Leukemia, Myelodysplasia, Transplantation

Azathioprine tablets

Results of a large, retrospective study suggest that taking azathioprine, a drug commonly used to treat autoimmune disease, may increase a person’s risk of developing myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML).

Researchers analyzed data on more than 40,000 patients with 27 common autoimmune diseases and found that azathioprine use was significantly associated with an increased risk of MDS and AML.

“Similar associations were already documented in case reports and case series but have never been evaluated in a broad spectrum of autoimmune diseases in that many patients and in context of individual medications,” said study author Raoul Tibes, MD, PhD, of the Mayo Clinic in Phoenix, Arizona.

“Interestingly, there was no association with length of time on therapy and resulting myeloid neoplasm.”

Dr Tibes and his colleagues reported these findings in JAMA Oncology.

The researchers reviewed data on 40,011 patients with primary autoimmune disorders, such as lupus and rheumatoid arthritis, who were seen at 2 centers from January 1, 2004, to December 31, 2014.

There were 311 patients with MDS or AML, but only 86 met strict inclusion criteria. Fifty-five patients had MDS, 21 had de novo AML, and 10 had AML and a history of MDS.

The researchers collected detailed data on each patient’s drug exposures, treatment duration, and disease characteristics and compared this information to data from patients with autoimmune disorders who did not have MDS or AML.

This revealed that use of azathioprine sodium was more frequent in cases than controls, and azathioprine was significantly associated with an increased risk of MDS and AML. The odds ratio was 7.05 (P<0.001).

Other agents used showed a similar trend, but the results were not statistically significant. The odds ratios were 3.58 for cyclophosphamide and 2.73 for mitoxantrone hydrochloride.

The researchers said that, while these results are intriguing, they should not change or replace the clinical judgments, monitoring, and current standard treatments for patients with autoimmune diseases.

Despite its large size, this study had limitations, including its retrospective nature, the fact that many different autoimmune diseases were analyzed, and that the researchers only looked at cases of MDS and AML.

No definitive causal association was made between taking a particular drug and MDS or AML. The number of patients with autoimmune disease developing MDS or AML is still low overall, and no prediction for individual patients can be concluded from the study.

The researchers plan to perform molecular investigations into the genetic susceptibility for therapy-related myeloid neoplasms as the next phase of this research.

Azathioprine tablets

Results of a large, retrospective study suggest that taking azathioprine, a drug commonly used to treat autoimmune disease, may increase a person’s risk of developing myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML).

Researchers analyzed data on more than 40,000 patients with 27 common autoimmune diseases and found that azathioprine use was significantly associated with an increased risk of MDS and AML.

“Similar associations were already documented in case reports and case series but have never been evaluated in a broad spectrum of autoimmune diseases in that many patients and in context of individual medications,” said study author Raoul Tibes, MD, PhD, of the Mayo Clinic in Phoenix, Arizona.

“Interestingly, there was no association with length of time on therapy and resulting myeloid neoplasm.”

Dr Tibes and his colleagues reported these findings in JAMA Oncology.

The researchers reviewed data on 40,011 patients with primary autoimmune disorders, such as lupus and rheumatoid arthritis, who were seen at 2 centers from January 1, 2004, to December 31, 2014.

There were 311 patients with MDS or AML, but only 86 met strict inclusion criteria. Fifty-five patients had MDS, 21 had de novo AML, and 10 had AML and a history of MDS.

The researchers collected detailed data on each patient’s drug exposures, treatment duration, and disease characteristics and compared this information to data from patients with autoimmune disorders who did not have MDS or AML.

This revealed that use of azathioprine sodium was more frequent in cases than controls, and azathioprine was significantly associated with an increased risk of MDS and AML. The odds ratio was 7.05 (P<0.001).

Other agents used showed a similar trend, but the results were not statistically significant. The odds ratios were 3.58 for cyclophosphamide and 2.73 for mitoxantrone hydrochloride.

The researchers said that, while these results are intriguing, they should not change or replace the clinical judgments, monitoring, and current standard treatments for patients with autoimmune diseases.

Despite its large size, this study had limitations, including its retrospective nature, the fact that many different autoimmune diseases were analyzed, and that the researchers only looked at cases of MDS and AML.

No definitive causal association was made between taking a particular drug and MDS or AML. The number of patients with autoimmune disease developing MDS or AML is still low overall, and no prediction for individual patients can be concluded from the study.

The researchers plan to perform molecular investigations into the genetic susceptibility for therapy-related myeloid neoplasms as the next phase of this research.

Azathioprine tablets

Results of a large, retrospective study suggest that taking azathioprine, a drug commonly used to treat autoimmune disease, may increase a person’s risk of developing myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML).

Researchers analyzed data on more than 40,000 patients with 27 common autoimmune diseases and found that azathioprine use was significantly associated with an increased risk of MDS and AML.

“Similar associations were already documented in case reports and case series but have never been evaluated in a broad spectrum of autoimmune diseases in that many patients and in context of individual medications,” said study author Raoul Tibes, MD, PhD, of the Mayo Clinic in Phoenix, Arizona.

“Interestingly, there was no association with length of time on therapy and resulting myeloid neoplasm.”

Dr Tibes and his colleagues reported these findings in JAMA Oncology.

The researchers reviewed data on 40,011 patients with primary autoimmune disorders, such as lupus and rheumatoid arthritis, who were seen at 2 centers from January 1, 2004, to December 31, 2014.

There were 311 patients with MDS or AML, but only 86 met strict inclusion criteria. Fifty-five patients had MDS, 21 had de novo AML, and 10 had AML and a history of MDS.

The researchers collected detailed data on each patient’s drug exposures, treatment duration, and disease characteristics and compared this information to data from patients with autoimmune disorders who did not have MDS or AML.

This revealed that use of azathioprine sodium was more frequent in cases than controls, and azathioprine was significantly associated with an increased risk of MDS and AML. The odds ratio was 7.05 (P<0.001).

Other agents used showed a similar trend, but the results were not statistically significant. The odds ratios were 3.58 for cyclophosphamide and 2.73 for mitoxantrone hydrochloride.

The researchers said that, while these results are intriguing, they should not change or replace the clinical judgments, monitoring, and current standard treatments for patients with autoimmune diseases.

Despite its large size, this study had limitations, including its retrospective nature, the fact that many different autoimmune diseases were analyzed, and that the researchers only looked at cases of MDS and AML.

No definitive causal association was made between taking a particular drug and MDS or AML. The number of patients with autoimmune disease developing MDS or AML is still low overall, and no prediction for individual patients can be concluded from the study.

The researchers plan to perform molecular investigations into the genetic susceptibility for therapy-related myeloid neoplasms as the next phase of this research.

Thanks to gene-editing treatment, 2 babies who had leukemia have a longer lease on life. Researchers from University College London, Great Ormond Street Hospital National Health Service Trust, King’s College, and Sheffield Children’s Hospital, in the United Kingdom used genetically engineered white blood cells from healthy individuals to target the cancer cells.

Related: New Treatments for Chronic Lymphocytic Leukemia

One infant was 11 months old, and the second was 16 months old. Both had refractory relapsed B-cell acute lymphoblastic leukemia and had undergone multidrug treatments. Although the potential of the method has been demonstrated in autologous and human-leukocyte-antigen–matched allogeneic settings, the researchers say, “the infrastructure and expertise required to produce personalized cell products present challenges, and low T cell counts in heavily treated individuals may preclude autologous approaches.”

The treatment involves lymphodepleting chemotherapy and anti-CD52 serotherapy, followed by a single-dose infusion of universal CAR19 cells (autologous T cells engineered to express chimeric antigen receptor against the B-cell antigen CD19). This “bridge-to-transplantation strategy” demonstrates the therapeutic potential of gene-editing technology, the researchers say.

Related: Six Open Clinical Trials That Are Expanding Our Understanding of Immunotherapies

Just 28 days after the treatment, molecular markers showed remission in both infants. The treatments were well tolerated. The first infant had an immune reaction (cytopenia and graft-vs-host disease [GVHD] in skin and marrow) in the 2 months after the infusion and was treated with steroids and bone marrow transplantation. The other baby had no adverse reactions apart from mild skin GVHD that reversed “promptly” with topical steroids and an episode of “unexplained irritability” in the 3 weeks after infusion.

The first and second infant remained cancer free 18 and 12 months later.

Source:

Qasim W, Zhan H, Samarasinghe S, et al. Sci Transl Med. 2017;9(374):pii: eaaj2013.
doi: 10.1126/scitranslmed.aaj2013.

Thanks to gene-editing treatment, 2 babies who had leukemia have a longer lease on life. Researchers from University College London, Great Ormond Street Hospital National Health Service Trust, King’s College, and Sheffield Children’s Hospital, in the United Kingdom used genetically engineered white blood cells from healthy individuals to target the cancer cells.

