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FDA approves oral therapy for myelodysplastic syndromes, CMML

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Wed, 07/08/2020 - 12:27

The Food and Drug Administration has approved Inqovi (decitabine and cedazuridine tablets, Astex Pharmaceuticals) to treat adults with myelodysplastic syndromes (MDS) or chronic myelomonocytic leukemia (CMML). The agency’s action gives physicians and patients a new treatment option – an oral-formulation MDS and CMML medication that can be taken at home.

Approval of the tablets could obviate the need for some patients to come to healthcare settings for intravenous therapy, a consideration that goes beyond patient convenience. “The FDA remains committed to providing additional treatments to patients during the coronavirus pandemic. In this case, the FDA is making available an oral outpatient treatment option that can reduce the need for frequent visits to health care facilities,” Richard Pazdur, MD, director of the FDA’s Oncology Center of Excellence, stated in a news release.

“At this critical time, we continue to focus on providing options to patients with cancer, including regimens that can be taken at home,” added Dr. Pazdur, who is also acting director of the office of oncologic diseases in the FDA’s Center for Drug Evaluation and Research.

Inqovi received an Orphan Drug designation and a Priority Review from the agency.

The FDA based the new formulation approval on clinical trials that showed patients taking Inqovi had similar drug concentrations, compared with others receiving intravenous decitabine.

The two therapies also had similar safety profiles. Fatigue, constipation, hemorrhage, muscle pain, mucositis, arthralgia, nausea, and fever with low white blood cell count were common side effects reported in people taking Inqovi. The agency noted that Inqovi can cause fetal harm, and that both male and female patients of reproductive age are advised to use effective contraception.

In the clinical trials, approximately half of the patients formerly dependent on transfusions no longer required them during an 8-week period.

Inqovi is taken as one tablet by mouth once daily for 5 consecutive days of each 28-day cycle.

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The Food and Drug Administration has approved Inqovi (decitabine and cedazuridine tablets, Astex Pharmaceuticals) to treat adults with myelodysplastic syndromes (MDS) or chronic myelomonocytic leukemia (CMML). The agency’s action gives physicians and patients a new treatment option – an oral-formulation MDS and CMML medication that can be taken at home.

Approval of the tablets could obviate the need for some patients to come to healthcare settings for intravenous therapy, a consideration that goes beyond patient convenience. “The FDA remains committed to providing additional treatments to patients during the coronavirus pandemic. In this case, the FDA is making available an oral outpatient treatment option that can reduce the need for frequent visits to health care facilities,” Richard Pazdur, MD, director of the FDA’s Oncology Center of Excellence, stated in a news release.

“At this critical time, we continue to focus on providing options to patients with cancer, including regimens that can be taken at home,” added Dr. Pazdur, who is also acting director of the office of oncologic diseases in the FDA’s Center for Drug Evaluation and Research.

Inqovi received an Orphan Drug designation and a Priority Review from the agency.

The FDA based the new formulation approval on clinical trials that showed patients taking Inqovi had similar drug concentrations, compared with others receiving intravenous decitabine.

The two therapies also had similar safety profiles. Fatigue, constipation, hemorrhage, muscle pain, mucositis, arthralgia, nausea, and fever with low white blood cell count were common side effects reported in people taking Inqovi. The agency noted that Inqovi can cause fetal harm, and that both male and female patients of reproductive age are advised to use effective contraception.

In the clinical trials, approximately half of the patients formerly dependent on transfusions no longer required them during an 8-week period.

Inqovi is taken as one tablet by mouth once daily for 5 consecutive days of each 28-day cycle.

The Food and Drug Administration has approved Inqovi (decitabine and cedazuridine tablets, Astex Pharmaceuticals) to treat adults with myelodysplastic syndromes (MDS) or chronic myelomonocytic leukemia (CMML). The agency’s action gives physicians and patients a new treatment option – an oral-formulation MDS and CMML medication that can be taken at home.

Approval of the tablets could obviate the need for some patients to come to healthcare settings for intravenous therapy, a consideration that goes beyond patient convenience. “The FDA remains committed to providing additional treatments to patients during the coronavirus pandemic. In this case, the FDA is making available an oral outpatient treatment option that can reduce the need for frequent visits to health care facilities,” Richard Pazdur, MD, director of the FDA’s Oncology Center of Excellence, stated in a news release.

“At this critical time, we continue to focus on providing options to patients with cancer, including regimens that can be taken at home,” added Dr. Pazdur, who is also acting director of the office of oncologic diseases in the FDA’s Center for Drug Evaluation and Research.

Inqovi received an Orphan Drug designation and a Priority Review from the agency.

The FDA based the new formulation approval on clinical trials that showed patients taking Inqovi had similar drug concentrations, compared with others receiving intravenous decitabine.

The two therapies also had similar safety profiles. Fatigue, constipation, hemorrhage, muscle pain, mucositis, arthralgia, nausea, and fever with low white blood cell count were common side effects reported in people taking Inqovi. The agency noted that Inqovi can cause fetal harm, and that both male and female patients of reproductive age are advised to use effective contraception.

In the clinical trials, approximately half of the patients formerly dependent on transfusions no longer required them during an 8-week period.

Inqovi is taken as one tablet by mouth once daily for 5 consecutive days of each 28-day cycle.

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ASH tackles COVID-19 with hematology-related FAQ, promotes new registries

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Thu, 08/26/2021 - 16:15

 

The American Society of Hematology has committed a portion of its website to providing continually updated information addressing specific hematologic disorders in relation to COVID-19.

“As the world grapples with the novel coronavirus, ASH believes that we can help each other be as knowledgeable and prepared as possible,” wrote the society’s president, Stephanie J. Lee, MD, MPH.

On its website, ASH provides relevant COVID-19 information in a series of FAQ divided into malignant and nonmalignant hematologic diseases and disorders. In the malignant category, the various lymphomas and leukemias are individually addressed, as well as other conditions such as myelodysplastic syndromes, myeloproliferative neoplasms, and multiple myeloma. In the nonmalignant category, ASH has provided FAQ on aplastic anemia, thalassemia, sickle cell disease, pulmonary embolism, venous thromboembolism/anticoagulation, coagulopathy, and immune as well as thrombotic thrombocytopenic purpura.

In addition to the continually updated series of relevant FAQ, as part of its response to the pandemic ASH is promoting two unique COVID-19 registries for physicians: the ASH Research Collaborative’s (ASH RC) Data Hub COVID-19 Registry and the Surveillance Epidemiology of Coronavirus (COVID-19) Under Research Exclusion Sickle Cell Disease (SECURE-SCD) Registry.

“The ASH Research Collaborative’s (ASH RC) Data Hub launched the COVID-19 Registry and is currently capturing data on people who test positive for COVID-19 and have been or are currently being treated for hematologic malignancy,” according to the website. The intention is to provide “near real-time observational data summaries,” which will hopefully provide useful information to clinicians treating hematologic malignancies in patients in the midst of the COVID-19 pandemic.

The registry allows clinicians to enter their own cases in a specified format to allow data analysis on clinical practice and patient outcomes that will be aggregated to provide rapid insights for clinicians to help them care for their patients, according to ASH.

The second registry specifically deals with COVID-19 cases in patients with sickle cell disease. It also allows clinicians to add cases with a similar intention of aggregating data to provide near real-time insights into patient care. “We are asking providers caring for these patients to report all of their cases of COVID-19 to this registry,” according to the registry website. The registry is for reporting COVID-19 cases in sickle cell disease patients “after sufficient time has passed to observe the disease course through resolution of acute illness and/or death.”

ASH also provides more generalized information for hematology practitioners dealing with COVID-19 on the topics of conducting their practice and using telemedicine, among others.

Correction, April 15, 2020: This story originally said incorrectly that ASH developed the 2 new registries. The registries are merely being promoted on the ASH website.

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The American Society of Hematology has committed a portion of its website to providing continually updated information addressing specific hematologic disorders in relation to COVID-19.

“As the world grapples with the novel coronavirus, ASH believes that we can help each other be as knowledgeable and prepared as possible,” wrote the society’s president, Stephanie J. Lee, MD, MPH.

On its website, ASH provides relevant COVID-19 information in a series of FAQ divided into malignant and nonmalignant hematologic diseases and disorders. In the malignant category, the various lymphomas and leukemias are individually addressed, as well as other conditions such as myelodysplastic syndromes, myeloproliferative neoplasms, and multiple myeloma. In the nonmalignant category, ASH has provided FAQ on aplastic anemia, thalassemia, sickle cell disease, pulmonary embolism, venous thromboembolism/anticoagulation, coagulopathy, and immune as well as thrombotic thrombocytopenic purpura.

In addition to the continually updated series of relevant FAQ, as part of its response to the pandemic ASH is promoting two unique COVID-19 registries for physicians: the ASH Research Collaborative’s (ASH RC) Data Hub COVID-19 Registry and the Surveillance Epidemiology of Coronavirus (COVID-19) Under Research Exclusion Sickle Cell Disease (SECURE-SCD) Registry.

“The ASH Research Collaborative’s (ASH RC) Data Hub launched the COVID-19 Registry and is currently capturing data on people who test positive for COVID-19 and have been or are currently being treated for hematologic malignancy,” according to the website. The intention is to provide “near real-time observational data summaries,” which will hopefully provide useful information to clinicians treating hematologic malignancies in patients in the midst of the COVID-19 pandemic.

The registry allows clinicians to enter their own cases in a specified format to allow data analysis on clinical practice and patient outcomes that will be aggregated to provide rapid insights for clinicians to help them care for their patients, according to ASH.

The second registry specifically deals with COVID-19 cases in patients with sickle cell disease. It also allows clinicians to add cases with a similar intention of aggregating data to provide near real-time insights into patient care. “We are asking providers caring for these patients to report all of their cases of COVID-19 to this registry,” according to the registry website. The registry is for reporting COVID-19 cases in sickle cell disease patients “after sufficient time has passed to observe the disease course through resolution of acute illness and/or death.”

ASH also provides more generalized information for hematology practitioners dealing with COVID-19 on the topics of conducting their practice and using telemedicine, among others.

Correction, April 15, 2020: This story originally said incorrectly that ASH developed the 2 new registries. The registries are merely being promoted on the ASH website.

 

The American Society of Hematology has committed a portion of its website to providing continually updated information addressing specific hematologic disorders in relation to COVID-19.

“As the world grapples with the novel coronavirus, ASH believes that we can help each other be as knowledgeable and prepared as possible,” wrote the society’s president, Stephanie J. Lee, MD, MPH.

On its website, ASH provides relevant COVID-19 information in a series of FAQ divided into malignant and nonmalignant hematologic diseases and disorders. In the malignant category, the various lymphomas and leukemias are individually addressed, as well as other conditions such as myelodysplastic syndromes, myeloproliferative neoplasms, and multiple myeloma. In the nonmalignant category, ASH has provided FAQ on aplastic anemia, thalassemia, sickle cell disease, pulmonary embolism, venous thromboembolism/anticoagulation, coagulopathy, and immune as well as thrombotic thrombocytopenic purpura.

In addition to the continually updated series of relevant FAQ, as part of its response to the pandemic ASH is promoting two unique COVID-19 registries for physicians: the ASH Research Collaborative’s (ASH RC) Data Hub COVID-19 Registry and the Surveillance Epidemiology of Coronavirus (COVID-19) Under Research Exclusion Sickle Cell Disease (SECURE-SCD) Registry.

“The ASH Research Collaborative’s (ASH RC) Data Hub launched the COVID-19 Registry and is currently capturing data on people who test positive for COVID-19 and have been or are currently being treated for hematologic malignancy,” according to the website. The intention is to provide “near real-time observational data summaries,” which will hopefully provide useful information to clinicians treating hematologic malignancies in patients in the midst of the COVID-19 pandemic.

The registry allows clinicians to enter their own cases in a specified format to allow data analysis on clinical practice and patient outcomes that will be aggregated to provide rapid insights for clinicians to help them care for their patients, according to ASH.

The second registry specifically deals with COVID-19 cases in patients with sickle cell disease. It also allows clinicians to add cases with a similar intention of aggregating data to provide near real-time insights into patient care. “We are asking providers caring for these patients to report all of their cases of COVID-19 to this registry,” according to the registry website. The registry is for reporting COVID-19 cases in sickle cell disease patients “after sufficient time has passed to observe the disease course through resolution of acute illness and/or death.”

ASH also provides more generalized information for hematology practitioners dealing with COVID-19 on the topics of conducting their practice and using telemedicine, among others.

