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SALT LAKE CITY—Cure of severe hemoglobinopathies is now possible for most patients, according to a speaker at the 2018 BMT Tandem Meetings.
Results of a small study suggest that nonmyeloablative haploidentical bone marrow transplant (minihaplo-BMT), when used with 400 cGy total body irradiation and post-transplant cyclophosphamide, can cure sickle cell disease (SCD) and beta-thalassemia while conferring limited toxicity.
“This is our second study showing that you can certainly get rid of these conditions using haploidentical donors and, also, that you can cure these conditions with a nonmyeloablative regimen,” said Javier Bolaños-Meade, MD, of Johns Hopkins University in Baltimore, Maryland.
“What we saw [in the current study] is that increasing the total body irradiation from 200 cGy to 400 cGy can overcome the very high rate of graft failure we observed in our prior study.”
However, the results also suggest that major ABO incompatible donors should be avoided.
Dr Bolaños-Meade presented these findings as a late-breaking abstract (LBA3) at this year’s BMT Tandem Meetings.
He began the presentation by pointing out that allogeneic BMT is the only potential cure for SCD and beta-thalassemia. Unfortunately, most of these patients have been excluded from transplant due to a lack of matched donors, concerns over graft-vs-host disease (GVHD), and/or compromised end organ function precluding them from myeloablative conditioning.
With a prior study, Dr Bolaños-Meade and his colleagues found that minihaplo-BMT with post-transplant cyclophosphamide expanded the donor pool and was well tolerated in patients with SCD. However, the rate of secondary graft failure was high, at 43%.
“We hypothesized that increasing the amount of radiation that was given to these patients, making the regimen absolutely more intensive, will help us to overcome this rate of graft failure and retain the tolerability of the regimen,” Dr Bolaños-Meade said.
He and his colleagues tested this theory in 12 patients with SCD and 5 with beta-thalassemia.
The SCD patients had a median age of 26 (range, 6-31), and most (n=8) were female. Ten were African-American, and 2 were of Arab descent.
All SCD patients had at least 2 hospital admissions in the last 2 years, 5 had osteonecrosis, 3 were transfusion-dependent, 2 had a history of acute chest syndrome, and 1 patient had changes in brain magnetic resonance imaging.
The thalassemia patients had a median age of 7 (range, 6-16). Four were female, and all 5 were of Arab descent. All patients were transfusion-dependent from infancy.
Treatment
All patients received antithymocyte globulin (rabbit) at 0.5 mg/kg on day -9 and 2 mg/kg on days -8 and -7, fludarabine at 30 mg/m2 on days -6 to -2, cyclophosphamide at 14.5 mg/kg on days -6 and -5, and total body irradiation at 400 cGy on day -1.
Patients received unmanipulated bone marrow that was collected and infused on day 0. Donors included 1 aunt, 4 brothers, 3 sisters, 5 mothers, and 4 fathers. There were 2 major ABO incompatible pairs, 5 minor ABO incompatible pairs, and 10 ABO compatible pairs.
For GVHD prophylaxis, patients received 50 mg/kg/day of cyclophosphamide on days 3 and 4, sirolimus (levels of 5-10 ng/dl) from days 5 to 365, and mycophenolate mofetil at 1 g every 8 hours from days 5 to 35.
Efficacy
All 17 patients are still alive at a median follow-up of 15 months (range, 3-34).
“Of all the patients transplanted, we only observed 1 graft failure,” Dr Bolaños-Meade said. “This is in sharp contrast to the 40% graft failure in our prior study.”
Thirteen patients achieved full donor chimerism, and 3 had mixed chimerism.
Four of the 5 beta-thalassemia patients achieved full donor chimerism, and 1 had mixed chimerism. All 5 patients became transfusion-independent.
Eleven of the 12 SCD patients engrafted, and 9 achieved full donor chimerism.
All but one of the engrafted SCD patients became transfusion-independent. The exception was a mixed chimeric patient who had a major ABO mismatched donor. The patient remains transfusion-dependent more than 30 months after BMT.
“This is the main problem we have seen in all our sickle cell and hemoglobinopathy experiences,” Dr Bolaños-Meade said. “If you have a major ABO incompatibility, and there’s mixed chimerism, you’re asking for trouble.”
Toxicity
All SCD patients had sickle cell crises after antithymocyte globulin. Other toxicities included sirolimus-induced diabetes in 1 patient, worsening of Meniere’s disease in 1 patient, and BK cystitis in 1 patient.
Two patients developed grade 2 acute GVHD, and 1 developed grade 3 acute GVHD. Three patients had chronic GVHD, 2 mild and 1 moderate.
However, all cases of GVHD resolved. And, of the 8 engrafted patients with more than 1 year of follow-up, 6 are off systemic immunosuppression.