Related: New Treatments for Chronic Lymphocytic Leukemia

One infant was 11 months old, and the second was 16 months old. Both had refractory relapsed B-cell acute lymphoblastic leukemia and had undergone multidrug treatments. Although the potential of the method has been demonstrated in autologous and human-leukocyte-antigen–matched allogeneic settings, the researchers say, “the infrastructure and expertise required to produce personalized cell products present challenges, and low T cell counts in heavily treated individuals may preclude autologous approaches.”

The treatment involves lymphodepleting chemotherapy and anti-CD52 serotherapy, followed by a single-dose infusion of universal CAR19 cells (autologous T cells engineered to express chimeric antigen receptor against the B-cell antigen CD19). This “bridge-to-transplantation strategy” demonstrates the therapeutic potential of gene-editing technology, the researchers say.

Related: Six Open Clinical Trials That Are Expanding Our Understanding of Immunotherapies

Just 28 days after the treatment, molecular markers showed remission in both infants. The treatments were well tolerated. The first infant had an immune reaction (cytopenia and graft-vs-host disease [GVHD] in skin and marrow) in the 2 months after the infusion and was treated with steroids and bone marrow transplantation. The other baby had no adverse reactions apart from mild skin GVHD that reversed “promptly” with topical steroids and an episode of “unexplained irritability” in the 3 weeks after infusion.

The first and second infant remained cancer free 18 and 12 months later.

Source:

Qasim W, Zhan H, Samarasinghe S, et al. Sci Transl Med. 2017;9(374):pii: eaaj2013.
doi: 10.1126/scitranslmed.aaj2013.

Thanks to gene-editing treatment, 2 babies who had leukemia have a longer lease on life. Researchers from University College London, Great Ormond Street Hospital National Health Service Trust, King’s College, and Sheffield Children’s Hospital, in the United Kingdom used genetically engineered white blood cells from healthy individuals to target the cancer cells.

Related: New Treatments for Chronic Lymphocytic Leukemia

One infant was 11 months old, and the second was 16 months old. Both had refractory relapsed B-cell acute lymphoblastic leukemia and had undergone multidrug treatments. Although the potential of the method has been demonstrated in autologous and human-leukocyte-antigen–matched allogeneic settings, the researchers say, “the infrastructure and expertise required to produce personalized cell products present challenges, and low T cell counts in heavily treated individuals may preclude autologous approaches.”

The treatment involves lymphodepleting chemotherapy and anti-CD52 serotherapy, followed by a single-dose infusion of universal CAR19 cells (autologous T cells engineered to express chimeric antigen receptor against the B-cell antigen CD19). This “bridge-to-transplantation strategy” demonstrates the therapeutic potential of gene-editing technology, the researchers say.

Related: Six Open Clinical Trials That Are Expanding Our Understanding of Immunotherapies

Just 28 days after the treatment, molecular markers showed remission in both infants. The treatments were well tolerated. The first infant had an immune reaction (cytopenia and graft-vs-host disease [GVHD] in skin and marrow) in the 2 months after the infusion and was treated with steroids and bone marrow transplantation. The other baby had no adverse reactions apart from mild skin GVHD that reversed “promptly” with topical steroids and an episode of “unexplained irritability” in the 3 weeks after infusion.

The first and second infant remained cancer free 18 and 12 months later.

Source:

Qasim W, Zhan H, Samarasinghe S, et al. Sci Transl Med. 2017;9(374):pii: eaaj2013.
doi: 10.1126/scitranslmed.aaj2013.

Dendritic cells in skin

Stemline Therapeutics, Inc. has announced another patient death in its ongoing phase 2 trial of SL-401 in patients with blastic plasmacytoid dendritic cell neoplasm (BPDCN) and acute myeloid leukemia (AML).

The company became aware of this death, in a patient with BPDCN, on January 18.

The cause of death has not been determined, but the patient had developed capillary leak syndrome (CLS), a sometimes fatal and well-documented side effect of SL-401.

There have been 2 other deaths reported in patients with CLS in this trial. One of these deaths occurred in a patient with BPDCN and the other in a patient with AML.

Stemline said this study is ongoing, patient enrollment is ahead of schedule, and patients continue to receive SL-401 in the trial. Timelines for study completion and biologics licensing application submission remain on track.

The fact that CLS is an expected complication of SL-401 administration has been noted in filings with the Securities and Exchange Commission and US Food and Drug Administration (FDA), as well as in the study’s informed consent forms and other information provided to investigators.

Stemline said it has and will continue to report data to the FDA in accordance with the study protocol and applicable regulations. The company plans to provide a clinical and safety update on this cohort when the cohort and data are complete.

SL-410 in BPDCN

SL-401 is a targeted therapy directed to the interleukin-3 receptor (IL-3R), which is present in BPDCN and other hematologic malignancies. SL-401 is composed of human IL-3 coupled to a truncated diphtheria toxin payload that inhibits protein synthesis.

SL-401 is being tested in several clinical trials. Results from the phase 2 trial in BPDCN and AML patients were presented at the 2016 ASH Annual Meeting (abstract 342). However, the presentation only included data on the patients with BPDCN.

The trial consists of a lead-in dose-escalation stage (stage 1) and subsequent expansion stage (stage 2). In stage 1, patients received SL-401 as a daily intravenous infusion for up to 5 days (7, 9, 12, or 16 μg/kg/day) every 21 days. In stage 2, patients received SL-401 at the optimal stage 1 dose—12 μg/kg.

As of October 7, 2016, 32 BPDCN patients had been treated—9 in stage 1 and 23 in stage 2. Nineteen patients received SL-401 as first-line treatment, and 13 had relapsed/refractory disease. (Fourteen patients with relapsed/refractory AML were treated in stage 1.)

Efficacy

Of the 19 first-line BPDCN patients, 16 received the optimal dose (12 μg/kg). The overall response rate was 95% among all first-line patients (18/19) and 100% among those who received the optimal dose (16/16).

The complete response rates were 74% (14/19) and 81% (13/16), respectively. Six patients (all who received the optimal dose) proceeded to transplant (autologous and allogeneic).

All 13 relapsed/refractory BPDCN patients received the optimal dose. The overall response rate was 69% (9/13), and the complete response rate was 31% (4/13). One patient proceeded to allogeneic transplant.

Eleven first-line patients, including the 6 who went on to transplant, have ongoing responses. Six relapsed/refractory patients, including the patient who went on to transplant, have ongoing responses.

Among first-line patients treated at the optimal dose, the median progression-free and overall survival have not been reached. Among relapsed/refractory patients (all of whom were treated at the optimal dose), the median progression-free and overall survival are 8.5 months.

Safety

The most common treatment-related adverse events were transaminase elevation (52%), hypoalbuminemia (39%), chills (31%), pyrexia (27%), nausea (23%), fatigue (23%), peripheral edema (23%), thrombocytopenia (19%), hypotension (19%), weight increase (19%), anemia (19%), decreased appetite (19%), and CLS (19%).

In stage 1, two BPDCN patients had CLS—one grade 5 (7 μg/kg) and one grade 4 (12 μg/kg). After this, safety precautions were implemented to minimize the risk of severe CLS.

A second CLS-related death occurred in stage 1 in a patient with relapsed/refractory AML (16 μg/kg).

The other death in a BPDCN patient with CLS was reported after the ASH presentation. Stemline became aware of the death on January 18 and disclosed it to the public on February 2.

Dendritic cells in skin

Stemline Therapeutics, Inc. has announced another patient death in its ongoing phase 2 trial of SL-401 in patients with blastic plasmacytoid dendritic cell neoplasm (BPDCN) and acute myeloid leukemia (AML).

The company became aware of this death, in a patient with BPDCN, on January 18.

The cause of death has not been determined, but the patient had developed capillary leak syndrome (CLS), a sometimes fatal and well-documented side effect of SL-401.

There have been 2 other deaths reported in patients with CLS in this trial. One of these deaths occurred in a patient with BPDCN and the other in a patient with AML.

Stemline said this study is ongoing, patient enrollment is ahead of schedule, and patients continue to receive SL-401 in the trial. Timelines for study completion and biologics licensing application submission remain on track.

The fact that CLS is an expected complication of SL-401 administration has been noted in filings with the Securities and Exchange Commission and US Food and Drug Administration (FDA), as well as in the study’s informed consent forms and other information provided to investigators.

Stemline said it has and will continue to report data to the FDA in accordance with the study protocol and applicable regulations. The company plans to provide a clinical and safety update on this cohort when the cohort and data are complete.

SL-410 in BPDCN

SL-401 is a targeted therapy directed to the interleukin-3 receptor (IL-3R), which is present in BPDCN and other hematologic malignancies. SL-401 is composed of human IL-3 coupled to a truncated diphtheria toxin payload that inhibits protein synthesis.

SL-401 is being tested in several clinical trials. Results from the phase 2 trial in BPDCN and AML patients were presented at the 2016 ASH Annual Meeting (abstract 342). However, the presentation only included data on the patients with BPDCN.