Correction, April 15, 2020: This story originally said incorrectly that ASH developed the 2 new registries. The registries are merely being promoted on the ASH website.

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Second transplant a good salvage option for children with ALL, AML, or MDS

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Mon, 03/16/2020 - 12:21

– A second hematopoietic stem cell transplant can be a successful salvage therapy for a child who has experienced a relapse following a first allogeneic transplant, investigators report.

Neil Osterweil/MDedge News
Dr. Akshay Sharma

A retrospective study of 221 children who experienced a relapse after a first hematopoietic stem cell transplant (HSCT) showed that 3-year overall survival (OS) was six times higher among those who had second HSCT, compared with those who did not, reported Akshay Sharma, MBBS, from St. Jude’s Children’s Research Hospital in Memphis.

“We found that factors that are typically associated with poor outcomes after transplant such as disease status at the time of first transplantation – being in remission or not, type of transplant – myeloablative or reduced intensity, and choice of donor were generally not significantly predictive of outcomes following posttransplant relapse in our multivariable model,” he said at the Transplantation and Cellular Therapy Meetings.

Relapse is the most common cause of death after HSCT, and 20%-30% of children who undergo allogeneic HSCT will experience a relapse.

To study this issue, Dr. Sharma and colleagues took a retrospective look at 703 patients 21 and younger who received a first alloHSCT at St. Jude’s for acute lymphoblastic leukemia (ALL), acute myeloid leukemia (AML) or myelodysplastic syndrome from 1990 through 2018. Of this cohort, 211 patients (31%) experienced a relapse after transplant.

There were no significant differences between patients who had a relapse and those who did not in sex, race, conditioning-regimen intensity, performance status, donor type, or graft type (peripheral blood stem cell, umbilical cord blood, bone marrow), or in the incidence of acute graft-versus-host disease GVHD.

The investigators found that, as expected, outcomes were poor for patients who experienced a posttransplant relapse, with 3-year overall survival from relapse for the 221 patients of just 10%.

In multivariable analysis controlling for sex, disease status at the time of first transplant, interval from first transplant to relapse, management after relapse, chronic GVHD and year of relapse, factors significantly associated with worse overall survival were relapse within 6 months of transplant vs. later than 6 months (hazard ratio, 4.6; P < .001) and decade of transplant (HR, 2.6 for 1990-2000 and 1.6 for 2001-2010 vs. 2011-2018; P < .001).

In contrast, both second HSCT and donor lymphocyte infusion were associated with better overall survival, compared with postrelapse chemotherapy or supportive care (HR, 0.04 and 0.6, respectively; P < .001 for both comparisons).

A longer interval from first transplant to relapse was the strongest predictor of long-term survival, Dr. Sharma said at the meeting held by the American Society for Blood and Marrow Transplantation and the Center for International Blood and Marrow Transplant Research.

Among the 221 patients who had a relapse, 61 (28%) had a second HSCT, 28 (13%) received only donor lymphocyte infusions, without second transplant, and 132 (62%) received either chemotherapy or supportive care.

The 3-year overall survival rate for patients who received a second transplant was 28%, compared with 4% for those who did not have a repeat HSCT. The most important independent predictors for getting a second transplant were longer time to relapse after first transplant, first transplantation from a matched sibling donor instead of from a haploidentical donor, some degree of acute GVHD, and decade of first transplant (current decade vs. earlier decades).

The investigators also looked at guideline recommendations from both the American Society of Hematology and UK National Health Service regarding second allogenenic transplant after relapse.

ASH guidelines say that “patients with chemo-sensitive disease in remission who had a long initial remission (> 6-12 months) after first transplant and who never developed any GVHD” are most likely to benefit from a second transplant.

NHS guidelines say that a second transplant can be considered for patients who experience relapse more than 12 months after first alloHSCT. But as Dr. Sharma and colleagues discovered, patients who had a second transplant had better overall survival regardless of time from first to second transplant, compared with patients who had later relapses but no second transplant.

“With these data in mind, we submit that these ASH and NHS guidelines, which are based on older data from the 1900s and 2000 and are mostly based on adult data and do not include much pediatric data should be reconsidered, at least in the context of pediatric patients as we approach them,” he said.

Jaap-Jan Boelens, MD, PhD, a pediatric transplant specialist at Memorial Sloan Kettering Cancer Center in New York City, who was not involved in the study, said that the use of second transplant as salvage therapy is becoming more common at his center.

“But there is a little nuance,” he said in an interview. “If someone relapses a month after transplant, let’s say, it doesn’t make sense to go for another allo transplant. But if the interval between transplant is longer, more than half a year, we usually consider going for a second allo transplant.”

The decision to attempt a second transplant may also hinge on the disease the patient is being treated for, and on the depth of remission prior to relapse, he said.

Reggie E. Duerst, MD, director of the Stem Cell Transplant Program at Ann & Robert H. Lurie Children’s Hospital of Chicago, said that trying to replicate the conditions of the first transplant may not work.

“It’s also a function of who was the donor for the first transplant – was it a matched sibling? And then for the second one do you go to an unrelated donor, or a half-matched relative, banking on the fact that the donor’s immune system for the second transplant is going to be able to mediate some kind of graft-versus-leukemia effect that wasn’t there the first time around?” he said.

Dr. Duerst, who was not involved in the study, noted that, for some patients with lymphoid malignancies, chimeric antigen receptor (CAR) T-cell therapy may be a more effective salvage strategy than second transplant, but added that it’s still too soon to know which strategy will be more effective.

The study was supported by St. Jude’s, the American Society of Hematology, and the American Society for Transplantation and Cellular Therapy. Dr. Sharma, Dr. Boelens, and Dr. Duerst reported having no relevant disclosures.

SOURCE: Sharma A et al. TCT 2020, Abstract 116.

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– A second hematopoietic stem cell transplant can be a successful salvage therapy for a child who has experienced a relapse following a first allogeneic transplant, investigators report.

Neil Osterweil/MDedge News
Dr. Akshay Sharma

A retrospective study of 221 children who experienced a relapse after a first hematopoietic stem cell transplant (HSCT) showed that 3-year overall survival (OS) was six times higher among those who had second HSCT, compared with those who did not, reported Akshay Sharma, MBBS, from St. Jude’s Children’s Research Hospital in Memphis.

“We found that factors that are typically associated with poor outcomes after transplant such as disease status at the time of first transplantation – being in remission or not, type of transplant – myeloablative or reduced intensity, and choice of donor were generally not significantly predictive of outcomes following posttransplant relapse in our multivariable model,” he said at the Transplantation and Cellular Therapy Meetings.

Relapse is the most common cause of death after HSCT, and 20%-30% of children who undergo allogeneic HSCT will experience a relapse.

To study this issue, Dr. Sharma and colleagues took a retrospective look at 703 patients 21 and younger who received a first alloHSCT at St. Jude’s for acute lymphoblastic leukemia (ALL), acute myeloid leukemia (AML) or myelodysplastic syndrome from 1990 through 2018. Of this cohort, 211 patients (31%) experienced a relapse after transplant.

There were no significant differences between patients who had a relapse and those who did not in sex, race, conditioning-regimen intensity, performance status, donor type, or graft type (peripheral blood stem cell, umbilical cord blood, bone marrow), or in the incidence of acute graft-versus-host disease GVHD.

The investigators found that, as expected, outcomes were poor for patients who experienced a posttransplant relapse, with 3-year overall survival from relapse for the 221 patients of just 10%.

In multivariable analysis controlling for sex, disease status at the time of first transplant, interval from first transplant to relapse, management after relapse, chronic GVHD and year of relapse, factors significantly associated with worse overall survival were relapse within 6 months of transplant vs. later than 6 months (hazard ratio, 4.6; P < .001) and decade of transplant (HR, 2.6 for 1990-2000 and 1.6 for 2001-2010 vs. 2011-2018; P < .001).

In contrast, both second HSCT and donor lymphocyte infusion were associated with better overall survival, compared with postrelapse chemotherapy or supportive care (HR, 0.04 and 0.6, respectively; P < .001 for both comparisons).

A longer interval from first transplant to relapse was the strongest predictor of long-term survival, Dr. Sharma said at the meeting held by the American Society for Blood and Marrow Transplantation and the Center for International Blood and Marrow Transplant Research.

Among the 221 patients who had a relapse, 61 (28%) had a second HSCT, 28 (13%) received only donor lymphocyte infusions, without second transplant, and 132 (62%) received either chemotherapy or supportive care.

The 3-year overall survival rate for patients who received a second transplant was 28%, compared with 4% for those who did not have a repeat HSCT. The most important independent predictors for getting a second transplant were longer time to relapse after first transplant, first transplantation from a matched sibling donor instead of from a haploidentical donor, some degree of acute GVHD, and decade of first transplant (current decade vs. earlier decades).

The investigators also looked at guideline recommendations from both the American Society of Hematology and UK National Health Service regarding second allogenenic transplant after relapse.

ASH guidelines say that “patients with chemo-sensitive disease in remission who had a long initial remission (> 6-12 months) after first transplant and who never developed any GVHD” are most likely to benefit from a second transplant.

NHS guidelines say that a second transplant can be considered for patients who experience relapse more than 12 months after first alloHSCT. But as Dr. Sharma and colleagues discovered, patients who had a second transplant had better overall survival regardless of time from first to second transplant, compared with patients who had later relapses but no second transplant.

“With these data in mind, we submit that these ASH and NHS guidelines, which are based on older data from the 1900s and 2000 and are mostly based on adult data and do not include much pediatric data should be reconsidered, at least in the context of pediatric patients as we approach them,” he said.

Jaap-Jan Boelens, MD, PhD, a pediatric transplant specialist at Memorial Sloan Kettering Cancer Center in New York City, who was not involved in the study, said that the use of second transplant as salvage therapy is becoming more common at his center.

“But there is a little nuance,” he said in an interview. “If someone relapses a month after transplant, let’s say, it doesn’t make sense to go for another allo transplant. But if the interval between transplant is longer, more than half a year, we usually consider going for a second allo transplant.”

The decision to attempt a second transplant may also hinge on the disease the patient is being treated for, and on the depth of remission prior to relapse, he said.

Reggie E. Duerst, MD, director of the Stem Cell Transplant Program at Ann & Robert H. Lurie Children’s Hospital of Chicago, said that trying to replicate the conditions of the first transplant may not work.

“It’s also a function of who was the donor for the first transplant – was it a matched sibling? And then for the second one do you go to an unrelated donor, or a half-matched relative, banking on the fact that the donor’s immune system for the second transplant is going to be able to mediate some kind of graft-versus-leukemia effect that wasn’t there the first time around?” he said.

Dr. Duerst, who was not involved in the study, noted that, for some patients with lymphoid malignancies, chimeric antigen receptor (CAR) T-cell therapy may be a more effective salvage strategy than second transplant, but added that it’s still too soon to know which strategy will be more effective.

The study was supported by St. Jude’s, the American Society of Hematology, and the American Society for Transplantation and Cellular Therapy. Dr. Sharma, Dr. Boelens, and Dr. Duerst reported having no relevant disclosures.

SOURCE: Sharma A et al. TCT 2020, Abstract 116.

– A second hematopoietic stem cell transplant can be a successful salvage therapy for a child who has experienced a relapse following a first allogeneic transplant, investigators report.

Neil Osterweil/MDedge News
Dr. Akshay Sharma

A retrospective study of 221 children who experienced a relapse after a first hematopoietic stem cell transplant (HSCT) showed that 3-year overall survival (OS) was six times higher among those who had second HSCT, compared with those who did not, reported Akshay Sharma, MBBS, from St. Jude’s Children’s Research Hospital in Memphis.

“We found that factors that are typically associated with poor outcomes after transplant such as disease status at the time of first transplantation – being in remission or not, type of transplant – myeloablative or reduced intensity, and choice of donor were generally not significantly predictive of outcomes following posttransplant relapse in our multivariable model,” he said at the Transplantation and Cellular Therapy Meetings.

Relapse is the most common cause of death after HSCT, and 20%-30% of children who undergo allogeneic HSCT will experience a relapse.

To study this issue, Dr. Sharma and colleagues took a retrospective look at 703 patients 21 and younger who received a first alloHSCT at St. Jude’s for acute lymphoblastic leukemia (ALL), acute myeloid leukemia (AML) or myelodysplastic syndrome from 1990 through 2018. Of this cohort, 211 patients (31%) experienced a relapse after transplant.

