposal is consistent with SHM’s aims. “We have for a long time advocated for a robust capability to test new payment models and to figure out what works better than what we have right now,” he says.

Establishment of a three-year Medicare pilot called the Community Care Transitions Program. The program would spend $500 million over 10 years on efforts to reduce preventable rehospitalizations. SHM’s Project BOOST (Better Outcomes for Older Adults through Safe Transitions) likely would qualify. “We’re very positive about that,” Dr. Siegal says. “I think there is a huge amount of scrutiny now on avoidable rehospitalizations. We think BOOST is a step in the right direction, and we’d love to see greater funding to roll this out on a much larger basis.”

For more information on the current healthcare reform debate, visit SHM’s advocacy portal.

Last week’s release of the “chairman’s mark” of the America’s Healthy Future Act from Senate Finance Committee Chairman Max Baucus (D-Mont.) opened the latest chapter in the debate over healthcare reform. Beyond the hot-button issues, several Medicare-related proposals could directly impact hospitalists. Here’s a look at four of them, with observations from Eric Siegal, MD, FHM, chair of SHM’s Public Policy Committee.

Addition of a hospital value-based purchasing (VBP) program to Medicare beginning in 2012. The program would tie incentive payments to performance on quality measures related to such conditions as heart failure, pneumonia, surgical care, and patient perceptions of care. So far, the program’s rough outlines have been well received. “We fundamentally support hospital value-based purchasing,” Dr. Siegal says. “We think it’s a necessary step in the evolution to higher-value health care in general.”

Expansion of the Physician’s Quality Reporting Initiative, with a 1% payment penalty by 2012 for nonparticipants. The bill also would direct the Centers for Medicare and Medicaid Services (CMS) to improve the appeals process and feedback mechanism. Although the Baucus plan’s “mark” doesn’t discuss transitioning to pay-for-performance, Dr. Siegal says the shift likely is inevitable. In the meantime, pay-for-reporting can encourage better outcomes through a public reporting mechanism and “grease the skids” for a pay-for-performance initiative.

Creation of a CMS Payment Innovation Center “authorized to test, evaluate, and expand different payment structures and methodologies,” with a goal of improving quality and reducing Medicare costs. Dr. Siegal says the proposal is consistent with SHM’s aims. “We have for a long time advocated for a robust capability to test new payment models and to figure out what works better than what we have right now,” he says.

Establishment of a three-year Medicare pilot called the Community Care Transitions Program. The program would spend $500 million over 10 years on efforts to reduce preventable rehospitalizations. SHM’s Project BOOST (Better Outcomes for Older Adults through Safe Transitions) likely would qualify. “We’re very positive about that,” Dr. Siegal says. “I think there is a huge amount of scrutiny now on avoidable rehospitalizations. We think BOOST is a step in the right direction, and we’d love to see greater funding to roll this out on a much larger basis.”

For more information on the current healthcare reform debate, visit SHM’s advocacy portal.