The trial consists of a lead-in dose-escalation stage (stage 1) and subsequent expansion stage (stage 2). In stage 1, patients received SL-401 as a daily intravenous infusion for up to 5 days (7, 9, 12, or 16 μg/kg/day) every 21 days. In stage 2, patients received SL-401 at the optimal stage 1 dose—12 μg/kg.

As of October 7, 2016, 32 BPDCN patients had been treated—9 in stage 1 and 23 in stage 2. Nineteen patients received SL-401 as first-line treatment, and 13 had relapsed/refractory disease. (Fourteen patients with relapsed/refractory AML were treated in stage 1.)

Efficacy

Of the 19 first-line BPDCN patients, 16 received the optimal dose (12 μg/kg). The overall response rate was 95% among all first-line patients (18/19) and 100% among those who received the optimal dose (16/16).

The complete response rates were 74% (14/19) and 81% (13/16), respectively. Six patients (all who received the optimal dose) proceeded to transplant (autologous and allogeneic).

All 13 relapsed/refractory BPDCN patients received the optimal dose. The overall response rate was 69% (9/13), and the complete response rate was 31% (4/13). One patient proceeded to allogeneic transplant.

Eleven first-line patients, including the 6 who went on to transplant, have ongoing responses. Six relapsed/refractory patients, including the patient who went on to transplant, have ongoing responses.

Among first-line patients treated at the optimal dose, the median progression-free and overall survival have not been reached. Among relapsed/refractory patients (all of whom were treated at the optimal dose), the median progression-free and overall survival are 8.5 months.

Safety

The most common treatment-related adverse events were transaminase elevation (52%), hypoalbuminemia (39%), chills (31%), pyrexia (27%), nausea (23%), fatigue (23%), peripheral edema (23%), thrombocytopenia (19%), hypotension (19%), weight increase (19%), anemia (19%), decreased appetite (19%), and CLS (19%).

In stage 1, two BPDCN patients had CLS—one grade 5 (7 μg/kg) and one grade 4 (12 μg/kg). After this, safety precautions were implemented to minimize the risk of severe CLS.

A second CLS-related death occurred in stage 1 in a patient with relapsed/refractory AML (16 μg/kg).

The other death in a BPDCN patient with CLS was reported after the ASH presentation. Stemline became aware of the death on January 18 and disclosed it to the public on February 2.

Dendritic cells in skin

Stemline Therapeutics, Inc. has announced another patient death in its ongoing phase 2 trial of SL-401 in patients with blastic plasmacytoid dendritic cell neoplasm (BPDCN) and acute myeloid leukemia (AML).

The company became aware of this death, in a patient with BPDCN, on January 18.

The cause of death has not been determined, but the patient had developed capillary leak syndrome (CLS), a sometimes fatal and well-documented side effect of SL-401.

There have been 2 other deaths reported in patients with CLS in this trial. One of these deaths occurred in a patient with BPDCN and the other in a patient with AML.

Stemline said this study is ongoing, patient enrollment is ahead of schedule, and patients continue to receive SL-401 in the trial. Timelines for study completion and biologics licensing application submission remain on track.

The fact that CLS is an expected complication of SL-401 administration has been noted in filings with the Securities and Exchange Commission and US Food and Drug Administration (FDA), as well as in the study’s informed consent forms and other information provided to investigators.

Stemline said it has and will continue to report data to the FDA in accordance with the study protocol and applicable regulations. The company plans to provide a clinical and safety update on this cohort when the cohort and data are complete.

SL-410 in BPDCN

SL-401 is a targeted therapy directed to the interleukin-3 receptor (IL-3R), which is present in BPDCN and other hematologic malignancies. SL-401 is composed of human IL-3 coupled to a truncated diphtheria toxin payload that inhibits protein synthesis.

SL-401 is being tested in several clinical trials. Results from the phase 2 trial in BPDCN and AML patients were presented at the 2016 ASH Annual Meeting (abstract 342). However, the presentation only included data on the patients with BPDCN.

The trial consists of a lead-in dose-escalation stage (stage 1) and subsequent expansion stage (stage 2). In stage 1, patients received SL-401 as a daily intravenous infusion for up to 5 days (7, 9, 12, or 16 μg/kg/day) every 21 days. In stage 2, patients received SL-401 at the optimal stage 1 dose—12 μg/kg.

As of October 7, 2016, 32 BPDCN patients had been treated—9 in stage 1 and 23 in stage 2. Nineteen patients received SL-401 as first-line treatment, and 13 had relapsed/refractory disease. (Fourteen patients with relapsed/refractory AML were treated in stage 1.)

Efficacy

Of the 19 first-line BPDCN patients, 16 received the optimal dose (12 μg/kg). The overall response rate was 95% among all first-line patients (18/19) and 100% among those who received the optimal dose (16/16).

The complete response rates were 74% (14/19) and 81% (13/16), respectively. Six patients (all who received the optimal dose) proceeded to transplant (autologous and allogeneic).

All 13 relapsed/refractory BPDCN patients received the optimal dose. The overall response rate was 69% (9/13), and the complete response rate was 31% (4/13). One patient proceeded to allogeneic transplant.

Eleven first-line patients, including the 6 who went on to transplant, have ongoing responses. Six relapsed/refractory patients, including the patient who went on to transplant, have ongoing responses.

Among first-line patients treated at the optimal dose, the median progression-free and overall survival have not been reached. Among relapsed/refractory patients (all of whom were treated at the optimal dose), the median progression-free and overall survival are 8.5 months.

Safety

The most common treatment-related adverse events were transaminase elevation (52%), hypoalbuminemia (39%), chills (31%), pyrexia (27%), nausea (23%), fatigue (23%), peripheral edema (23%), thrombocytopenia (19%), hypotension (19%), weight increase (19%), anemia (19%), decreased appetite (19%), and CLS (19%).

In stage 1, two BPDCN patients had CLS—one grade 5 (7 μg/kg) and one grade 4 (12 μg/kg). After this, safety precautions were implemented to minimize the risk of severe CLS.

A second CLS-related death occurred in stage 1 in a patient with relapsed/refractory AML (16 μg/kg).

The other death in a BPDCN patient with CLS was reported after the ASH presentation. Stemline became aware of the death on January 18 and disclosed it to the public on February 2.

Prescription pills

New research published in Blood suggests young patients with acute lymphoblastic leukemia (ALL)—and their parents—are likely to over-report treatment adherence.

In a study of 416 pediatric ALL patients, 84% of patients or their parents said the patients took more 6-mercaptopurine (6MP) than they actually did.

6MP is prescribed for 2 years after chemotherapy with the goal of producing durable remissions, but studies show that over 95% of the prescribed doses must be taken for the medication to be effective.

“Because this therapy is administered orally every day, we cannot supervise our patients to make sure they are taking their pills,” said study author Smita Bhatia, MD, of the University of Alabama at Birmingham.

“Findings from this study suggest that we need better ways to monitor intake of medications as prescribed.”

This study included 416 pediatric ALL patients followed over 4 months. Patients received prescription pill bottles for their 6MP that contained a microprocessor chip in the cap to log the date and time the bottle was opened.

The logs were compared to self-report questionnaires completed by patients or their parents and provided to physicians at monthly check-ups.

Patients were classified as:

• Perfect reporters—self-report corresponded to data from the Medication Event Monitoring System (MEMS)
• Over-reporters—self-report was greater than MEMS data by more than 5 days per month for more than 50% of the study months
• Others—all patients not meeting criteria for perfect- or over-reporter.

Twelve percent of patients were classified as perfect reporters, 23.6% were over-reporters, 0.5% were under-reporters, and 63.9% were classified as “others.”

Self-reported 6MP intake exceeded MEMS data at least some of the time in 84% of patients.

“We observed that there was an inverse relationship between over-reporting and the extent of non-adherence,” Dr Bhatia noted.

Of the patients who adhered to their regimens (defined as taking their prescribed dose 95% of the time), a small percentage (8%) over-reported their intake.

However, among those found to be non-adherent, a substantially larger percent (47%) over-reported.

In order to find out why patients were not taking their prescribed medication, study author Wendy Landier, PhD, RN, also of the University of Alabama at Birmingham, organized interviews with patients and their parents.

In these interviews, Dr Landier noted that forgetfulness was the primary reason for non-adherence.

“We found that partnering with a parent was very conducive to our patients’ adherence, playing a key role in combatting forgetfulness,” she said.

Recognizing the importance of parental involvement in patient adherence, the researchers were inspired to conduct further research to make parents more involved.

In a trial that builds on this study, physicians send personalized text messages to both patients and their parents at a prescribed time reminding them to take their medicine. Both patient and parent then report back, via text, that the indicated dose was taken.

“Our first study showed that non-adherence was prevalent, increasing the risk of relapse,” Dr Bhatia said. “We then found that parental vigilance was an important facilitator to adherence, while forgetting to take the medication was the most commonly reported barrier.”