SALT LAKE CITY—Cure of severe hemoglobinopathies is now possible for most patients, according to a speaker at the 2018 BMT Tandem Meetings.
Results of a small study suggest that nonmyeloablative haploidentical bone marrow transplant (minihaplo-BMT), when used with 400 cGy total body irradiation and post-transplant cyclophosphamide, can cure sickle cell disease (SCD) and beta-thalassemia while conferring limited toxicity.
“This is our second study showing that you can certainly get rid of these conditions using haploidentical donors and, also, that you can cure these conditions with a nonmyeloablative regimen,” said Javier Bolaños-Meade, MD, of Johns Hopkins University in Baltimore, Maryland.
“What we saw [in the current study] is that increasing the total body irradiation from 200 cGy to 400 cGy can overcome the very high rate of graft failure we observed in our prior study.”
However, the results also suggest that major ABO incompatible donors should be avoided.
Dr Bolaños-Meade presented these findings as a late-breaking abstract (LBA3) at this year’s BMT Tandem Meetings.
He began the presentation by pointing out that allogeneic BMT is the only potential cure for SCD and beta-thalassemia. Unfortunately, most of these patients have been excluded from transplant due to a lack of matched donors, concerns over graft-vs-host disease (GVHD), and/or compromised end organ function precluding them from myeloablative conditioning.
With a prior study, Dr Bolaños-Meade and his colleagues found that minihaplo-BMT with post-transplant cyclophosphamide expanded the donor pool and was well tolerated in patients with SCD. However, the rate of secondary graft failure was high, at 43%.
“We hypothesized that increasing the amount of radiation that was given to these patients, making the regimen absolutely more intensive, will help us to overcome this rate of graft failure and retain the tolerability of the regimen,” Dr Bolaños-Meade said.
He and his colleagues tested this theory in 12 patients with SCD and 5 with beta-thalassemia.
The SCD patients had a median age of 26 (range, 6-31), and most (n=8) were female. Ten were African-American, and 2 were of Arab descent.
All SCD patients had at least 2 hospital admissions in the last 2 years, 5 had osteonecrosis, 3 were transfusion-dependent, 2 had a history of acute chest syndrome, and 1 patient had changes in brain magnetic resonance imaging.
The thalassemia patients had a median age of 7 (range, 6-16). Four were female, and all 5 were of Arab descent. All patients were transfusion-dependent from infancy.
Treatment
All patients received antithymocyte globulin (rabbit) at 0.5 mg/kg on day -9 and 2 mg/kg on days -8 and -7, fludarabine at 30 mg/m2 on days -6 to -2, cyclophosphamide at 14.5 mg/kg on days -6 and -5, and total body irradiation at 400 cGy on day -1.
Patients received unmanipulated bone marrow that was collected and infused on day 0. Donors included 1 aunt, 4 brothers, 3 sisters, 5 mothers, and 4 fathers. There were 2 major ABO incompatible pairs, 5 minor ABO incompatible pairs, and 10 ABO compatible pairs.
For GVHD prophylaxis, patients received 50 mg/kg/day of cyclophosphamide on days 3 and 4, sirolimus (levels of 5-10 ng/dl) from days 5 to 365, and mycophenolate mofetil at 1 g every 8 hours from days 5 to 35.
Efficacy
All 17 patients are still alive at a median follow-up of 15 months (range, 3-34).
“Of all the patients transplanted, we only observed 1 graft failure,” Dr Bolaños-Meade said. “This is in sharp contrast to the 40% graft failure in our prior study.”
Thirteen patients achieved full donor chimerism, and 3 had mixed chimerism.
Four of the 5 beta-thalassemia patients achieved full donor chimerism, and 1 had mixed chimerism. All 5 patients became transfusion-independent.
Eleven of the 12 SCD patients engrafted, and 9 achieved full donor chimerism.
All but one of the engrafted SCD patients became transfusion-independent. The exception was a mixed chimeric patient who had a major ABO mismatched donor. The patient remains transfusion-dependent more than 30 months after BMT.
“This is the main problem we have seen in all our sickle cell and hemoglobinopathy experiences,” Dr Bolaños-Meade said. “If you have a major ABO incompatibility, and there’s mixed chimerism, you’re asking for trouble.”
Toxicity
All SCD patients had sickle cell crises after antithymocyte globulin. Other toxicities included sirolimus-induced diabetes in 1 patient, worsening of Meniere’s disease in 1 patient, and BK cystitis in 1 patient.
Two patients developed grade 2 acute GVHD, and 1 developed grade 3 acute GVHD. Three patients had chronic GVHD, 2 mild and 1 moderate.
However, all cases of GVHD resolved. And, of the 8 engrafted patients with more than 1 year of follow-up, 6 are off systemic immunosuppression.