There were no significant differences between patients who had a relapse and those who did not in sex, race, conditioning-regimen intensity, performance status, donor type, or graft type (peripheral blood stem cell, umbilical cord blood, bone marrow), or in the incidence of acute graft-versus-host disease GVHD.

The investigators found that, as expected, outcomes were poor for patients who experienced a posttransplant relapse, with 3-year overall survival from relapse for the 221 patients of just 10%.

In multivariable analysis controlling for sex, disease status at the time of first transplant, interval from first transplant to relapse, management after relapse, chronic GVHD and year of relapse, factors significantly associated with worse overall survival were relapse within 6 months of transplant vs. later than 6 months (hazard ratio, 4.6; P < .001) and decade of transplant (HR, 2.6 for 1990-2000 and 1.6 for 2001-2010 vs. 2011-2018; P < .001).

In contrast, both second HSCT and donor lymphocyte infusion were associated with better overall survival, compared with postrelapse chemotherapy or supportive care (HR, 0.04 and 0.6, respectively; P < .001 for both comparisons).

A longer interval from first transplant to relapse was the strongest predictor of long-term survival, Dr. Sharma said at the meeting held by the American Society for Blood and Marrow Transplantation and the Center for International Blood and Marrow Transplant Research.

Among the 221 patients who had a relapse, 61 (28%) had a second HSCT, 28 (13%) received only donor lymphocyte infusions, without second transplant, and 132 (62%) received either chemotherapy or supportive care.

The 3-year overall survival rate for patients who received a second transplant was 28%, compared with 4% for those who did not have a repeat HSCT. The most important independent predictors for getting a second transplant were longer time to relapse after first transplant, first transplantation from a matched sibling donor instead of from a haploidentical donor, some degree of acute GVHD, and decade of first transplant (current decade vs. earlier decades).

The investigators also looked at guideline recommendations from both the American Society of Hematology and UK National Health Service regarding second allogenenic transplant after relapse.

ASH guidelines say that “patients with chemo-sensitive disease in remission who had a long initial remission (> 6-12 months) after first transplant and who never developed any GVHD” are most likely to benefit from a second transplant.

NHS guidelines say that a second transplant can be considered for patients who experience relapse more than 12 months after first alloHSCT. But as Dr. Sharma and colleagues discovered, patients who had a second transplant had better overall survival regardless of time from first to second transplant, compared with patients who had later relapses but no second transplant.

“With these data in mind, we submit that these ASH and NHS guidelines, which are based on older data from the 1900s and 2000 and are mostly based on adult data and do not include much pediatric data should be reconsidered, at least in the context of pediatric patients as we approach them,” he said.

Jaap-Jan Boelens, MD, PhD, a pediatric transplant specialist at Memorial Sloan Kettering Cancer Center in New York City, who was not involved in the study, said that the use of second transplant as salvage therapy is becoming more common at his center.

“But there is a little nuance,” he said in an interview. “If someone relapses a month after transplant, let’s say, it doesn’t make sense to go for another allo transplant. But if the interval between transplant is longer, more than half a year, we usually consider going for a second allo transplant.”

The decision to attempt a second transplant may also hinge on the disease the patient is being treated for, and on the depth of remission prior to relapse, he said.

Reggie E. Duerst, MD, director of the Stem Cell Transplant Program at Ann & Robert H. Lurie Children’s Hospital of Chicago, said that trying to replicate the conditions of the first transplant may not work.

“It’s also a function of who was the donor for the first transplant – was it a matched sibling? And then for the second one do you go to an unrelated donor, or a half-matched relative, banking on the fact that the donor’s immune system for the second transplant is going to be able to mediate some kind of graft-versus-leukemia effect that wasn’t there the first time around?” he said.

Dr. Duerst, who was not involved in the study, noted that, for some patients with lymphoid malignancies, chimeric antigen receptor (CAR) T-cell therapy may be a more effective salvage strategy than second transplant, but added that it’s still too soon to know which strategy will be more effective.

The study was supported by St. Jude’s, the American Society of Hematology, and the American Society for Transplantation and Cellular Therapy. Dr. Sharma, Dr. Boelens, and Dr. Duerst reported having no relevant disclosures.

SOURCE: Sharma A et al. TCT 2020, Abstract 116.

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Genetic analysis highlights value of germline variants in MDS, AML

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Wed, 09/18/2019 - 12:35

 

Germline DDX41 mutations were found to be relatively prevalent and showed favorable outcomes in a cohort of patients with myelodysplastic syndromes or acute myeloid leukemia, according to a genetic analysis.

Jezperklauzen/ThinkStock

The results demonstrate that systematic genetic testing for DDX41 mutations may aid in clinical decision making for adults with myelodysplastic syndromes (MDS) or acute myeloid leukemia (AML).

“We screened a large, unselected cohort of adult patients diagnosed with MDS/AML to analyze the biological and clinical features of DDX41-related myeloid malignancies,” wrote Marie Sébert, MD, PhD, of Hôpital Saint Louis in Paris and colleagues. The results were published in Blood.

The researchers used next-generation sequencing to analyze blood and bone marrow samples from 1,385 patients with MDS or AML to detect DDX41 mutations. A variant allele frequency of greater than 0.4 was regarded as indicative of a germline origin, and only specific variants (minor allele frequency of less than 0.01) were included.

The team analyzed various parameters relevant to DDX41-related myeloid disorders, including patient demographics, karyotyping, and treatment response rates, in addition to the prevalence of DDX41-related malignancies.

A total of 28 distinct germline DDX41 variants were detected among 43 unrelated patients. The researchers classified 21 of the variants as causal, with the rest being of unknown significance.

“We focused on the 33 patients having causal variants, representing 2.4% of our cohort,” they wrote.

The majority of patients with DDX41-related MDS/AML were male, with a median age of 69 years. Few patients (27%) had a family history of blood malignancies, while the majority of patients (85%) had a normal karyotype.

With respect to treatment, most high-risk patients received either azacitidine or intensive chemotherapy, with overall response rates of 73% and 100%, respectively. The median overall survival was 5.2 years.

There are currently no consensus recommendations on genetic counseling and follow-up of asymptomatic carriers and more studies are needed to refine clinical management and genetic counseling, the researchers wrote. “However, in our experience, DDX41-mutated patients frequently presented mild cytopenias years before overt hematological myeloid malignancy, suggesting that watchful surveillance would allow the detection of disease evolution.”

No funding sources were reported, and the authors reported having no conflicts of interest.

SOURCE: Sébert M et al. Blood. 2019 Sep 4. doi: 10.1182/blood.2019000909.

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Germline DDX41 mutations were found to be relatively prevalent and showed favorable outcomes in a cohort of patients with myelodysplastic syndromes or acute myeloid leukemia, according to a genetic analysis.

Jezperklauzen/ThinkStock

The results demonstrate that systematic genetic testing for DDX41 mutations may aid in clinical decision making for adults with myelodysplastic syndromes (MDS) or acute myeloid leukemia (AML).

“We screened a large, unselected cohort of adult patients diagnosed with MDS/AML to analyze the biological and clinical features of DDX41-related myeloid malignancies,” wrote Marie Sébert, MD, PhD, of Hôpital Saint Louis in Paris and colleagues. The results were published in Blood.

The researchers used next-generation sequencing to analyze blood and bone marrow samples from 1,385 patients with MDS or AML to detect DDX41 mutations. A variant allele frequency of greater than 0.4 was regarded as indicative of a germline origin, and only specific variants (minor allele frequency of less than 0.01) were included.

The team analyzed various parameters relevant to DDX41-related myeloid disorders, including patient demographics, karyotyping, and treatment response rates, in addition to the prevalence of DDX41-related malignancies.

A total of 28 distinct germline DDX41 variants were detected among 43 unrelated patients. The researchers classified 21 of the variants as causal, with the rest being of unknown significance.

“We focused on the 33 patients having causal variants, representing 2.4% of our cohort,” they wrote.

The majority of patients with DDX41-related MDS/AML were male, with a median age of 69 years. Few patients (27%) had a family history of blood malignancies, while the majority of patients (85%) had a normal karyotype.

With respect to treatment, most high-risk patients received either azacitidine or intensive chemotherapy, with overall response rates of 73% and 100%, respectively. The median overall survival was 5.2 years.

There are currently no consensus recommendations on genetic counseling and follow-up of asymptomatic carriers and more studies are needed to refine clinical management and genetic counseling, the researchers wrote. “However, in our experience, DDX41-mutated patients frequently presented mild cytopenias years before overt hematological myeloid malignancy, suggesting that watchful surveillance would allow the detection of disease evolution.”

No funding sources were reported, and the authors reported having no conflicts of interest.

SOURCE: Sébert M et al. Blood. 2019 Sep 4. doi: 10.1182/blood.2019000909.

 

Germline DDX41 mutations were found to be relatively prevalent and showed favorable outcomes in a cohort of patients with myelodysplastic syndromes or acute myeloid leukemia, according to a genetic analysis.

Jezperklauzen/ThinkStock

The results demonstrate that systematic genetic testing for DDX41 mutations may aid in clinical decision making for adults with myelodysplastic syndromes (MDS) or acute myeloid leukemia (AML).

“We screened a large, unselected cohort of adult patients diagnosed with MDS/AML to analyze the biological and clinical features of DDX41-related myeloid malignancies,” wrote Marie Sébert, MD, PhD, of Hôpital Saint Louis in Paris and colleagues. The results were published in Blood.

The researchers used next-generation sequencing to analyze blood and bone marrow samples from 1,385 patients with MDS or AML to detect DDX41 mutations. A variant allele frequency of greater than 0.4 was regarded as indicative of a germline origin, and only specific variants (minor allele frequency of less than 0.01) were included.

The team analyzed various parameters relevant to DDX41-related myeloid disorders, including patient demographics, karyotyping, and treatment response rates, in addition to the prevalence of DDX41-related malignancies.

A total of 28 distinct germline DDX41 variants were detected among 43 unrelated patients. The researchers classified 21 of the variants as causal, with the rest being of unknown significance.

“We focused on the 33 patients having causal variants, representing 2.4% of our cohort,” they wrote.

The majority of patients with DDX41-related MDS/AML were male, with a median age of 69 years. Few patients (27%) had a family history of blood malignancies, while the majority of patients (85%) had a normal karyotype.

With respect to treatment, most high-risk patients received either azacitidine or intensive chemotherapy, with overall response rates of 73% and 100%, respectively. The median overall survival was 5.2 years.

There are currently no consensus recommendations on genetic counseling and follow-up of asymptomatic carriers and more studies are needed to refine clinical management and genetic counseling, the researchers wrote. “However, in our experience, DDX41-mutated patients frequently presented mild cytopenias years before overt hematological myeloid malignancy, suggesting that watchful surveillance would allow the detection of disease evolution.”

No funding sources were reported, and the authors reported having no conflicts of interest.

SOURCE: Sébert M et al. Blood. 2019 Sep 4. doi: 10.1182/blood.2019000909.

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Durable transfusion independence in MDS with imetelstat

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Tue, 06/18/2019 - 11:59

– For patients with low-risk myelodysplastic syndrome (MDS) for whom erythropoietin therapy has failed, the novel telomerase inhibitor imetelstat may provide long-lasting independence from transfusion, investigators reported.

Neil Osterweil/MDedge News
Dr. Pierre Fenaux

Among 38 patients with low-risk MDS who had relapsed or were refractory to treatment with an erythropoiesis stimulating agent (ESA) who received imetelstat, 16 (42%) were free from the need for transfusion for at least 8 weeks, with one patient being transfusion free for up to 141 weeks, reported Pierre Fenaux, MD, of Hôpital Saint-Louis in Paris.

Patients with a generally worse prognosis “tended to respond better to imetelstat in terms of transfusion independence, which suggests that the drug is promising for higher-risk MDS,” he said at a briefing prior to his presentation of the data at the annual congress of the European Hematology Association.

Imetelstat is a first-in-class telomerase inhibitor targeting cells with short telomere lengths and active telomerase, the enzyme that maintains telomere length. Higher telomerase activity and shorter telomeres are predictive of shorter overall survival in patients with MDS, Dr. Fenaux explained.

He and colleagues enrolled 38 patients, median age 71.5 years, with low-risk MDS, with an International Prognostic Scoring System (IPSS) score of low or intermediate-1, whose disease was relapsed or refractory to ESA or to erythropoietin at a dose of more than 500 mU/mL. Of this group, 24 patients had IPSS low disease, 14 had intermediate-1 disease.