“We used these findings to inform the intervention trial to help families improve adherence to treatment. We hope that this will be a real step in improving outcomes in children with leukemia.”

Prescription pills

New research published in Blood suggests young patients with acute lymphoblastic leukemia (ALL)—and their parents—are likely to over-report treatment adherence.

In a study of 416 pediatric ALL patients, 84% of patients or their parents said the patients took more 6-mercaptopurine (6MP) than they actually did.

6MP is prescribed for 2 years after chemotherapy with the goal of producing durable remissions, but studies show that over 95% of the prescribed doses must be taken for the medication to be effective.

“Because this therapy is administered orally every day, we cannot supervise our patients to make sure they are taking their pills,” said study author Smita Bhatia, MD, of the University of Alabama at Birmingham.

“Findings from this study suggest that we need better ways to monitor intake of medications as prescribed.”

This study included 416 pediatric ALL patients followed over 4 months. Patients received prescription pill bottles for their 6MP that contained a microprocessor chip in the cap to log the date and time the bottle was opened.

The logs were compared to self-report questionnaires completed by patients or their parents and provided to physicians at monthly check-ups.

Patients were classified as:

• Perfect reporters—self-report corresponded to data from the Medication Event Monitoring System (MEMS)
• Over-reporters—self-report was greater than MEMS data by more than 5 days per month for more than 50% of the study months
• Others—all patients not meeting criteria for perfect- or over-reporter.

Twelve percent of patients were classified as perfect reporters, 23.6% were over-reporters, 0.5% were under-reporters, and 63.9% were classified as “others.”

Self-reported 6MP intake exceeded MEMS data at least some of the time in 84% of patients.

“We observed that there was an inverse relationship between over-reporting and the extent of non-adherence,” Dr Bhatia noted.

Of the patients who adhered to their regimens (defined as taking their prescribed dose 95% of the time), a small percentage (8%) over-reported their intake.

However, among those found to be non-adherent, a substantially larger percent (47%) over-reported.

In order to find out why patients were not taking their prescribed medication, study author Wendy Landier, PhD, RN, also of the University of Alabama at Birmingham, organized interviews with patients and their parents.

In these interviews, Dr Landier noted that forgetfulness was the primary reason for non-adherence.

“We found that partnering with a parent was very conducive to our patients’ adherence, playing a key role in combatting forgetfulness,” she said.

Recognizing the importance of parental involvement in patient adherence, the researchers were inspired to conduct further research to make parents more involved.

In a trial that builds on this study, physicians send personalized text messages to both patients and their parents at a prescribed time reminding them to take their medicine. Both patient and parent then report back, via text, that the indicated dose was taken.

“Our first study showed that non-adherence was prevalent, increasing the risk of relapse,” Dr Bhatia said. “We then found that parental vigilance was an important facilitator to adherence, while forgetting to take the medication was the most commonly reported barrier.”

“We used these findings to inform the intervention trial to help families improve adherence to treatment. We hope that this will be a real step in improving outcomes in children with leukemia.”

Prescription pills

New research published in Blood suggests young patients with acute lymphoblastic leukemia (ALL)—and their parents—are likely to over-report treatment adherence.

In a study of 416 pediatric ALL patients, 84% of patients or their parents said the patients took more 6-mercaptopurine (6MP) than they actually did.

6MP is prescribed for 2 years after chemotherapy with the goal of producing durable remissions, but studies show that over 95% of the prescribed doses must be taken for the medication to be effective.

“Because this therapy is administered orally every day, we cannot supervise our patients to make sure they are taking their pills,” said study author Smita Bhatia, MD, of the University of Alabama at Birmingham.

“Findings from this study suggest that we need better ways to monitor intake of medications as prescribed.”

This study included 416 pediatric ALL patients followed over 4 months. Patients received prescription pill bottles for their 6MP that contained a microprocessor chip in the cap to log the date and time the bottle was opened.

The logs were compared to self-report questionnaires completed by patients or their parents and provided to physicians at monthly check-ups.

Patients were classified as:

• Perfect reporters—self-report corresponded to data from the Medication Event Monitoring System (MEMS)
• Over-reporters—self-report was greater than MEMS data by more than 5 days per month for more than 50% of the study months
• Others—all patients not meeting criteria for perfect- or over-reporter.

Twelve percent of patients were classified as perfect reporters, 23.6% were over-reporters, 0.5% were under-reporters, and 63.9% were classified as “others.”

Self-reported 6MP intake exceeded MEMS data at least some of the time in 84% of patients.

“We observed that there was an inverse relationship between over-reporting and the extent of non-adherence,” Dr Bhatia noted.

Of the patients who adhered to their regimens (defined as taking their prescribed dose 95% of the time), a small percentage (8%) over-reported their intake.

However, among those found to be non-adherent, a substantially larger percent (47%) over-reported.

In order to find out why patients were not taking their prescribed medication, study author Wendy Landier, PhD, RN, also of the University of Alabama at Birmingham, organized interviews with patients and their parents.

In these interviews, Dr Landier noted that forgetfulness was the primary reason for non-adherence.

“We found that partnering with a parent was very conducive to our patients’ adherence, playing a key role in combatting forgetfulness,” she said.

Recognizing the importance of parental involvement in patient adherence, the researchers were inspired to conduct further research to make parents more involved.

In a trial that builds on this study, physicians send personalized text messages to both patients and their parents at a prescribed time reminding them to take their medicine. Both patient and parent then report back, via text, that the indicated dose was taken.

“Our first study showed that non-adherence was prevalent, increasing the risk of relapse,” Dr Bhatia said. “We then found that parental vigilance was an important facilitator to adherence, while forgetting to take the medication was the most commonly reported barrier.”

“We used these findings to inform the intervention trial to help families improve adherence to treatment. We hope that this will be a real step in improving outcomes in children with leukemia.”

For some veterans, exposure to Agent Orange and its many health ramifications is an ongoing concern—even though they might have been exposed more than 50 years ago. Clinicians from Sinai Hospital of Baltimore in Maryland report on a patient who reminded them that a current illness could be related to that long-ago exposure.

Related: Bladder Cancer and Hyperthyroidism Linked to Agent Orange

The 69-year-old man came to their clinic with a painful, enlarging mass of the right lateral thigh, which ultrasound revealed as a myxofibrosarcoma. He underwent radical excision of the sarcoma with adjuvant radiotherapy. Histologic examination revealed an 8.3 cm, grade 3 pleomorphic liposarcoma. The patient asked, “Was it related to Agent Orange?” It may have been, the clinicians decided.

Agent Orange tends to accumulate in the liver and adipose tissue; it also affects lipid metabolism and may lead to hyperlipidemia. Although in the early days after the Vietnam War, many pathologies were labeled as “stress induced,” a number of illnesses have since been linked to Agent Orange, including B-cell leukemia, Hodgkin and non-Hodgkin lymphoma, prostate cancer, and, perhaps, multiple myeloma. But the authors say the toxin’s role in sarcomagenesis has been controversial in part because of conflicting case-control studies and because large-scale clinical trials are not feasible.

Related: Link Found Between Agent Orange Exposure and Multiple Myeloma

There has been no well-established precipitating factor for liposarcoma, the authors note. But they suggest that clinicians should have a high degree of suspicion for persistent and evolving soft tissue masses in patients with a previous military background, which should prompt the search for a possible toxin exposure.

Their patient experienced the enlarging soft tissue mass over the course of a year. A simple question: “Have you ever been in the military or had any previous wartime toxin exposure?” early on would have impelled the physicians to do a swifter workup, the authors say, particularly in a case with high risk of metastasis and poor prognosis. The patient will continue to be monitored “for years,” the authors say.

“While these days we have access to a vast amount of diagnostic tests and imaging,” the authors conclude, “one cannot underestimate the importance of understanding a patient’s past history.”

Related: A Retrospective Analysis of the Association of Dioxin (Agent Orange) Exposure and Cutaneous T-Cell Lymphoma

Source:
Khan K, Wozniak SE, Coleman J, Didolkar MS. BMJ Case Rep. 2016;2016. pii: bcr2016217438.
doi: 10.1136/bcr-2016-217438.

For some veterans, exposure to Agent Orange and its many health ramifications is an ongoing concern—even though they might have been exposed more than 50 years ago. Clinicians from Sinai Hospital of Baltimore in Maryland report on a patient who reminded them that a current illness could be related to that long-ago exposure.

Related: Bladder Cancer and Hyperthyroidism Linked to Agent Orange

The 69-year-old man came to their clinic with a painful, enlarging mass of the right lateral thigh, which ultrasound revealed as a myxofibrosarcoma. He underwent radical excision of the sarcoma with adjuvant radiotherapy. Histologic examination revealed an 8.3 cm, grade 3 pleomorphic liposarcoma. The patient asked, “Was it related to Agent Orange?” It may have been, the clinicians decided.