SALT LAKE CITY—Cure of severe hemoglobinopathies is now possible for most patients, according to a speaker at the 2018 BMT Tandem Meetings.
Results of a small study suggest that nonmyeloablative haploidentical bone marrow transplant (minihaplo-BMT), when used with 400 cGy total body irradiation and post-transplant cyclophosphamide, can cure sickle cell disease (SCD) and beta-thalassemia while conferring limited toxicity.
“This is our second study showing that you can certainly get rid of these conditions using haploidentical donors and, also, that you can cure these conditions with a nonmyeloablative regimen,” said Javier Bolaños-Meade, MD, of Johns Hopkins University in Baltimore, Maryland.
“What we saw [in the current study] is that increasing the total body irradiation from 200 cGy to 400 cGy can overcome the very high rate of graft failure we observed in our prior study.”
However, the results also suggest that major ABO incompatible donors should be avoided.
Dr Bolaños-Meade presented these findings as a late-breaking abstract (LBA3) at this year’s BMT Tandem Meetings.
He began the presentation by pointing out that allogeneic BMT is the only potential cure for SCD and beta-thalassemia. Unfortunately, most of these patients have been excluded from transplant due to a lack of matched donors, concerns over graft-vs-host disease (GVHD), and/or compromised end organ function precluding them from myeloablative conditioning.
With a prior study, Dr Bolaños-Meade and his colleagues found that minihaplo-BMT with post-transplant cyclophosphamide expanded the donor pool and was well tolerated in patients with SCD. However, the rate of secondary graft failure was high, at 43%.
“We hypothesized that increasing the amount of radiation that was given to these patients, making the regimen absolutely more intensive, will help us to overcome this rate of graft failure and retain the tolerability of the regimen,” Dr Bolaños-Meade said.
He and his colleagues tested this theory in 12 patients with SCD and 5 with beta-thalassemia.
The SCD patients had a median age of 26 (range, 6-31), and most (n=8) were female. Ten were African-American, and 2 were of Arab descent.
All SCD patients had at least 2 hospital admissions in the last 2 years, 5 had osteonecrosis, 3 were transfusion-dependent, 2 had a history of acute chest syndrome, and 1 patient had changes in brain magnetic resonance imaging.
The thalassemia patients had a median age of 7 (range, 6-16). Four were female, and all 5 were of Arab descent. All patients were transfusion-dependent from infancy.
Treatment
All patients received antithymocyte globulin (rabbit) at 0.5 mg/kg on day -9 and 2 mg/kg on days -8 and -7, fludarabine at 30 mg/m2 on days -6 to -2, cyclophosphamide at 14.5 mg/kg on days -6 and -5, and total body irradiation at 400 cGy on day -1.
Patients received unmanipulated bone marrow that was collected and infused on day 0. Donors included 1 aunt, 4 brothers, 3 sisters, 5 mothers, and 4 fathers. There were 2 major ABO incompatible pairs, 5 minor ABO incompatible pairs, and 10 ABO compatible pairs.
For GVHD prophylaxis, patients received 50 mg/kg/day of cyclophosphamide on days 3 and 4, sirolimus (levels of 5-10 ng/dl) from days 5 to 365, and mycophenolate mofetil at 1 g every 8 hours from days 5 to 35.
Efficacy
All 17 patients are still alive at a median follow-up of 15 months (range, 3-34).
“Of all the patients transplanted, we only observed 1 graft failure,” Dr Bolaños-Meade said. “This is in sharp contrast to the 40% graft failure in our prior study.”
Thirteen patients achieved full donor chimerism, and 3 had mixed chimerism.
Four of the 5 beta-thalassemia patients achieved full donor chimerism, and 1 had mixed chimerism. All 5 patients became transfusion-independent.
Eleven of the 12 SCD patients engrafted, and 9 achieved full donor chimerism.
All but one of the engrafted SCD patients became transfusion-independent. The exception was a mixed chimeric patient who had a major ABO mismatched donor. The patient remains transfusion-dependent more than 30 months after BMT.
“This is the main problem we have seen in all our sickle cell and hemoglobinopathy experiences,” Dr Bolaños-Meade said. “If you have a major ABO incompatibility, and there’s mixed chimerism, you’re asking for trouble.”
Toxicity
All SCD patients had sickle cell crises after antithymocyte globulin. Other toxicities included sirolimus-induced diabetes in 1 patient, worsening of Meniere’s disease in 1 patient, and BK cystitis in 1 patient.
Two patients developed grade 2 acute GVHD, and 1 developed grade 3 acute GVHD. Three patients had chronic GVHD, 2 mild and 1 moderate.
However, all cases of GVHD resolved. And, of the 8 engrafted patients with more than 1 year of follow-up, 6 are off systemic immunosuppression.