The median transfusion burden was 8 units per 8 weeks (range 4-14). The majority of patients (34, or 89%) had received prior ESAs.

The patients were transfusion dependent, defined as the need for 4 or more units of red blood cells within 8 weeks over the 16 weeks prior to study entry.

No patients had the 5q deletion, and no patients had received either a hypomethylating agent or lenolidamide (Revlimid), neither of which are approved for this indication in Europe.

The patients received imetelstat 7.5 mg/kg intravenously every 4 weeks.

As noted earlier, 16 patients (42%) achieved the primary endpoint of 8-week transfusion independence, with a median duration of 85.9 weeks (range 8-141 weeks).

Eleven patients (29%) had transfusion independence lasting at least 24 weeks – a secondary endpoint – and 26 (68%) met International Working Group 2006 criteria for a HI-E (erythroid) response, with 12 of these patients having an increase in hemoglobin of 1.5 g/dL or greater lasting for at least 8 weeks, and all 26 having a reduction in transfusions of 4 or more units over 8 weeks.

There was evidence to suggest a disease-modifying effect of imetelstat, with five patients achieving a complete response (CR), and five having a marrow CR.

The most frequent adverse events were manageable and reversible grade 3 or greater cytopenias, but there were no new safety signals seen. Two patients were hospitalized for febrile neutropenia, but there were no treatment-related deaths.

Based on these results, investigators are planning a phase 3 study comparing imetelstat with placebo in a 2:1 ratio. The trial is scheduled to begin in the late summer or fall of 2019.

When asked if imetelstat might have off-target effects by inhibiting telomerase in other cells, Dr. Fenaux replied that the mechanism of action is unclear, and that its potential effects on erythropoiesis are still unknown.

Neil Osterweil/MDedge News
Dr. Anton Hagenbeek

Briefing moderator Anton Hagenbeek, MD, of Amsterdam University Medical Center, commented on the drug’s potential for treating MDS, and asked whether investigators are considering combining it with other therapies for MDS.

“I think the first step will be to study it in high-risk MDS as a single agent before combining it, including with hypomethylating agents, et cetera,” Dr. Fenaux replied.

SOURCE: Fenaux P et al. EHA 2019, Abstract S837.

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– For patients with low-risk myelodysplastic syndrome (MDS) for whom erythropoietin therapy has failed, the novel telomerase inhibitor imetelstat may provide long-lasting independence from transfusion, investigators reported.

Neil Osterweil/MDedge News
Dr. Pierre Fenaux

Among 38 patients with low-risk MDS who had relapsed or were refractory to treatment with an erythropoiesis stimulating agent (ESA) who received imetelstat, 16 (42%) were free from the need for transfusion for at least 8 weeks, with one patient being transfusion free for up to 141 weeks, reported Pierre Fenaux, MD, of Hôpital Saint-Louis in Paris.

Patients with a generally worse prognosis “tended to respond better to imetelstat in terms of transfusion independence, which suggests that the drug is promising for higher-risk MDS,” he said at a briefing prior to his presentation of the data at the annual congress of the European Hematology Association.

Imetelstat is a first-in-class telomerase inhibitor targeting cells with short telomere lengths and active telomerase, the enzyme that maintains telomere length. Higher telomerase activity and shorter telomeres are predictive of shorter overall survival in patients with MDS, Dr. Fenaux explained.

He and colleagues enrolled 38 patients, median age 71.5 years, with low-risk MDS, with an International Prognostic Scoring System (IPSS) score of low or intermediate-1, whose disease was relapsed or refractory to ESA or to erythropoietin at a dose of more than 500 mU/mL. Of this group, 24 patients had IPSS low disease, 14 had intermediate-1 disease.

The median transfusion burden was 8 units per 8 weeks (range 4-14). The majority of patients (34, or 89%) had received prior ESAs.

The patients were transfusion dependent, defined as the need for 4 or more units of red blood cells within 8 weeks over the 16 weeks prior to study entry.

No patients had the 5q deletion, and no patients had received either a hypomethylating agent or lenolidamide (Revlimid), neither of which are approved for this indication in Europe.

The patients received imetelstat 7.5 mg/kg intravenously every 4 weeks.

As noted earlier, 16 patients (42%) achieved the primary endpoint of 8-week transfusion independence, with a median duration of 85.9 weeks (range 8-141 weeks).

Eleven patients (29%) had transfusion independence lasting at least 24 weeks – a secondary endpoint – and 26 (68%) met International Working Group 2006 criteria for a HI-E (erythroid) response, with 12 of these patients having an increase in hemoglobin of 1.5 g/dL or greater lasting for at least 8 weeks, and all 26 having a reduction in transfusions of 4 or more units over 8 weeks.

There was evidence to suggest a disease-modifying effect of imetelstat, with five patients achieving a complete response (CR), and five having a marrow CR.

The most frequent adverse events were manageable and reversible grade 3 or greater cytopenias, but there were no new safety signals seen. Two patients were hospitalized for febrile neutropenia, but there were no treatment-related deaths.

Based on these results, investigators are planning a phase 3 study comparing imetelstat with placebo in a 2:1 ratio. The trial is scheduled to begin in the late summer or fall of 2019.

When asked if imetelstat might have off-target effects by inhibiting telomerase in other cells, Dr. Fenaux replied that the mechanism of action is unclear, and that its potential effects on erythropoiesis are still unknown.

Neil Osterweil/MDedge News
Dr. Anton Hagenbeek

Briefing moderator Anton Hagenbeek, MD, of Amsterdam University Medical Center, commented on the drug’s potential for treating MDS, and asked whether investigators are considering combining it with other therapies for MDS.

“I think the first step will be to study it in high-risk MDS as a single agent before combining it, including with hypomethylating agents, et cetera,” Dr. Fenaux replied.

SOURCE: Fenaux P et al. EHA 2019, Abstract S837.

– For patients with low-risk myelodysplastic syndrome (MDS) for whom erythropoietin therapy has failed, the novel telomerase inhibitor imetelstat may provide long-lasting independence from transfusion, investigators reported.

Neil Osterweil/MDedge News
Dr. Pierre Fenaux

Among 38 patients with low-risk MDS who had relapsed or were refractory to treatment with an erythropoiesis stimulating agent (ESA) who received imetelstat, 16 (42%) were free from the need for transfusion for at least 8 weeks, with one patient being transfusion free for up to 141 weeks, reported Pierre Fenaux, MD, of Hôpital Saint-Louis in Paris.

Patients with a generally worse prognosis “tended to respond better to imetelstat in terms of transfusion independence, which suggests that the drug is promising for higher-risk MDS,” he said at a briefing prior to his presentation of the data at the annual congress of the European Hematology Association.

Imetelstat is a first-in-class telomerase inhibitor targeting cells with short telomere lengths and active telomerase, the enzyme that maintains telomere length. Higher telomerase activity and shorter telomeres are predictive of shorter overall survival in patients with MDS, Dr. Fenaux explained.

He and colleagues enrolled 38 patients, median age 71.5 years, with low-risk MDS, with an International Prognostic Scoring System (IPSS) score of low or intermediate-1, whose disease was relapsed or refractory to ESA or to erythropoietin at a dose of more than 500 mU/mL. Of this group, 24 patients had IPSS low disease, 14 had intermediate-1 disease.

The median transfusion burden was 8 units per 8 weeks (range 4-14). The majority of patients (34, or 89%) had received prior ESAs.

The patients were transfusion dependent, defined as the need for 4 or more units of red blood cells within 8 weeks over the 16 weeks prior to study entry.

No patients had the 5q deletion, and no patients had received either a hypomethylating agent or lenolidamide (Revlimid), neither of which are approved for this indication in Europe.

The patients received imetelstat 7.5 mg/kg intravenously every 4 weeks.

As noted earlier, 16 patients (42%) achieved the primary endpoint of 8-week transfusion independence, with a median duration of 85.9 weeks (range 8-141 weeks).

Eleven patients (29%) had transfusion independence lasting at least 24 weeks – a secondary endpoint – and 26 (68%) met International Working Group 2006 criteria for a HI-E (erythroid) response, with 12 of these patients having an increase in hemoglobin of 1.5 g/dL or greater lasting for at least 8 weeks, and all 26 having a reduction in transfusions of 4 or more units over 8 weeks.

There was evidence to suggest a disease-modifying effect of imetelstat, with five patients achieving a complete response (CR), and five having a marrow CR.

The most frequent adverse events were manageable and reversible grade 3 or greater cytopenias, but there were no new safety signals seen. Two patients were hospitalized for febrile neutropenia, but there were no treatment-related deaths.

Based on these results, investigators are planning a phase 3 study comparing imetelstat with placebo in a 2:1 ratio. The trial is scheduled to begin in the late summer or fall of 2019.

When asked if imetelstat might have off-target effects by inhibiting telomerase in other cells, Dr. Fenaux replied that the mechanism of action is unclear, and that its potential effects on erythropoiesis are still unknown.

Neil Osterweil/MDedge News
Dr. Anton Hagenbeek

Briefing moderator Anton Hagenbeek, MD, of Amsterdam University Medical Center, commented on the drug’s potential for treating MDS, and asked whether investigators are considering combining it with other therapies for MDS.

“I think the first step will be to study it in high-risk MDS as a single agent before combining it, including with hypomethylating agents, et cetera,” Dr. Fenaux replied.

SOURCE: Fenaux P et al. EHA 2019, Abstract S837.

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Antibody targeting ‘do not eat me’ signals is active in AML, MDS

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Tue, 06/11/2019 - 17:55

 

– A novel antibody against CD47 – the “do not eat me” protein – is well tolerated and active in patients with acute myeloid leukemia (AML) or myelodysplastic syndromes (MDS), according to initial results of a phase 1b study.

Combined with azacitidine, the antibody Hu5F9-G4 (5F9) produced an overall response rate of 64% in untreated AML (9 of 14 patients) and 91% in untreated MDS (10 of 11 patients), according to investigator David A. Sallman, MD, of Moffitt Cancer Center, Tampa, Fla.

With a median follow-up of 3.8 months, none of those patients had yet progressed on the 5F9/azacitidine combination, Dr. Sallman reported during a poster presentation at the annual meeting of the American Society of Clinical Oncology.

A maximum tolerated dose of 5F9 plus the hypomethylating agent was not reached in the study, according to the investigators.

“This was a well-tolerated and safe combination, with encouraging efficacy data in this small cohort that hasn’t been followed for too, too long,” Tara L. Lin, MD, of the University of Kansas Cancer Center, Kansas City, said during a poster discussion session.

“Most interesting is the fact that the combination seems to eliminate the leukemia stem cell population in those patients who respond,” she added.

The fact that 5F9 plus azacitidine eradicated leukemia stem cells in responding patients provides a mechanism for potential long-term durability of response, according to Dr. Sallman and his colleagues.

This first-in-class antibody targets CD47, a “do not eat me” macrophage checkpoint that is overexpressed on tumors, enabling immune invasion, they reported.

However, since CD47 is also expressed on older red blood cells, 5F9 is associated with transient anemia in the first cycle of treatment, Dr. Sallman told attendees at the poster discussion session.

“We do mitigate that with a priming dose of 5F9 that saturates these old red blood cells,” he said. “Over time, going along with the response, the patients have marked hemoglobin improvement, and we do not see worsening of other infection-related complications or cytopenias outside of anemia.”

Based on these results, expansion cohorts have been initiated in both AML and MDS, according to the investigators’ report.

When asked if 5F9 could be tolerable as part of more intensive regimens for fit patients, Dr. Sallman said there are a “whole host of combinations” that may possibly make sense.

“How chemotherapies and other novel agents impact these ‘eat me’ signals – I think some of that needs to be further investigated to come up with the most rational combination,” he said during a question and answer session.

Research funding for the study came from Forty Seven and the California Institute for Regenerative Medicine. Dr. Salman reported having no relationships to disclose. Study coauthors reported relationships with Abbvie, Agios, Celgene, Incyte, and Novartis, among other companies.

SOURCE: Sallman DA et al. ASCO 2019, Abstract 7009.

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– A novel antibody against CD47 – the “do not eat me” protein – is well tolerated and active in patients with acute myeloid leukemia (AML) or myelodysplastic syndromes (MDS), according to initial results of a phase 1b study.

Combined with azacitidine, the antibody Hu5F9-G4 (5F9) produced an overall response rate of 64% in untreated AML (9 of 14 patients) and 91% in untreated MDS (10 of 11 patients), according to investigator David A. Sallman, MD, of Moffitt Cancer Center, Tampa, Fla.