Agent Orange tends to accumulate in the liver and adipose tissue; it also affects lipid metabolism and may lead to hyperlipidemia. Although in the early days after the Vietnam War, many pathologies were labeled as “stress induced,” a number of illnesses have since been linked to Agent Orange, including B-cell leukemia, Hodgkin and non-Hodgkin lymphoma, prostate cancer, and, perhaps, multiple myeloma. But the authors say the toxin’s role in sarcomagenesis has been controversial in part because of conflicting case-control studies and because large-scale clinical trials are not feasible.

Related: Link Found Between Agent Orange Exposure and Multiple Myeloma

There has been no well-established precipitating factor for liposarcoma, the authors note. But they suggest that clinicians should have a high degree of suspicion for persistent and evolving soft tissue masses in patients with a previous military background, which should prompt the search for a possible toxin exposure.

Their patient experienced the enlarging soft tissue mass over the course of a year. A simple question: “Have you ever been in the military or had any previous wartime toxin exposure?” early on would have impelled the physicians to do a swifter workup, the authors say, particularly in a case with high risk of metastasis and poor prognosis. The patient will continue to be monitored “for years,” the authors say.

“While these days we have access to a vast amount of diagnostic tests and imaging,” the authors conclude, “one cannot underestimate the importance of understanding a patient’s past history.”

Related: A Retrospective Analysis of the Association of Dioxin (Agent Orange) Exposure and Cutaneous T-Cell Lymphoma

Source:
Khan K, Wozniak SE, Coleman J, Didolkar MS. BMJ Case Rep. 2016;2016. pii: bcr2016217438.
doi: 10.1136/bcr-2016-217438.

For some veterans, exposure to Agent Orange and its many health ramifications is an ongoing concern—even though they might have been exposed more than 50 years ago. Clinicians from Sinai Hospital of Baltimore in Maryland report on a patient who reminded them that a current illness could be related to that long-ago exposure.

Related: Bladder Cancer and Hyperthyroidism Linked to Agent Orange

The 69-year-old man came to their clinic with a painful, enlarging mass of the right lateral thigh, which ultrasound revealed as a myxofibrosarcoma. He underwent radical excision of the sarcoma with adjuvant radiotherapy. Histologic examination revealed an 8.3 cm, grade 3 pleomorphic liposarcoma. The patient asked, “Was it related to Agent Orange?” It may have been, the clinicians decided.

Agent Orange tends to accumulate in the liver and adipose tissue; it also affects lipid metabolism and may lead to hyperlipidemia. Although in the early days after the Vietnam War, many pathologies were labeled as “stress induced,” a number of illnesses have since been linked to Agent Orange, including B-cell leukemia, Hodgkin and non-Hodgkin lymphoma, prostate cancer, and, perhaps, multiple myeloma. But the authors say the toxin’s role in sarcomagenesis has been controversial in part because of conflicting case-control studies and because large-scale clinical trials are not feasible.

Related: Link Found Between Agent Orange Exposure and Multiple Myeloma

There has been no well-established precipitating factor for liposarcoma, the authors note. But they suggest that clinicians should have a high degree of suspicion for persistent and evolving soft tissue masses in patients with a previous military background, which should prompt the search for a possible toxin exposure.

Their patient experienced the enlarging soft tissue mass over the course of a year. A simple question: “Have you ever been in the military or had any previous wartime toxin exposure?” early on would have impelled the physicians to do a swifter workup, the authors say, particularly in a case with high risk of metastasis and poor prognosis. The patient will continue to be monitored “for years,” the authors say.

“While these days we have access to a vast amount of diagnostic tests and imaging,” the authors conclude, “one cannot underestimate the importance of understanding a patient’s past history.”

Related: A Retrospective Analysis of the Association of Dioxin (Agent Orange) Exposure and Cutaneous T-Cell Lymphoma

Source:
Khan K, Wozniak SE, Coleman J, Didolkar MS. BMJ Case Rep. 2016;2016. pii: bcr2016217438.
doi: 10.1136/bcr-2016-217438.

Pill production

Photo courtesy of FDA

AMSTERDAM—New research suggests some generic cancer drugs could be manufactured for less than 1% of the prices currently charged in the US and UK.

For example, researchers calculated that manufacturing a 400 mg tablet of imatinib costs $0.92.

Charging $1.04 per tablet would cover costs and allow for a 10% profit margin.

However, the current price of imatinib is $84.36 per tablet in the UK and $247.74 per tablet in the US.

Melissa Barber, of the London School of Hygiene and Tropical Medicine in the UK, reported these findings at ECCO 2017: European Cancer Congress (abstract 1032).

Barber and her colleagues collected data on per-kilogram costs of exported active pharmaceutical ingredients (APIs) from an online database of Indian export logs.

The team then estimated generic prices for tablets through an established costing algorithm. They calculated per-dose API costs and added excipient costs of $2.63 per kg of finished pharmaceutical product and per-tablet costs of production of $0.01, plus a 10% profit margin accounting for a 26.6% average tax on profits (assuming manufacture in India.)

Finally, the researchers compared the calculated price to current unit prices in the US, UK, Spain, and India.

For imatinib, the team determined the cost of the API to be $2284 per kg and the API cost per tablet to be $0.91. They then added excipient cost ($0.002 per tablet), conversion cost ($0.01 per tablet), and a 10% profit margin accounting for a 26.6% tax on profits.

This resulted in the estimated generic price of $1.04 per tablet. The per-tablet price is below the estimated price in India ($0.22) but much higher than the estimated price in Spain ($57.53), the UK ($84.36), and the US ($247.74).

Barber noted that, according to her group’s calculations, imatinib could be produced for $54 a month.

Another drug that could be produced for a low cost is etoposide. Barber and her colleagues calculated a generic price for etoposide of $0.97 per 100 mg tablet.

However, the per-tablet price is $1.50 in India, $8.65 in Spain, $11.34 in the UK, and $87.14 in the US.

The researchers calculated a generic price for mercaptopurine of $0.03 per 50 mg tablet, which is the same as the per-tablet price in India. However, a 50 mg mercaptopurine tablet costs $3.14 in Spain, $2.56 in the UK, and $0.40 in the US.

“Showing that certain cancers could be treated for very low prices could transform the future of people with these cancers in very low-income countries where there are usually few or no treatment options,” Barber said.

Pill production

Photo courtesy of FDA

AMSTERDAM—New research suggests some generic cancer drugs could be manufactured for less than 1% of the prices currently charged in the US and UK.

For example, researchers calculated that manufacturing a 400 mg tablet of imatinib costs $0.92.

Charging $1.04 per tablet would cover costs and allow for a 10% profit margin.

However, the current price of imatinib is $84.36 per tablet in the UK and $247.74 per tablet in the US.

Melissa Barber, of the London School of Hygiene and Tropical Medicine in the UK, reported these findings at ECCO 2017: European Cancer Congress (abstract 1032).

Barber and her colleagues collected data on per-kilogram costs of exported active pharmaceutical ingredients (APIs) from an online database of Indian export logs.

The team then estimated generic prices for tablets through an established costing algorithm. They calculated per-dose API costs and added excipient costs of $2.63 per kg of finished pharmaceutical product and per-tablet costs of production of $0.01, plus a 10% profit margin accounting for a 26.6% average tax on profits (assuming manufacture in India.)

Finally, the researchers compared the calculated price to current unit prices in the US, UK, Spain, and India.

For imatinib, the team determined the cost of the API to be $2284 per kg and the API cost per tablet to be $0.91. They then added excipient cost ($0.002 per tablet), conversion cost ($0.01 per tablet), and a 10% profit margin accounting for a 26.6% tax on profits.

This resulted in the estimated generic price of $1.04 per tablet. The per-tablet price is below the estimated price in India ($0.22) but much higher than the estimated price in Spain ($57.53), the UK ($84.36), and the US ($247.74).

Barber noted that, according to her group’s calculations, imatinib could be produced for $54 a month.

Another drug that could be produced for a low cost is etoposide. Barber and her colleagues calculated a generic price for etoposide of $0.97 per 100 mg tablet.

However, the per-tablet price is $1.50 in India, $8.65 in Spain, $11.34 in the UK, and $87.14 in the US.

The researchers calculated a generic price for mercaptopurine of $0.03 per 50 mg tablet, which is the same as the per-tablet price in India. However, a 50 mg mercaptopurine tablet costs $3.14 in Spain, $2.56 in the UK, and $0.40 in the US.

“Showing that certain cancers could be treated for very low prices could transform the future of people with these cancers in very low-income countries where there are usually few or no treatment options,” Barber said.

Pill production

Photo courtesy of FDA

AMSTERDAM—New research suggests some generic cancer drugs could be manufactured for less than 1% of the prices currently charged in the US and UK.

For example, researchers calculated that manufacturing a 400 mg tablet of imatinib costs $0.92.

Charging $1.04 per tablet would cover costs and allow for a 10% profit margin.

However, the current price of imatinib is $84.36 per tablet in the UK and $247.74 per tablet in the US.

Melissa Barber, of the London School of Hygiene and Tropical Medicine in the UK, reported these findings at ECCO 2017: European Cancer Congress (abstract 1032).

Barber and her colleagues collected data on per-kilogram costs of exported active pharmaceutical ingredients (APIs) from an online database of Indian export logs.

The team then estimated generic prices for tablets through an established costing algorithm. They calculated per-dose API costs and added excipient costs of $2.63 per kg of finished pharmaceutical product and per-tablet costs of production of $0.01, plus a 10% profit margin accounting for a 26.6% average tax on profits (assuming manufacture in India.)

Finally, the researchers compared the calculated price to current unit prices in the US, UK, Spain, and India.

For imatinib, the team determined the cost of the API to be $2284 per kg and the API cost per tablet to be $0.91. They then added excipient cost ($0.002 per tablet), conversion cost ($0.01 per tablet), and a 10% profit margin accounting for a 26.6% tax on profits.

This resulted in the estimated generic price of $1.04 per tablet. The per-tablet price is below the estimated price in India ($0.22) but much higher than the estimated price in Spain ($57.53), the UK ($84.36), and the US ($247.74).

Barber noted that, according to her group’s calculations, imatinib could be produced for $54 a month.

Another drug that could be produced for a low cost is etoposide. Barber and her colleagues calculated a generic price for etoposide of $0.97 per 100 mg tablet.

However, the per-tablet price is $1.50 in India, $8.65 in Spain, $11.34 in the UK, and $87.14 in the US.

The researchers calculated a generic price for mercaptopurine of $0.03 per 50 mg tablet, which is the same as the per-tablet price in India. However, a 50 mg mercaptopurine tablet costs $3.14 in Spain, $2.56 in the UK, and $0.40 in the US.

“Showing that certain cancers could be treated for very low prices could transform the future of people with these cancers in very low-income countries where there are usually few or no treatment options,” Barber said.

White blood cells

The European Medicines Agency’s Committee for Medicinal Products for Human Use (CHMP) has announced that Sandoz GmbH withdrew its marketing authorization application (MAA) for Zioxtenzo.

The active ingredient of Zioxtenzo is pegfilgrastim, and the product was intended to be biosimilar to Amgen’s Neulasta.

The intended use for Zioxtenzo was to reduce the duration of neutropenia and the occurrence of febrile neutropenia in cancer patients.

In its application for Zioxtenzo, Sandoz presented results of studies designed to show the product is highly similar to Neulasta in terms of chemical structure, purity, the way it works, and how the body handles the drug.

In addition, there were 2 studies comparing the safety and effectiveness of Zioxtenzo and Neulasta in patients receiving cancer drugs.

Sandoz withdrew the MAA for Zioxtenzo after the CHMP had evaluated the initial documentation provided by the company and formulated a list of questions. The company had not responded to the questions at the time of the withdrawal. 

Based on a review of the data, at the time of the withdrawal, the CHMP had 2 main concerns and was of the provisional opinion that Zioxtenzo could not have been approved as a biosimilar of Neulasta.

One concern was that study results were not able to show that the concentrations of pegfilgrastim in blood were the same after taking Zioxtenzo and Neulasta.

The other concern was the lack of a certificate of Good Manufacturing Practice for Zioxtenzo’s manufacturing site. An inspection of the site would therefore be needed before the drug could be approved.

At the time of the MAA withdrawal, Sandoz had not demonstrated that Zioxtenzo is highly similar to Neulasta, and an inspection to confirm that Zioxtenzo was being manufactured according to Good Manufacturing Practice standards had not yet taken place. 

In its letter notifying the CHMP of the MAA withdrawal, Sandoz said it would not be able to provide the additional data required by the CHMP within the timeframe allowed for the procedure.

The company also said the withdrawal of Zioxtenzo will not impact ongoing clinical trials, and there are no compassionate use programs for Zioxtenzo.

White blood cells

The European Medicines Agency’s Committee for Medicinal Products for Human Use (CHMP) has announced that Sandoz GmbH withdrew its marketing authorization application (MAA) for Zioxtenzo.

The active ingredient of Zioxtenzo is pegfilgrastim, and the product was intended to be biosimilar to Amgen’s Neulasta.

The intended use for Zioxtenzo was to reduce the duration of neutropenia and the occurrence of febrile neutropenia in cancer patients.

In its application for Zioxtenzo, Sandoz presented results of studies designed to show the product is highly similar to Neulasta in terms of chemical structure, purity, the way it works, and how the body handles the drug.

In addition, there were 2 studies comparing the safety and effectiveness of Zioxtenzo and Neulasta in patients receiving cancer drugs.

Sandoz withdrew the MAA for Zioxtenzo after the CHMP had evaluated the initial documentation provided by the company and formulated a list of questions. The company had not responded to the questions at the time of the withdrawal. 

Based on a review of the data, at the time of the withdrawal, the CHMP had 2 main concerns and was of the provisional opinion that Zioxtenzo could not have been approved as a biosimilar of Neulasta.

One concern was that study results were not able to show that the concentrations of pegfilgrastim in blood were the same after taking Zioxtenzo and Neulasta.

The other concern was the lack of a certificate of Good Manufacturing Practice for Zioxtenzo’s manufacturing site. An inspection of the site would therefore be needed before the drug could be approved.

At the time of the MAA withdrawal, Sandoz had not demonstrated that Zioxtenzo is highly similar to Neulasta, and an inspection to confirm that Zioxtenzo was being manufactured according to Good Manufacturing Practice standards had not yet taken place. 

In its letter notifying the CHMP of the MAA withdrawal, Sandoz said it would not be able to provide the additional data required by the CHMP within the timeframe allowed for the procedure.

The company also said the withdrawal of Zioxtenzo will not impact ongoing clinical trials, and there are no compassionate use programs for Zioxtenzo.

White blood cells

The European Medicines Agency’s Committee for Medicinal Products for Human Use (CHMP) has announced that Sandoz GmbH withdrew its marketing authorization application (MAA) for Zioxtenzo.

The active ingredient of Zioxtenzo is pegfilgrastim, and the product was intended to be biosimilar to Amgen’s Neulasta.

The intended use for Zioxtenzo was to reduce the duration of neutropenia and the occurrence of febrile neutropenia in cancer patients.

In its application for Zioxtenzo, Sandoz presented results of studies designed to show the product is highly similar to Neulasta in terms of chemical structure, purity, the way it works, and how the body handles the drug.

In addition, there were 2 studies comparing the safety and effectiveness of Zioxtenzo and Neulasta in patients receiving cancer drugs.

Sandoz withdrew the MAA for Zioxtenzo after the CHMP had evaluated the initial documentation provided by the company and formulated a list of questions. The company had not responded to the questions at the time of the withdrawal. 

Based on a review of the data, at the time of the withdrawal, the CHMP had 2 main concerns and was of the provisional opinion that Zioxtenzo could not have been approved as a biosimilar of Neulasta.

One concern was that study results were not able to show that the concentrations of pegfilgrastim in blood were the same after taking Zioxtenzo and Neulasta.

The other concern was the lack of a certificate of Good Manufacturing Practice for Zioxtenzo’s manufacturing site. An inspection of the site would therefore be needed before the drug could be approved.

At the time of the MAA withdrawal, Sandoz had not demonstrated that Zioxtenzo is highly similar to Neulasta, and an inspection to confirm that Zioxtenzo was being manufactured according to Good Manufacturing Practice standards had not yet taken place. 

In its letter notifying the CHMP of the MAA withdrawal, Sandoz said it would not be able to provide the additional data required by the CHMP within the timeframe allowed for the procedure.

The company also said the withdrawal of Zioxtenzo will not impact ongoing clinical trials, and there are no compassionate use programs for Zioxtenzo.

Prescription drugs
Photo by Steven Harbour

AMSTERDAM—The UK has seen substantial price increases for some generic cancer drugs over the last few years, according to a study presented at ECCO 2017: European Cancer Congress (abstract 966).

Of the 89 drugs analyzed in this study, 21 of them—including 17 generics—had price increases from 2011 to 2016.

Fourteen of the generic cancer drugs had price increases over 100%, and 2 of the drugs had increases exceeding 1000%.

“We were surprised to find several companies consistently raising the prices of cancer treatment,” said study investigator Andrew Hill, PhD, of the University of Liverpool in the UK.

“Twenty treatments have shown rises of over 100% in the last 5 years, and in 2—busulfan (used to treat leukemia) and tamoxifen (breast cancer)—prices have increased by over 1000%. We have found that some companies take over the supply of some generic cancer medicines and then raise the price progressively.”

Dr Hill and his co-investigator Melissa Barber, of the London School of Hygiene and Tropical Medicine in the UK, analyzed prices for 190 formulations of 89 cancer drugs.