With a median follow-up of 3.8 months, none of those patients had yet progressed on the 5F9/azacitidine combination, Dr. Sallman reported during a poster presentation at the annual meeting of the American Society of Clinical Oncology.

A maximum tolerated dose of 5F9 plus the hypomethylating agent was not reached in the study, according to the investigators.

“This was a well-tolerated and safe combination, with encouraging efficacy data in this small cohort that hasn’t been followed for too, too long,” Tara L. Lin, MD, of the University of Kansas Cancer Center, Kansas City, said during a poster discussion session.

“Most interesting is the fact that the combination seems to eliminate the leukemia stem cell population in those patients who respond,” she added.

The fact that 5F9 plus azacitidine eradicated leukemia stem cells in responding patients provides a mechanism for potential long-term durability of response, according to Dr. Sallman and his colleagues.

This first-in-class antibody targets CD47, a “do not eat me” macrophage checkpoint that is overexpressed on tumors, enabling immune invasion, they reported.

However, since CD47 is also expressed on older red blood cells, 5F9 is associated with transient anemia in the first cycle of treatment, Dr. Sallman told attendees at the poster discussion session.

“We do mitigate that with a priming dose of 5F9 that saturates these old red blood cells,” he said. “Over time, going along with the response, the patients have marked hemoglobin improvement, and we do not see worsening of other infection-related complications or cytopenias outside of anemia.”

Based on these results, expansion cohorts have been initiated in both AML and MDS, according to the investigators’ report.

When asked if 5F9 could be tolerable as part of more intensive regimens for fit patients, Dr. Sallman said there are a “whole host of combinations” that may possibly make sense.

“How chemotherapies and other novel agents impact these ‘eat me’ signals – I think some of that needs to be further investigated to come up with the most rational combination,” he said during a question and answer session.

Research funding for the study came from Forty Seven and the California Institute for Regenerative Medicine. Dr. Salman reported having no relationships to disclose. Study coauthors reported relationships with Abbvie, Agios, Celgene, Incyte, and Novartis, among other companies.

SOURCE: Sallman DA et al. ASCO 2019, Abstract 7009.

 

– A novel antibody against CD47 – the “do not eat me” protein – is well tolerated and active in patients with acute myeloid leukemia (AML) or myelodysplastic syndromes (MDS), according to initial results of a phase 1b study.

Combined with azacitidine, the antibody Hu5F9-G4 (5F9) produced an overall response rate of 64% in untreated AML (9 of 14 patients) and 91% in untreated MDS (10 of 11 patients), according to investigator David A. Sallman, MD, of Moffitt Cancer Center, Tampa, Fla.

With a median follow-up of 3.8 months, none of those patients had yet progressed on the 5F9/azacitidine combination, Dr. Sallman reported during a poster presentation at the annual meeting of the American Society of Clinical Oncology.

A maximum tolerated dose of 5F9 plus the hypomethylating agent was not reached in the study, according to the investigators.

“This was a well-tolerated and safe combination, with encouraging efficacy data in this small cohort that hasn’t been followed for too, too long,” Tara L. Lin, MD, of the University of Kansas Cancer Center, Kansas City, said during a poster discussion session.

“Most interesting is the fact that the combination seems to eliminate the leukemia stem cell population in those patients who respond,” she added.

The fact that 5F9 plus azacitidine eradicated leukemia stem cells in responding patients provides a mechanism for potential long-term durability of response, according to Dr. Sallman and his colleagues.

This first-in-class antibody targets CD47, a “do not eat me” macrophage checkpoint that is overexpressed on tumors, enabling immune invasion, they reported.

However, since CD47 is also expressed on older red blood cells, 5F9 is associated with transient anemia in the first cycle of treatment, Dr. Sallman told attendees at the poster discussion session.

“We do mitigate that with a priming dose of 5F9 that saturates these old red blood cells,” he said. “Over time, going along with the response, the patients have marked hemoglobin improvement, and we do not see worsening of other infection-related complications or cytopenias outside of anemia.”

Based on these results, expansion cohorts have been initiated in both AML and MDS, according to the investigators’ report.

When asked if 5F9 could be tolerable as part of more intensive regimens for fit patients, Dr. Sallman said there are a “whole host of combinations” that may possibly make sense.

“How chemotherapies and other novel agents impact these ‘eat me’ signals – I think some of that needs to be further investigated to come up with the most rational combination,” he said during a question and answer session.

Research funding for the study came from Forty Seven and the California Institute for Regenerative Medicine. Dr. Salman reported having no relationships to disclose. Study coauthors reported relationships with Abbvie, Agios, Celgene, Incyte, and Novartis, among other companies.

SOURCE: Sallman DA et al. ASCO 2019, Abstract 7009.

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Combo proves most effective in HMA-naive, higher-risk MDS

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Mon, 10/05/2020 - 11:14

NEWPORT BEACH, CALIF. – The combination of oral rigosertib and azacitidine is proceeding to a phase 3 trial in patients with myelodysplastic syndromes (MDS), but it isn’t clear if the combination will continue to be developed for acute myeloid leukemia (AML).

In a phase 1/2 trial, oral rigosertib plus azacitidine produced a 90% response rate in higher-risk MDS patients who were naive to hypomethylating agents (HMAs), a 54% response rate in higher-risk MDS patients who had failed HMA therapy, and a 50% response rate in patients with AML.

Genitourinary toxicities were initially a concern in this trial, but researchers found ways to mitigate the risk of these toxicities, according to Richard Woodman, MD, chief medical officer and senior vice president of research and development at Onconova Therapeutics, the company developing rigosertib.

Dr. Woodman and his colleagues presented results from the phase 1/2 trial in two posters at the Acute Leukemia Forum of Hemedicus.

Results in AML

The researchers reported phase 1 results in 17 patients with AML. Eleven patients had AML, according to investigator assessment, and six patients had refractory anemia with excess blasts in transformation, according to French American British criteria, as well as least 20% excess blasts at baseline.

The median age of the patients was 73 years, and 53% were men. Two patients had received no prior therapies, six patients had relapsed disease, and nine were refractory to their last therapy.

Patients received oral rigosertib at escalating doses twice daily on days 1-21 of a 28-day cycle. The recommended phase 2 dose was 840 mg daily (560 mg in the morning and 280 mg in the afternoon), but there were two expansion cohorts in which patients received 1,120 mg daily (560 mg twice a day or 840 mg in the morning and 280 mg in the afternoon). The patients also received azacitidine at 75 mg/m2 per day subcutaneously or intravenously for 7 days starting on day 8.

Patients received a median of three treatment cycles. Fifteen of the 17 patients (88%) discontinued treatment, most because of progressive disease (n = 5), toxicity (n = 4), or death (n = 3).

Twelve patients were evaluable for response, and six (50%) responded. One patient achieved a morphologic complete remission (CR), three achieved a morphologic leukemia-free state, and two had a partial response.

The most common treatment-emergent adverse events (TEAEs) were fatigue (53%), diarrhea (53%), nausea (53%), constipation (47%), back pain (41%), pyrexia (41%), and pneumonia (35%). Grade 3 or higher TEAEs included pneumonia (35%) and anemia (24%).

These results haven’t provided a clear way forward for oral rigosertib and azacitidine in AML. Dr. Woodman said the researchers will have to review past studies and evaluate how AML patients (with at least 20% blasts) have responded to intravenous rigosertib, consult experts in the field, and then decide how they will move forward with oral rigosertib and azacitidine in AML.

Results in MDS

Dr. Woodman and his colleagues presented data on 74 patients with higher-risk MDS. The median age was 69 years, and 59% were men. Most patients were high risk (n = 23) or very high risk (n = 33), according to the Revised International Prognostic Scoring System.

 

 

The patients received oral rigosertib at a dose of 840 mg/day or higher on days 1-21 of a 28-day cycle. They also received azacitidine at 75 mg/m2 per day subcutaneously or intravenously for 7 days starting on day 8.

The median duration of treatment was 7.8 months in patients who were HMA naive and 4.9 months in patients who failed HMA therapy. The most common reasons for treatment discontinuation in the HMA-naive patients were toxicity (n = 8), progression (n = 7), and patient request (n = 7). The most common reasons for discontinuation in patients who had failed HMA therapy were progression (n = 12), toxicity (n = 5), and investigator decision (n = 4).

In total, 55 patients were evaluable for response, 26 who had failed HMA therapy and 29 who were HMA naive.

“The best responses, not surprisingly, were in patients that were HMA naive,” Dr. Woodman said.

In the HMA-naive patients, the overall response rate was 90%. Ten patients had a CR, five had a marrow CR with hematologic improvement, three had hematologic improvement alone, eight had a marrow CR alone, and three patients had stable disease. None of the patients progressed.

In the patients who had failed HMA therapy, the overall response rate was 54%. One patient achieved a CR, one had a partial response, five had a marrow CR with hematologic improvement, two had hematologic improvement alone, five had a marrow CR alone, seven had stable disease, and five progressed.

The median duration of response was 10.8 months in patients who failed HMA therapy and 12.2 months in the HMA-naive patients.

The most common TEAEs in the entire MDS cohort were hematuria (45%), constipation (43%), diarrhea (42%), fatigue (42%), dysuria (38%), pyrexia (36%), nausea (35%), neutropenia (31%), and thrombocytopenia (30%).

Grade 3 or higher TEAEs were neutropenia (27%), thrombocytopenia (26%), hematuria (9%), dysuria (9%), diarrhea (5%), fatigue (4%), and pyrexia (1%).

Dr. Woodman said patients who were most likely to be at risk for genitourinary toxicities (hematuria and dysuria) were those who weren’t well hydrated, took rigosertib at night, and didn’t void their bladders before bedtime. He said the researchers’ hypothesis is that there is some local bladder irritation in that setting.

However, the researchers found ways to mitigate the risk of genitourinary toxicities, including:

  • Requiring the second dose of rigosertib to be taken in the afternoon rather than evening (about 3 p.m.).
  • Asking patients to consume at least 2 liters of fluid per day.
  • Having patients empty their bladders before bedtime.
  • Assessing urine pH roughly 2 hours after the morning dose of rigosertib and prescribing sodium bicarbonate if the pH is less than 7.5.

Dr. Woodman said the phase 2 results in MDS patients have prompted the development of a phase 3 trial in which researchers will compare oral rigosertib plus azacitidine to azacitidine plus placebo.

Dr. Woodman is employed by Onconova Therapeutics, which sponsored the phase 1/2 trial. The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

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NEWPORT BEACH, CALIF. – The combination of oral rigosertib and azacitidine is proceeding to a phase 3 trial in patients with myelodysplastic syndromes (MDS), but it isn’t clear if the combination will continue to be developed for acute myeloid leukemia (AML).

In a phase 1/2 trial, oral rigosertib plus azacitidine produced a 90% response rate in higher-risk MDS patients who were naive to hypomethylating agents (HMAs), a 54% response rate in higher-risk MDS patients who had failed HMA therapy, and a 50% response rate in patients with AML.

Genitourinary toxicities were initially a concern in this trial, but researchers found ways to mitigate the risk of these toxicities, according to Richard Woodman, MD, chief medical officer and senior vice president of research and development at Onconova Therapeutics, the company developing rigosertib.

Dr. Woodman and his colleagues presented results from the phase 1/2 trial in two posters at the Acute Leukemia Forum of Hemedicus.

Results in AML

The researchers reported phase 1 results in 17 patients with AML. Eleven patients had AML, according to investigator assessment, and six patients had refractory anemia with excess blasts in transformation, according to French American British criteria, as well as least 20% excess blasts at baseline.

The median age of the patients was 73 years, and 53% were men. Two patients had received no prior therapies, six patients had relapsed disease, and nine were refractory to their last therapy.

Patients received oral rigosertib at escalating doses twice daily on days 1-21 of a 28-day cycle. The recommended phase 2 dose was 840 mg daily (560 mg in the morning and 280 mg in the afternoon), but there were two expansion cohorts in which patients received 1,120 mg daily (560 mg twice a day or 840 mg in the morning and 280 mg in the afternoon). The patients also received azacitidine at 75 mg/m2 per day subcutaneously or intravenously for 7 days starting on day 8.

Patients received a median of three treatment cycles. Fifteen of the 17 patients (88%) discontinued treatment, most because of progressive disease (n = 5), toxicity (n = 4), or death (n = 3).