Twenty-eight formulations of 21 drugs had price increases from 2011 to 2016. Seventeen of these 21 drugs were generic in 2016.

Twenty formulations of 14 generic cancer drugs had price increases exceeding 100%.

For example, the cost per tablet or injection increased for:

• Ifosfamide (2 g vial)—from £89 to £180, or 103%.
• Melphalan (50 mg vial)—from £33 to £137, or 315%.
• Chlorambucil (2 mg)—from £0.33 to £1.62, or 390%.
• Cyclophosphamide (50 mg)—from £0.20 to £1.39, or 695%.
• Busulfan (2 mg)—from £0.21 to £2.61, or 1227%.

Dr Hill said the UK’s Department of Health is aware of this issue and has introduced the Health Services Medical Supplies (Costs) Bill to enable price regulation in the future.

Companies found to be raising prices with no clear justification will be referred to the Competition and Markets Authority, and they could face fines.

However, Dr Hill and Barber said they found large price increases for generic cancer drugs in other European countries as well.

In Spain and Italy, failure to accept the high prices demanded for some generic drugs has led to warnings from companies that they could stop the supply of these drugs.

For instance, Italy fined the generic company Aspen €5 million after a 1500% increase in the price of cancer drugs, including melphalan and chlorambucil. Aspen then threatened Italy with drug shortages unless higher prices were accepted. 

In Spain, Aspen demanded a 4000% increase in melphalan prices.

“We hope that, by explaining what we have found in the UK, other European countries will take note and protect themselves against these kinds of price rises,” Dr Hill said. “At a time when cancer patients are living longer and better lives due to effective treatments, this situation is particularly worrying.”

Prescription drugs
Photo by Steven Harbour

AMSTERDAM—The UK has seen substantial price increases for some generic cancer drugs over the last few years, according to a study presented at ECCO 2017: European Cancer Congress (abstract 966).

Of the 89 drugs analyzed in this study, 21 of them—including 17 generics—had price increases from 2011 to 2016.

Fourteen of the generic cancer drugs had price increases over 100%, and 2 of the drugs had increases exceeding 1000%.

“We were surprised to find several companies consistently raising the prices of cancer treatment,” said study investigator Andrew Hill, PhD, of the University of Liverpool in the UK.

“Twenty treatments have shown rises of over 100% in the last 5 years, and in 2—busulfan (used to treat leukemia) and tamoxifen (breast cancer)—prices have increased by over 1000%. We have found that some companies take over the supply of some generic cancer medicines and then raise the price progressively.”

Dr Hill and his co-investigator Melissa Barber, of the London School of Hygiene and Tropical Medicine in the UK, analyzed prices for 190 formulations of 89 cancer drugs.

Twenty-eight formulations of 21 drugs had price increases from 2011 to 2016. Seventeen of these 21 drugs were generic in 2016.

Twenty formulations of 14 generic cancer drugs had price increases exceeding 100%.

For example, the cost per tablet or injection increased for:

• Ifosfamide (2 g vial)—from £89 to £180, or 103%.
• Melphalan (50 mg vial)—from £33 to £137, or 315%.
• Chlorambucil (2 mg)—from £0.33 to £1.62, or 390%.
• Cyclophosphamide (50 mg)—from £0.20 to £1.39, or 695%.
• Busulfan (2 mg)—from £0.21 to £2.61, or 1227%.

Dr Hill said the UK’s Department of Health is aware of this issue and has introduced the Health Services Medical Supplies (Costs) Bill to enable price regulation in the future.

Companies found to be raising prices with no clear justification will be referred to the Competition and Markets Authority, and they could face fines.

However, Dr Hill and Barber said they found large price increases for generic cancer drugs in other European countries as well.

In Spain and Italy, failure to accept the high prices demanded for some generic drugs has led to warnings from companies that they could stop the supply of these drugs.

For instance, Italy fined the generic company Aspen €5 million after a 1500% increase in the price of cancer drugs, including melphalan and chlorambucil. Aspen then threatened Italy with drug shortages unless higher prices were accepted. 

In Spain, Aspen demanded a 4000% increase in melphalan prices.

“We hope that, by explaining what we have found in the UK, other European countries will take note and protect themselves against these kinds of price rises,” Dr Hill said. “At a time when cancer patients are living longer and better lives due to effective treatments, this situation is particularly worrying.”

Prescription drugs
Photo by Steven Harbour

AMSTERDAM—The UK has seen substantial price increases for some generic cancer drugs over the last few years, according to a study presented at ECCO 2017: European Cancer Congress (abstract 966).

Of the 89 drugs analyzed in this study, 21 of them—including 17 generics—had price increases from 2011 to 2016.

Fourteen of the generic cancer drugs had price increases over 100%, and 2 of the drugs had increases exceeding 1000%.

“We were surprised to find several companies consistently raising the prices of cancer treatment,” said study investigator Andrew Hill, PhD, of the University of Liverpool in the UK.

“Twenty treatments have shown rises of over 100% in the last 5 years, and in 2—busulfan (used to treat leukemia) and tamoxifen (breast cancer)—prices have increased by over 1000%. We have found that some companies take over the supply of some generic cancer medicines and then raise the price progressively.”

Dr Hill and his co-investigator Melissa Barber, of the London School of Hygiene and Tropical Medicine in the UK, analyzed prices for 190 formulations of 89 cancer drugs.

Twenty-eight formulations of 21 drugs had price increases from 2011 to 2016. Seventeen of these 21 drugs were generic in 2016.

Twenty formulations of 14 generic cancer drugs had price increases exceeding 100%.

For example, the cost per tablet or injection increased for:

• Ifosfamide (2 g vial)—from £89 to £180, or 103%.
• Melphalan (50 mg vial)—from £33 to £137, or 315%.
• Chlorambucil (2 mg)—from £0.33 to £1.62, or 390%.
• Cyclophosphamide (50 mg)—from £0.20 to £1.39, or 695%.
• Busulfan (2 mg)—from £0.21 to £2.61, or 1227%.

Dr Hill said the UK’s Department of Health is aware of this issue and has introduced the Health Services Medical Supplies (Costs) Bill to enable price regulation in the future.

Companies found to be raising prices with no clear justification will be referred to the Competition and Markets Authority, and they could face fines.

However, Dr Hill and Barber said they found large price increases for generic cancer drugs in other European countries as well.

In Spain and Italy, failure to accept the high prices demanded for some generic drugs has led to warnings from companies that they could stop the supply of these drugs.

For instance, Italy fined the generic company Aspen €5 million after a 1500% increase in the price of cancer drugs, including melphalan and chlorambucil. Aspen then threatened Italy with drug shortages unless higher prices were accepted. 

In Spain, Aspen demanded a 4000% increase in melphalan prices.

“We hope that, by explaining what we have found in the UK, other European countries will take note and protect themselves against these kinds of price rises,” Dr Hill said. “At a time when cancer patients are living longer and better lives due to effective treatments, this situation is particularly worrying.”

Micrograph showing ALL

The European Medicines Agency’s Committee for Medicinal Products for Human Use (CHMP) has recommended marketing authorization for an oral formulation of methotrexate (Jylamvo) as a treatment for acute lymphoblastic leukemia (ALL) and other disorders.

Jylamvo is a hybrid medicine of Methotrexat “Lederle” 25 mg-Stechampulle and Methotrexate “Lederle” 2.5 mg tablets, which have been authorized in the European Union since 1984 and 1959, respectively.

Jylamvo contains the same active substance as these reference medicines—the antineoplastic and immunomodulating agent methotrexate—but is given by mouth as a solution (2 mg/mL).

Jylamvo is intended for use as maintenance treatment in ALL patients age 3 and older.

The drug is also intended to treat:

• Active rheumatoid arthritis in adults
• Polyarthritic forms of active, severe juvenile idiopathic arthritis in adolescents and children age 3 and older when the response to non-steroidal anti-inflammatory drugs has been inadequate
• Severe, treatment-refractory, disabling psoriasis that does not respond sufficiently to other forms of treatment (such as phototherapy, retinoids, and psoralen and ultraviolet A radiation therapy) and severe psoriatic arthritis in adults.

The applicant for Jylamvo is Therakind Limited. Applications for hybrid medicines rely, in part, on the results of preclinical tests and clinical trials for a reference product and, in part, on new data.

The CHMP said studies have demonstrated the satisfactory quality of Jylamvo and its bioequivalence to Methotrexate “Lederle” 2.5 mg tablets and a third product, Ebetrexat 10 mg tablets, which is authorized for similar indications.

The CHMP has proposed that Jylamvo be prescribed by physicians with experience of the various properties of the medicinal product and its mode of action.

Detailed recommendations for the use of Jylamvo will be described in the summary of product characteristics, which will be published in the European public assessment report and made available in all official European Union languages if the European Commission grants marketing authorization for Jylamvo.

The European Commission typically makes a decision on a product within 67 days of the time the CHMP adopts its opinion.