Twelve patients were evaluable for response, and six (50%) responded. One patient achieved a morphologic complete remission (CR), three achieved a morphologic leukemia-free state, and two had a partial response.

The most common treatment-emergent adverse events (TEAEs) were fatigue (53%), diarrhea (53%), nausea (53%), constipation (47%), back pain (41%), pyrexia (41%), and pneumonia (35%). Grade 3 or higher TEAEs included pneumonia (35%) and anemia (24%).

These results haven’t provided a clear way forward for oral rigosertib and azacitidine in AML. Dr. Woodman said the researchers will have to review past studies and evaluate how AML patients (with at least 20% blasts) have responded to intravenous rigosertib, consult experts in the field, and then decide how they will move forward with oral rigosertib and azacitidine in AML.

Results in MDS

Dr. Woodman and his colleagues presented data on 74 patients with higher-risk MDS. The median age was 69 years, and 59% were men. Most patients were high risk (n = 23) or very high risk (n = 33), according to the Revised International Prognostic Scoring System.

 

 

The patients received oral rigosertib at a dose of 840 mg/day or higher on days 1-21 of a 28-day cycle. They also received azacitidine at 75 mg/m2 per day subcutaneously or intravenously for 7 days starting on day 8.

The median duration of treatment was 7.8 months in patients who were HMA naive and 4.9 months in patients who failed HMA therapy. The most common reasons for treatment discontinuation in the HMA-naive patients were toxicity (n = 8), progression (n = 7), and patient request (n = 7). The most common reasons for discontinuation in patients who had failed HMA therapy were progression (n = 12), toxicity (n = 5), and investigator decision (n = 4).

In total, 55 patients were evaluable for response, 26 who had failed HMA therapy and 29 who were HMA naive.

“The best responses, not surprisingly, were in patients that were HMA naive,” Dr. Woodman said.

In the HMA-naive patients, the overall response rate was 90%. Ten patients had a CR, five had a marrow CR with hematologic improvement, three had hematologic improvement alone, eight had a marrow CR alone, and three patients had stable disease. None of the patients progressed.

In the patients who had failed HMA therapy, the overall response rate was 54%. One patient achieved a CR, one had a partial response, five had a marrow CR with hematologic improvement, two had hematologic improvement alone, five had a marrow CR alone, seven had stable disease, and five progressed.

The median duration of response was 10.8 months in patients who failed HMA therapy and 12.2 months in the HMA-naive patients.

The most common TEAEs in the entire MDS cohort were hematuria (45%), constipation (43%), diarrhea (42%), fatigue (42%), dysuria (38%), pyrexia (36%), nausea (35%), neutropenia (31%), and thrombocytopenia (30%).

Grade 3 or higher TEAEs were neutropenia (27%), thrombocytopenia (26%), hematuria (9%), dysuria (9%), diarrhea (5%), fatigue (4%), and pyrexia (1%).

Dr. Woodman said patients who were most likely to be at risk for genitourinary toxicities (hematuria and dysuria) were those who weren’t well hydrated, took rigosertib at night, and didn’t void their bladders before bedtime. He said the researchers’ hypothesis is that there is some local bladder irritation in that setting.

However, the researchers found ways to mitigate the risk of genitourinary toxicities, including:

  • Requiring the second dose of rigosertib to be taken in the afternoon rather than evening (about 3 p.m.).
  • Asking patients to consume at least 2 liters of fluid per day.
  • Having patients empty their bladders before bedtime.
  • Assessing urine pH roughly 2 hours after the morning dose of rigosertib and prescribing sodium bicarbonate if the pH is less than 7.5.

Dr. Woodman said the phase 2 results in MDS patients have prompted the development of a phase 3 trial in which researchers will compare oral rigosertib plus azacitidine to azacitidine plus placebo.

Dr. Woodman is employed by Onconova Therapeutics, which sponsored the phase 1/2 trial. The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

NEWPORT BEACH, CALIF. – The combination of oral rigosertib and azacitidine is proceeding to a phase 3 trial in patients with myelodysplastic syndromes (MDS), but it isn’t clear if the combination will continue to be developed for acute myeloid leukemia (AML).

In a phase 1/2 trial, oral rigosertib plus azacitidine produced a 90% response rate in higher-risk MDS patients who were naive to hypomethylating agents (HMAs), a 54% response rate in higher-risk MDS patients who had failed HMA therapy, and a 50% response rate in patients with AML.

Genitourinary toxicities were initially a concern in this trial, but researchers found ways to mitigate the risk of these toxicities, according to Richard Woodman, MD, chief medical officer and senior vice president of research and development at Onconova Therapeutics, the company developing rigosertib.

Dr. Woodman and his colleagues presented results from the phase 1/2 trial in two posters at the Acute Leukemia Forum of Hemedicus.

Results in AML

The researchers reported phase 1 results in 17 patients with AML. Eleven patients had AML, according to investigator assessment, and six patients had refractory anemia with excess blasts in transformation, according to French American British criteria, as well as least 20% excess blasts at baseline.

The median age of the patients was 73 years, and 53% were men. Two patients had received no prior therapies, six patients had relapsed disease, and nine were refractory to their last therapy.

Patients received oral rigosertib at escalating doses twice daily on days 1-21 of a 28-day cycle. The recommended phase 2 dose was 840 mg daily (560 mg in the morning and 280 mg in the afternoon), but there were two expansion cohorts in which patients received 1,120 mg daily (560 mg twice a day or 840 mg in the morning and 280 mg in the afternoon). The patients also received azacitidine at 75 mg/m2 per day subcutaneously or intravenously for 7 days starting on day 8.

Patients received a median of three treatment cycles. Fifteen of the 17 patients (88%) discontinued treatment, most because of progressive disease (n = 5), toxicity (n = 4), or death (n = 3).

Twelve patients were evaluable for response, and six (50%) responded. One patient achieved a morphologic complete remission (CR), three achieved a morphologic leukemia-free state, and two had a partial response.

The most common treatment-emergent adverse events (TEAEs) were fatigue (53%), diarrhea (53%), nausea (53%), constipation (47%), back pain (41%), pyrexia (41%), and pneumonia (35%). Grade 3 or higher TEAEs included pneumonia (35%) and anemia (24%).

These results haven’t provided a clear way forward for oral rigosertib and azacitidine in AML. Dr. Woodman said the researchers will have to review past studies and evaluate how AML patients (with at least 20% blasts) have responded to intravenous rigosertib, consult experts in the field, and then decide how they will move forward with oral rigosertib and azacitidine in AML.

Results in MDS

Dr. Woodman and his colleagues presented data on 74 patients with higher-risk MDS. The median age was 69 years, and 59% were men. Most patients were high risk (n = 23) or very high risk (n = 33), according to the Revised International Prognostic Scoring System.

 

 

The patients received oral rigosertib at a dose of 840 mg/day or higher on days 1-21 of a 28-day cycle. They also received azacitidine at 75 mg/m2 per day subcutaneously or intravenously for 7 days starting on day 8.

The median duration of treatment was 7.8 months in patients who were HMA naive and 4.9 months in patients who failed HMA therapy. The most common reasons for treatment discontinuation in the HMA-naive patients were toxicity (n = 8), progression (n = 7), and patient request (n = 7). The most common reasons for discontinuation in patients who had failed HMA therapy were progression (n = 12), toxicity (n = 5), and investigator decision (n = 4).

In total, 55 patients were evaluable for response, 26 who had failed HMA therapy and 29 who were HMA naive.

“The best responses, not surprisingly, were in patients that were HMA naive,” Dr. Woodman said.

In the HMA-naive patients, the overall response rate was 90%. Ten patients had a CR, five had a marrow CR with hematologic improvement, three had hematologic improvement alone, eight had a marrow CR alone, and three patients had stable disease. None of the patients progressed.

In the patients who had failed HMA therapy, the overall response rate was 54%. One patient achieved a CR, one had a partial response, five had a marrow CR with hematologic improvement, two had hematologic improvement alone, five had a marrow CR alone, seven had stable disease, and five progressed.

The median duration of response was 10.8 months in patients who failed HMA therapy and 12.2 months in the HMA-naive patients.

The most common TEAEs in the entire MDS cohort were hematuria (45%), constipation (43%), diarrhea (42%), fatigue (42%), dysuria (38%), pyrexia (36%), nausea (35%), neutropenia (31%), and thrombocytopenia (30%).

Grade 3 or higher TEAEs were neutropenia (27%), thrombocytopenia (26%), hematuria (9%), dysuria (9%), diarrhea (5%), fatigue (4%), and pyrexia (1%).

Dr. Woodman said patients who were most likely to be at risk for genitourinary toxicities (hematuria and dysuria) were those who weren’t well hydrated, took rigosertib at night, and didn’t void their bladders before bedtime. He said the researchers’ hypothesis is that there is some local bladder irritation in that setting.

However, the researchers found ways to mitigate the risk of genitourinary toxicities, including:

  • Requiring the second dose of rigosertib to be taken in the afternoon rather than evening (about 3 p.m.).
  • Asking patients to consume at least 2 liters of fluid per day.
  • Having patients empty their bladders before bedtime.
  • Assessing urine pH roughly 2 hours after the morning dose of rigosertib and prescribing sodium bicarbonate if the pH is less than 7.5.

Dr. Woodman said the phase 2 results in MDS patients have prompted the development of a phase 3 trial in which researchers will compare oral rigosertib plus azacitidine to azacitidine plus placebo.

Dr. Woodman is employed by Onconova Therapeutics, which sponsored the phase 1/2 trial. The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

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More abnormal cells linked to poorer ASCT outcomes in MDS

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NEWPORT BEACH, CALIF. – Researchers say they’ve found an association between the percentage of cytogenetically abnormal cells at allogeneic stem cell transplant (ASCT) and posttransplant outcomes in patients with myelodysplastic syndromes (MDS).

Patients who had more than 60% cytogenetically abnormal cells at ASCT had significantly inferior overall survival (OS) and relapse-free survival (RFS), compared to patients with fewer abnormal cells.

Dipenkumar Modi, MD, of Barbara Ann Karmanos Cancer Institute at Wayne State University in Detroit, and his colleagues conducted this research and presented the results at the Acute Leukemia Forum of Hemedicus.

The researchers studied 109 adult MDS patients who underwent ASCT from January 2000 through December 2016. The patients were divided into three groups based on the percentage of cytogenetically abnormal cells at ASCT:

  • Group 1 had less than 30% (n = 22)
  • Group 2 had 30%-60% (n = 23)
  • Group 3 had greater than 60% (n = 64).

Baseline characteristics were largely similar between the groups. However, patients in group 3 were significantly more likely than those in groups 1 and 2 to have del(5q) and monosomy 5+7 (P = .048).

Patients in group 1 had a significantly higher percentage of bone marrow transplants (as opposed to peripheral blood stem cell transplants) than patients in groups 2 and 3 (P = .039). And patients in group 1 had significantly fewer blasts at ASCT than patients in groups 2 and 3 (P = .011).

The researchers found no significant between-group differences in relapse and nonrelapse mortality, but there were significant differences in OS and RFS.

Patients in group 3 had inferior RFS compared to patients in group 1, which was the reference group. The hazard ratio (HR) was 2.503 (P = .013) in a univariable analysis and 2.196 (P = .049) in a multivariable analysis.

Group 3 also had inferior OS compared to group 1. The hazard ratio was 2.589 (P = .021) in a univariable analysis and 2.478 (P = .040) in a multivariable analysis.

There was no significant difference in RFS or OS between groups 1 and 2. The HR for RFS in group 2 was 1.879 (P = .148) in a univariable analysis and 1.365 (P = .506) in a multivariable analysis. The HR for OS was 1.997 (P = .155) and 1.413 (P = .511), respectively.

Dr. Modi said these results suggest patients with greater than 60% cytogenetically abnormal cells at ASCT should be monitored more closely after transplant, and their immunosuppressive medication should be tapered as soon as possible.

Dr. Modi and his colleagues reported having no conflicts of interest relevant to this research.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

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NEWPORT BEACH, CALIF. – Researchers say they’ve found an association between the percentage of cytogenetically abnormal cells at allogeneic stem cell transplant (ASCT) and posttransplant outcomes in patients with myelodysplastic syndromes (MDS).

Patients who had more than 60% cytogenetically abnormal cells at ASCT had significantly inferior overall survival (OS) and relapse-free survival (RFS), compared to patients with fewer abnormal cells.

Dipenkumar Modi, MD, of Barbara Ann Karmanos Cancer Institute at Wayne State University in Detroit, and his colleagues conducted this research and presented the results at the Acute Leukemia Forum of Hemedicus.

The researchers studied 109 adult MDS patients who underwent ASCT from January 2000 through December 2016. The patients were divided into three groups based on the percentage of cytogenetically abnormal cells at ASCT:

  • Group 1 had less than 30% (n = 22)
  • Group 2 had 30%-60% (n = 23)
  • Group 3 had greater than 60% (n = 64).

Baseline characteristics were largely similar between the groups. However, patients in group 3 were significantly more likely than those in groups 1 and 2 to have del(5q) and monosomy 5+7 (P = .048).

Patients in group 1 had a significantly higher percentage of bone marrow transplants (as opposed to peripheral blood stem cell transplants) than patients in groups 2 and 3 (P = .039). And patients in group 1 had significantly fewer blasts at ASCT than patients in groups 2 and 3 (P = .011).

The researchers found no significant between-group differences in relapse and nonrelapse mortality, but there were significant differences in OS and RFS.

Patients in group 3 had inferior RFS compared to patients in group 1, which was the reference group. The hazard ratio (HR) was 2.503 (P = .013) in a univariable analysis and 2.196 (P = .049) in a multivariable analysis.

Group 3 also had inferior OS compared to group 1. The hazard ratio was 2.589 (P = .021) in a univariable analysis and 2.478 (P = .040) in a multivariable analysis.

There was no significant difference in RFS or OS between groups 1 and 2. The HR for RFS in group 2 was 1.879 (P = .148) in a univariable analysis and 1.365 (P = .506) in a multivariable analysis. The HR for OS was 1.997 (P = .155) and 1.413 (P = .511), respectively.

Dr. Modi said these results suggest patients with greater than 60% cytogenetically abnormal cells at ASCT should be monitored more closely after transplant, and their immunosuppressive medication should be tapered as soon as possible.

Dr. Modi and his colleagues reported having no conflicts of interest relevant to this research.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

NEWPORT BEACH, CALIF. – Researchers say they’ve found an association between the percentage of cytogenetically abnormal cells at allogeneic stem cell transplant (ASCT) and posttransplant outcomes in patients with myelodysplastic syndromes (MDS).

Patients who had more than 60% cytogenetically abnormal cells at ASCT had significantly inferior overall survival (OS) and relapse-free survival (RFS), compared to patients with fewer abnormal cells.

Dipenkumar Modi, MD, of Barbara Ann Karmanos Cancer Institute at Wayne State University in Detroit, and his colleagues conducted this research and presented the results at the Acute Leukemia Forum of Hemedicus.

The researchers studied 109 adult MDS patients who underwent ASCT from January 2000 through December 2016. The patients were divided into three groups based on the percentage of cytogenetically abnormal cells at ASCT:

  • Group 1 had less than 30% (n = 22)
  • Group 2 had 30%-60% (n = 23)
  • Group 3 had greater than 60% (n = 64).

Baseline characteristics were largely similar between the groups. However, patients in group 3 were significantly more likely than those in groups 1 and 2 to have del(5q) and monosomy 5+7 (P = .048).

Patients in group 1 had a significantly higher percentage of bone marrow transplants (as opposed to peripheral blood stem cell transplants) than patients in groups 2 and 3 (P = .039). And patients in group 1 had significantly fewer blasts at ASCT than patients in groups 2 and 3 (P = .011).

The researchers found no significant between-group differences in relapse and nonrelapse mortality, but there were significant differences in OS and RFS.

Patients in group 3 had inferior RFS compared to patients in group 1, which was the reference group. The hazard ratio (HR) was 2.503 (P = .013) in a univariable analysis and 2.196 (P = .049) in a multivariable analysis.

Group 3 also had inferior OS compared to group 1. The hazard ratio was 2.589 (P = .021) in a univariable analysis and 2.478 (P = .040) in a multivariable analysis.

There was no significant difference in RFS or OS between groups 1 and 2. The HR for RFS in group 2 was 1.879 (P = .148) in a univariable analysis and 1.365 (P = .506) in a multivariable analysis. The HR for OS was 1.997 (P = .155) and 1.413 (P = .511), respectively.

Dr. Modi said these results suggest patients with greater than 60% cytogenetically abnormal cells at ASCT should be monitored more closely after transplant, and their immunosuppressive medication should be tapered as soon as possible.

Dr. Modi and his colleagues reported having no conflicts of interest relevant to this research.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

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Model inspired by Netflix, Amazon may help guide MDS treatment

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NEWPORT BEACH, CALIF. — A model that mimics the recommender system used by Netflix and Amazon can help predict outcomes of lenalidomide treatment in patients with non–deletion 5q (non-del[5q]) myelodysplastic syndromes (MDS), according to new research.

The model was used to identify genomic biomarkers that were associated with resistance or response to lenalidomide. Researchers found these associations in 39% of patients with non-del(5q) MDS, and the model predicted response or resistance with 82% accuracy.

Yazan Madanat, MD, of the Cleveland Clinic, and his colleagues presented these findings at the Acute Leukemia Forum of Hemedicus.

Dr. Madanat explained that his group’s model is similar to the recommender system used by Netflix and Amazon, which makes suggestions for new products based on customers’ past behavior. Dr. Madanat and his colleagues used their model to show that patients with certain molecular or cytogenetic abnormalities are likely to respond or not respond to lenalidomide.

The researchers began by looking at 139 patients who had received at least two cycles of lenalidomide treatment. There were 118 patients with MDS, and 108 who had received lenalidomide monotherapy. However, the team focused on the 100 patients who had non-del(5q) MDS, 58 of whom had normal karyotype (NK) and 19 of whom had complex karyotype (CK).

The model revealed several combinations of genomic/cytogenetic abnormalities that could predict resistance to lenalidomide, including the following:

  • DNMT3A and SF3B1
  • EZH2 and NK
  • ASXL1, TET2, and NK
  • STAG2, IDH1/2, and NK
  • TP53, del(5q), and CK
  • BCOR/BCORL1 and NK
  • JAK2, TET2, and NK
  • U2AF1, +/– ETV6, and NK

However, only the following two combinations could predict response to lenalidomide:

  • DDX41 and NK
  • MECOM and KDM6A/B

These combinations could be applied to 39% of the patients with non-del(5q) MDS, and the model predicted response or resistance to lenalidomide with 82% accuracy.

Although the biomarkers were found in only a subset of patients, Dr. Madanat said these findings may help physicians tailor therapy for MDS patients, given the high level of accuracy the researchers observed.

“It’s really important to validate the results in a prospective manner and to ensure that we’re able to apply them clinically and potentially change the way we’re treating our patients,” he added.

Dr. Madanat and his colleagues reported having no relevant conflicts of interest.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

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NEWPORT BEACH, CALIF. — A model that mimics the recommender system used by Netflix and Amazon can help predict outcomes of lenalidomide treatment in patients with non–deletion 5q (non-del[5q]) myelodysplastic syndromes (MDS), according to new research.

The model was used to identify genomic biomarkers that were associated with resistance or response to lenalidomide. Researchers found these associations in 39% of patients with non-del(5q) MDS, and the model predicted response or resistance with 82% accuracy.

Yazan Madanat, MD, of the Cleveland Clinic, and his colleagues presented these findings at the Acute Leukemia Forum of Hemedicus.

Dr. Madanat explained that his group’s model is similar to the recommender system used by Netflix and Amazon, which makes suggestions for new products based on customers’ past behavior. Dr. Madanat and his colleagues used their model to show that patients with certain molecular or cytogenetic abnormalities are likely to respond or not respond to lenalidomide.

The researchers began by looking at 139 patients who had received at least two cycles of lenalidomide treatment. There were 118 patients with MDS, and 108 who had received lenalidomide monotherapy. However, the team focused on the 100 patients who had non-del(5q) MDS, 58 of whom had normal karyotype (NK) and 19 of whom had complex karyotype (CK).

The model revealed several combinations of genomic/cytogenetic abnormalities that could predict resistance to lenalidomide, including the following:

  • DNMT3A and SF3B1
  • EZH2 and NK
  • ASXL1, TET2, and NK
  • STAG2, IDH1/2, and NK
  • TP53, del(5q), and CK
  • BCOR/BCORL1 and NK
  • JAK2, TET2, and NK
  • U2AF1, +/– ETV6, and NK

However, only the following two combinations could predict response to lenalidomide:

  • DDX41 and NK
  • MECOM and KDM6A/B

These combinations could be applied to 39% of the patients with non-del(5q) MDS, and the model predicted response or resistance to lenalidomide with 82% accuracy.

Although the biomarkers were found in only a subset of patients, Dr. Madanat said these findings may help physicians tailor therapy for MDS patients, given the high level of accuracy the researchers observed.

“It’s really important to validate the results in a prospective manner and to ensure that we’re able to apply them clinically and potentially change the way we’re treating our patients,” he added.

Dr. Madanat and his colleagues reported having no relevant conflicts of interest.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

NEWPORT BEACH, CALIF. — A model that mimics the recommender system used by Netflix and Amazon can help predict outcomes of lenalidomide treatment in patients with non–deletion 5q (non-del[5q]) myelodysplastic syndromes (MDS), according to new research.

The model was used to identify genomic biomarkers that were associated with resistance or response to lenalidomide. Researchers found these associations in 39% of patients with non-del(5q) MDS, and the model predicted response or resistance with 82% accuracy.

Yazan Madanat, MD, of the Cleveland Clinic, and his colleagues presented these findings at the Acute Leukemia Forum of Hemedicus.

Dr. Madanat explained that his group’s model is similar to the recommender system used by Netflix and Amazon, which makes suggestions for new products based on customers’ past behavior. Dr. Madanat and his colleagues used their model to show that patients with certain molecular or cytogenetic abnormalities are likely to respond or not respond to lenalidomide.

The researchers began by looking at 139 patients who had received at least two cycles of lenalidomide treatment. There were 118 patients with MDS, and 108 who had received lenalidomide monotherapy. However, the team focused on the 100 patients who had non-del(5q) MDS, 58 of whom had normal karyotype (NK) and 19 of whom had complex karyotype (CK).

The model revealed several combinations of genomic/cytogenetic abnormalities that could predict resistance to lenalidomide, including the following:

  • DNMT3A and SF3B1
  • EZH2 and NK
  • ASXL1, TET2, and NK
  • STAG2, IDH1/2, and NK
  • TP53, del(5q), and CK
  • BCOR/BCORL1 and NK
  • JAK2, TET2, and NK
  • U2AF1, +/– ETV6, and NK

However, only the following two combinations could predict response to lenalidomide:

  • DDX41 and NK
  • MECOM and KDM6A/B

These combinations could be applied to 39% of the patients with non-del(5q) MDS, and the model predicted response or resistance to lenalidomide with 82% accuracy.

Although the biomarkers were found in only a subset of patients, Dr. Madanat said these findings may help physicians tailor therapy for MDS patients, given the high level of accuracy the researchers observed.

“It’s really important to validate the results in a prospective manner and to ensure that we’re able to apply them clinically and potentially change the way we’re treating our patients,” he added.

Dr. Madanat and his colleagues reported having no relevant conflicts of interest.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

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Sorafenib plus GCLAM held safe in AML, MDS phase-1 study

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NEWPORT BEACH, CALIF. – A five-drug regimen was deemed safe in patients with newly diagnosed acute myeloid leukemia (AML) or high-risk myelodysplastic syndromes (MDS), and it appeared to be effective regardless of patients’ FLT3 status.

 

Researchers tested this regimen – sorafenib plus granulocyte colony–stimulating factor (G-CSF), cladribine, high-dose cytarabine, and mitoxantrone (GCLAM) – in a phase 1 trial.

 

Kelsey-Leigh Garcia, a clinical research coordinator at Seattle Cancer Care Alliance, and her colleagues presented the results at the Acute Leukemia Forum of Hemedicus.


“The background for doing this study was our institutional results of GCLAM [Leukemia. 2018 Nov;32(11):2352-62] that showed a higher minimal residual disease–negative complete response rate than 7+3 [cytarabine continuously for 7 days, along with short infusions of an anthracycline on each of the first 3 days] and an international study by Röllig that showed the addition of sorafenib to 7+3 increased event-free survival versus [7+3 and] placebo [Lancet Oncol. 2015 Dec;16(16):1691-9],” Ms. Garcia said.