Micrograph showing ALL

The European Medicines Agency’s Committee for Medicinal Products for Human Use (CHMP) has recommended marketing authorization for an oral formulation of methotrexate (Jylamvo) as a treatment for acute lymphoblastic leukemia (ALL) and other disorders.

Jylamvo is a hybrid medicine of Methotrexat “Lederle” 25 mg-Stechampulle and Methotrexate “Lederle” 2.5 mg tablets, which have been authorized in the European Union since 1984 and 1959, respectively.

Jylamvo contains the same active substance as these reference medicines—the antineoplastic and immunomodulating agent methotrexate—but is given by mouth as a solution (2 mg/mL).

Jylamvo is intended for use as maintenance treatment in ALL patients age 3 and older.

The drug is also intended to treat:

• Active rheumatoid arthritis in adults
• Polyarthritic forms of active, severe juvenile idiopathic arthritis in adolescents and children age 3 and older when the response to non-steroidal anti-inflammatory drugs has been inadequate
• Severe, treatment-refractory, disabling psoriasis that does not respond sufficiently to other forms of treatment (such as phototherapy, retinoids, and psoralen and ultraviolet A radiation therapy) and severe psoriatic arthritis in adults.

The applicant for Jylamvo is Therakind Limited. Applications for hybrid medicines rely, in part, on the results of preclinical tests and clinical trials for a reference product and, in part, on new data.

The CHMP said studies have demonstrated the satisfactory quality of Jylamvo and its bioequivalence to Methotrexate “Lederle” 2.5 mg tablets and a third product, Ebetrexat 10 mg tablets, which is authorized for similar indications.

The CHMP has proposed that Jylamvo be prescribed by physicians with experience of the various properties of the medicinal product and its mode of action.

Detailed recommendations for the use of Jylamvo will be described in the summary of product characteristics, which will be published in the European public assessment report and made available in all official European Union languages if the European Commission grants marketing authorization for Jylamvo.

The European Commission typically makes a decision on a product within 67 days of the time the CHMP adopts its opinion.

Micrograph showing ALL

The European Medicines Agency’s Committee for Medicinal Products for Human Use (CHMP) has recommended marketing authorization for an oral formulation of methotrexate (Jylamvo) as a treatment for acute lymphoblastic leukemia (ALL) and other disorders.

Jylamvo is a hybrid medicine of Methotrexat “Lederle” 25 mg-Stechampulle and Methotrexate “Lederle” 2.5 mg tablets, which have been authorized in the European Union since 1984 and 1959, respectively.

Jylamvo contains the same active substance as these reference medicines—the antineoplastic and immunomodulating agent methotrexate—but is given by mouth as a solution (2 mg/mL).

Jylamvo is intended for use as maintenance treatment in ALL patients age 3 and older.

The drug is also intended to treat:

• Active rheumatoid arthritis in adults
• Polyarthritic forms of active, severe juvenile idiopathic arthritis in adolescents and children age 3 and older when the response to non-steroidal anti-inflammatory drugs has been inadequate
• Severe, treatment-refractory, disabling psoriasis that does not respond sufficiently to other forms of treatment (such as phototherapy, retinoids, and psoralen and ultraviolet A radiation therapy) and severe psoriatic arthritis in adults.

The applicant for Jylamvo is Therakind Limited. Applications for hybrid medicines rely, in part, on the results of preclinical tests and clinical trials for a reference product and, in part, on new data.

The CHMP said studies have demonstrated the satisfactory quality of Jylamvo and its bioequivalence to Methotrexate “Lederle” 2.5 mg tablets and a third product, Ebetrexat 10 mg tablets, which is authorized for similar indications.

The CHMP has proposed that Jylamvo be prescribed by physicians with experience of the various properties of the medicinal product and its mode of action.

Detailed recommendations for the use of Jylamvo will be described in the summary of product characteristics, which will be published in the European public assessment report and made available in all official European Union languages if the European Commission grants marketing authorization for Jylamvo.

The European Commission typically makes a decision on a product within 67 days of the time the CHMP adopts its opinion.

Leukemia stem cells
Image by Robert Paulson

The cell surface molecule CD99 occurs more frequently than normal on stem cells responsible for acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS), according to research published in Science Translational Medicine.

Building on this discovery, researchers designed anti-CD99 monoclonal antibodies (mAbs).

In vitro and in vivo experiments

showed that these mAbs can recognize

and destroy AML and MDS stem/progenitor cells.

“Our findings not only identify a new molecule expressed on stem cells that drive these human malignancies, but we show that antibodies against this target can directly kill human AML stem cells,” said study author Christopher Y. Park, MD, PhD, of NYU Langone Medical Center in New York, New York.

“While we still have important details to work out, CD99 is likely to be an exploitable therapeutic target for most AML and MDS patients, and we are working urgently to finalize a therapy for human testing.”

Dr Park and his colleagues first examined stem cell populations from 79 patients with AML and 24 with MDS. More than 80% of stem cells in both groups expressed high levels of CD99.

The levels were so high that leukemia stem cells could be cleanly separated from normal hematopoietic stem cells in AML samples.

Upon confirming that CD99 was abundant on AML and MDS stem cells, the researchers made several anti-CD99 mAbs and tested them in vitro and in mouse models.
 
The mAbs destroyed AML and MDS stem cells by causing a sudden spike in the activity of SRC family kinases—a group of proteins that are implicated in invasion, tumor progression, and metastasis in a variety of cancers.

However, the mAbs had minimal effects on normal hematopoietic stem cells.

“With the appropriate support, we believe we can rapidly determine the best antibodies for use in patients, produce them at the quality needed to verify our results, and apply for permission to begin clinical trials,” Dr Park said.

Leukemia stem cells
Image by Robert Paulson

The cell surface molecule CD99 occurs more frequently than normal on stem cells responsible for acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS), according to research published in Science Translational Medicine.

Building on this discovery, researchers designed anti-CD99 monoclonal antibodies (mAbs).

In vitro and in vivo experiments

showed that these mAbs can recognize

and destroy AML and MDS stem/progenitor cells.

“Our findings not only identify a new molecule expressed on stem cells that drive these human malignancies, but we show that antibodies against this target can directly kill human AML stem cells,” said study author Christopher Y. Park, MD, PhD, of NYU Langone Medical Center in New York, New York.

“While we still have important details to work out, CD99 is likely to be an exploitable therapeutic target for most AML and MDS patients, and we are working urgently to finalize a therapy for human testing.”

Dr Park and his colleagues first examined stem cell populations from 79 patients with AML and 24 with MDS. More than 80% of stem cells in both groups expressed high levels of CD99.

The levels were so high that leukemia stem cells could be cleanly separated from normal hematopoietic stem cells in AML samples.

Upon confirming that CD99 was abundant on AML and MDS stem cells, the researchers made several anti-CD99 mAbs and tested them in vitro and in mouse models.
 
The mAbs destroyed AML and MDS stem cells by causing a sudden spike in the activity of SRC family kinases—a group of proteins that are implicated in invasion, tumor progression, and metastasis in a variety of cancers.

However, the mAbs had minimal effects on normal hematopoietic stem cells.

“With the appropriate support, we believe we can rapidly determine the best antibodies for use in patients, produce them at the quality needed to verify our results, and apply for permission to begin clinical trials,” Dr Park said.

Leukemia stem cells
Image by Robert Paulson

The cell surface molecule CD99 occurs more frequently than normal on stem cells responsible for acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS), according to research published in Science Translational Medicine.

Building on this discovery, researchers designed anti-CD99 monoclonal antibodies (mAbs).

In vitro and in vivo experiments

showed that these mAbs can recognize

and destroy AML and MDS stem/progenitor cells.

“Our findings not only identify a new molecule expressed on stem cells that drive these human malignancies, but we show that antibodies against this target can directly kill human AML stem cells,” said study author Christopher Y. Park, MD, PhD, of NYU Langone Medical Center in New York, New York.

“While we still have important details to work out, CD99 is likely to be an exploitable therapeutic target for most AML and MDS patients, and we are working urgently to finalize a therapy for human testing.”

Dr Park and his colleagues first examined stem cell populations from 79 patients with AML and 24 with MDS. More than 80% of stem cells in both groups expressed high levels of CD99.

The levels were so high that leukemia stem cells could be cleanly separated from normal hematopoietic stem cells in AML samples.

Upon confirming that CD99 was abundant on AML and MDS stem cells, the researchers made several anti-CD99 mAbs and tested them in vitro and in mouse models.
 
The mAbs destroyed AML and MDS stem cells by causing a sudden spike in the activity of SRC family kinases—a group of proteins that are implicated in invasion, tumor progression, and metastasis in a variety of cancers.

However, the mAbs had minimal effects on normal hematopoietic stem cells.

“With the appropriate support, we believe we can rapidly determine the best antibodies for use in patients, produce them at the quality needed to verify our results, and apply for permission to begin clinical trials,” Dr Park said.