“GCLAM is the standard backbone at our institution, and we wanted to ask the question, ‘If we add sorafenib, can this improve upon the results of GCLAM?’ ” said Anna Halpern, MD, a hematologist-oncologist at the University of Washington, Seattle and principal investigator of the phase 1 trial.

The trial (NCT02728050) included 47 patients, 39 with AML and 8 with MDS. Patients were aged 60 years or younger and had a median age of 48. They had a median treatment-related mortality score of 1.76 (range, 0.19-12.26). A total of 11 patients (23%) had FLT3-ITD, and 4 (9%) had FLT3-TKD.

Treatment and toxicity

For induction, patients received G-CSF at 5 mcg/kg on days 0-5, cladribine at 5 mg/m2 on days 1-5, and cytarabine at 2 g/m2 on days 1-5. Mitoxantrone was given at 10 mg/m2, 12 mg/m2, 15 mg/m2, or 18 mg/m2 on days 1-3. Sorafenib was given at 200 mg twice daily, 400 mg in the morning and 200 mg in the afternoon, or 400 mg b.i.d. on days 10-19.

For consolidation, patients could receive up to four cycles of G-CSF, cladribine, and cytarabine plus sorafenib on days 8-27. Patients who did not proceed to transplant could receive 12 months of sorafenib as maintenance therapy.

There were four dose-limiting toxicities.

  • Grade 4 intracranial hemorrhage with mitoxantrone at 12 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 4 prolonged count recovery with mitoxantrone at 15 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 4 sepsis, Sweet syndrome, and Bell’s palsy with mitoxantrone at 18 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 3 cardiomyopathy and acute pericarditis with mitoxantrone at 18 mg/m2 and sorafenib at 400 mg b.i.d.

However, these toxicities did not define the maximum-tolerated dose. Therefore, the recommended phase 2 dose of mitoxantrone is 18 mg/m2, and the recommended phase 2 dose of sorafenib is 400 mg b.i.d.

There were no grade 5 treatment-related adverse events. Grade 3 events included febrile neutropenia (90%), maculopapular rash (20%), infections (10%), hand-foot syndrome (2%), and diarrhea (1%). Grade 4 events included sepsis, intracranial hemorrhage, and oral mucositis (all 1%).

 

 

Response and survival

Among the 46 evaluable patients, 83% achieved a complete response, 78% had a minimal residual disease–negative complete response, and 4% had a minimal residual disease–negative complete response with incomplete count recovery. A morphological leukemia-free state was achieved by 4% of patients, and 8% had resistant disease.

Fifty-nine percent of patients went on to transplant. The median overall survival had not been reached at a median follow-up of 10 months.

The researchers compared outcomes in this trial with outcomes in a cohort of patients who had received GCLAM alone, and there were no significant differences in overall survival or event-free survival.

“The trial wasn’t powered, necessarily, for efficacy, but we compared these results to our historical cohort of medically matched and age-matched patients treated with GCLAM alone and, so far, found no differences in survival between the two groups,” Dr. Halpern said.

She noted, however, that follow-up was short in the sorafenib trial, and it included patients treated with all dose levels of sorafenib and mitoxantrone.

A phase 2 study of sorafenib plus GCLAM in newly diagnosed AML or high-risk MDS is now underway.

Dr. Halpern and Ms. Garcia reported that they had no conflicts of interest. The phase 1 trial was sponsored by the University of Washington in collaboration with the National Cancer Institute, and funding was provided by Bayer.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

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NEWPORT BEACH, CALIF. – A five-drug regimen was deemed safe in patients with newly diagnosed acute myeloid leukemia (AML) or high-risk myelodysplastic syndromes (MDS), and it appeared to be effective regardless of patients’ FLT3 status.

 

Researchers tested this regimen – sorafenib plus granulocyte colony–stimulating factor (G-CSF), cladribine, high-dose cytarabine, and mitoxantrone (GCLAM) – in a phase 1 trial.

 

Kelsey-Leigh Garcia, a clinical research coordinator at Seattle Cancer Care Alliance, and her colleagues presented the results at the Acute Leukemia Forum of Hemedicus.


“The background for doing this study was our institutional results of GCLAM [Leukemia. 2018 Nov;32(11):2352-62] that showed a higher minimal residual disease–negative complete response rate than 7+3 [cytarabine continuously for 7 days, along with short infusions of an anthracycline on each of the first 3 days] and an international study by Röllig that showed the addition of sorafenib to 7+3 increased event-free survival versus [7+3 and] placebo [Lancet Oncol. 2015 Dec;16(16):1691-9],” Ms. Garcia said.

“GCLAM is the standard backbone at our institution, and we wanted to ask the question, ‘If we add sorafenib, can this improve upon the results of GCLAM?’ ” said Anna Halpern, MD, a hematologist-oncologist at the University of Washington, Seattle and principal investigator of the phase 1 trial.

The trial (NCT02728050) included 47 patients, 39 with AML and 8 with MDS. Patients were aged 60 years or younger and had a median age of 48. They had a median treatment-related mortality score of 1.76 (range, 0.19-12.26). A total of 11 patients (23%) had FLT3-ITD, and 4 (9%) had FLT3-TKD.

Treatment and toxicity

For induction, patients received G-CSF at 5 mcg/kg on days 0-5, cladribine at 5 mg/m2 on days 1-5, and cytarabine at 2 g/m2 on days 1-5. Mitoxantrone was given at 10 mg/m2, 12 mg/m2, 15 mg/m2, or 18 mg/m2 on days 1-3. Sorafenib was given at 200 mg twice daily, 400 mg in the morning and 200 mg in the afternoon, or 400 mg b.i.d. on days 10-19.

For consolidation, patients could receive up to four cycles of G-CSF, cladribine, and cytarabine plus sorafenib on days 8-27. Patients who did not proceed to transplant could receive 12 months of sorafenib as maintenance therapy.

There were four dose-limiting toxicities.

  • Grade 4 intracranial hemorrhage with mitoxantrone at 12 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 4 prolonged count recovery with mitoxantrone at 15 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 4 sepsis, Sweet syndrome, and Bell’s palsy with mitoxantrone at 18 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 3 cardiomyopathy and acute pericarditis with mitoxantrone at 18 mg/m2 and sorafenib at 400 mg b.i.d.

However, these toxicities did not define the maximum-tolerated dose. Therefore, the recommended phase 2 dose of mitoxantrone is 18 mg/m2, and the recommended phase 2 dose of sorafenib is 400 mg b.i.d.

There were no grade 5 treatment-related adverse events. Grade 3 events included febrile neutropenia (90%), maculopapular rash (20%), infections (10%), hand-foot syndrome (2%), and diarrhea (1%). Grade 4 events included sepsis, intracranial hemorrhage, and oral mucositis (all 1%).

 

 

Response and survival

Among the 46 evaluable patients, 83% achieved a complete response, 78% had a minimal residual disease–negative complete response, and 4% had a minimal residual disease–negative complete response with incomplete count recovery. A morphological leukemia-free state was achieved by 4% of patients, and 8% had resistant disease.

Fifty-nine percent of patients went on to transplant. The median overall survival had not been reached at a median follow-up of 10 months.

The researchers compared outcomes in this trial with outcomes in a cohort of patients who had received GCLAM alone, and there were no significant differences in overall survival or event-free survival.

“The trial wasn’t powered, necessarily, for efficacy, but we compared these results to our historical cohort of medically matched and age-matched patients treated with GCLAM alone and, so far, found no differences in survival between the two groups,” Dr. Halpern said.

She noted, however, that follow-up was short in the sorafenib trial, and it included patients treated with all dose levels of sorafenib and mitoxantrone.

A phase 2 study of sorafenib plus GCLAM in newly diagnosed AML or high-risk MDS is now underway.

Dr. Halpern and Ms. Garcia reported that they had no conflicts of interest. The phase 1 trial was sponsored by the University of Washington in collaboration with the National Cancer Institute, and funding was provided by Bayer.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

NEWPORT BEACH, CALIF. – A five-drug regimen was deemed safe in patients with newly diagnosed acute myeloid leukemia (AML) or high-risk myelodysplastic syndromes (MDS), and it appeared to be effective regardless of patients’ FLT3 status.

 

Researchers tested this regimen – sorafenib plus granulocyte colony–stimulating factor (G-CSF), cladribine, high-dose cytarabine, and mitoxantrone (GCLAM) – in a phase 1 trial.

 

Kelsey-Leigh Garcia, a clinical research coordinator at Seattle Cancer Care Alliance, and her colleagues presented the results at the Acute Leukemia Forum of Hemedicus.


“The background for doing this study was our institutional results of GCLAM [Leukemia. 2018 Nov;32(11):2352-62] that showed a higher minimal residual disease–negative complete response rate than 7+3 [cytarabine continuously for 7 days, along with short infusions of an anthracycline on each of the first 3 days] and an international study by Röllig that showed the addition of sorafenib to 7+3 increased event-free survival versus [7+3 and] placebo [Lancet Oncol. 2015 Dec;16(16):1691-9],” Ms. Garcia said.

“GCLAM is the standard backbone at our institution, and we wanted to ask the question, ‘If we add sorafenib, can this improve upon the results of GCLAM?’ ” said Anna Halpern, MD, a hematologist-oncologist at the University of Washington, Seattle and principal investigator of the phase 1 trial.

The trial (NCT02728050) included 47 patients, 39 with AML and 8 with MDS. Patients were aged 60 years or younger and had a median age of 48. They had a median treatment-related mortality score of 1.76 (range, 0.19-12.26). A total of 11 patients (23%) had FLT3-ITD, and 4 (9%) had FLT3-TKD.

Treatment and toxicity

For induction, patients received G-CSF at 5 mcg/kg on days 0-5, cladribine at 5 mg/m2 on days 1-5, and cytarabine at 2 g/m2 on days 1-5. Mitoxantrone was given at 10 mg/m2, 12 mg/m2, 15 mg/m2, or 18 mg/m2 on days 1-3. Sorafenib was given at 200 mg twice daily, 400 mg in the morning and 200 mg in the afternoon, or 400 mg b.i.d. on days 10-19.

For consolidation, patients could receive up to four cycles of G-CSF, cladribine, and cytarabine plus sorafenib on days 8-27. Patients who did not proceed to transplant could receive 12 months of sorafenib as maintenance therapy.

There were four dose-limiting toxicities.

  • Grade 4 intracranial hemorrhage with mitoxantrone at 12 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 4 prolonged count recovery with mitoxantrone at 15 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 4 sepsis, Sweet syndrome, and Bell’s palsy with mitoxantrone at 18 mg/m2 and sorafenib at 200 mg b.i.d.
  • Grade 3 cardiomyopathy and acute pericarditis with mitoxantrone at 18 mg/m2 and sorafenib at 400 mg b.i.d.

However, these toxicities did not define the maximum-tolerated dose. Therefore, the recommended phase 2 dose of mitoxantrone is 18 mg/m2, and the recommended phase 2 dose of sorafenib is 400 mg b.i.d.

There were no grade 5 treatment-related adverse events. Grade 3 events included febrile neutropenia (90%), maculopapular rash (20%), infections (10%), hand-foot syndrome (2%), and diarrhea (1%). Grade 4 events included sepsis, intracranial hemorrhage, and oral mucositis (all 1%).

 

 

Response and survival

Among the 46 evaluable patients, 83% achieved a complete response, 78% had a minimal residual disease–negative complete response, and 4% had a minimal residual disease–negative complete response with incomplete count recovery. A morphological leukemia-free state was achieved by 4% of patients, and 8% had resistant disease.

Fifty-nine percent of patients went on to transplant. The median overall survival had not been reached at a median follow-up of 10 months.

The researchers compared outcomes in this trial with outcomes in a cohort of patients who had received GCLAM alone, and there were no significant differences in overall survival or event-free survival.

“The trial wasn’t powered, necessarily, for efficacy, but we compared these results to our historical cohort of medically matched and age-matched patients treated with GCLAM alone and, so far, found no differences in survival between the two groups,” Dr. Halpern said.

She noted, however, that follow-up was short in the sorafenib trial, and it included patients treated with all dose levels of sorafenib and mitoxantrone.

A phase 2 study of sorafenib plus GCLAM in newly diagnosed AML or high-risk MDS is now underway.

Dr. Halpern and Ms. Garcia reported that they had no conflicts of interest. The phase 1 trial was sponsored by the University of Washington in collaboration with the National Cancer Institute, and funding was provided by Bayer.

The Acute Leukemia Forum is held by Hemedicus, which is owned by the same company as this news organization.

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