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Long-Term Toxicity after Total Body Irradiation-Based Conditioning Regimens for Allogeneic Stem Cell Transplantation.
PURPOSE/OBJECTIVE(S): Total body irradiation (TBI) is an integral component of many conditioning regimens prior to allogeneic hematopoietic stem cell transplantation (HSCT). Few studies have investigated long-term sequelae. A large series of patients undergoing myeloablative and non-myeloablative regimens was studied.
MATERIALS/METHODS: Adult patients undergoing allogeneic HSCT utilizing TBI-based conditioning regimens from 1995-2020 at our institution were included. Baseline treatment-related factors and long-term toxicities (developing, or persisting beyond, 6 months after HSCT) were collected. The cumulative incidence of long-term toxicities and overall survival (OS) were calculated. Cox regression was used to assess for predictors of toxicity.
RESULTS: Five hundred fifty-two patients were analyzed: 378 myeloablative (typically 13.5 Gy/9fx) and 174 non-myeloablative (typically 2 Gy/1fx) TBI recipients. Median follow-up was 7.4 years for surviving patients. Cumulative incidences of long-term toxicities at 5 and 10 years are included in the Table. The most common toxicities were: pulmonary- infectious pneumonia and respiratory failure NOS; cardiac- heart failure and myocardial infarction; other endocrine- adrenal insufficiency and testosterone deficiency. The most common secondary malignancy was non-melanoma skin cancer. The proportion of all toxicities that were high-grade (3-5) for myeloablative and non-myeloablative regimens, respectively, were: pulmonary (65%, 52%), cardiac (66%, 39%), renal (23%, 27%), and other endocrine (3%, 18%). Increasing number of chemotherapy regimens (p = 0.05) and umbilical cord donor (p = 0.02) were associated with long-term pulmonary toxicity. Male sex (p = 0.03), increasing number of chemotherapy regimens (p<0.01), and elevated creatinine after transplant (p<0.01) were associated with long-term renal toxicity. Cataract development was associated with increasing age at transplant (p = 0.02). OS (5 years) was 40% (42% -myeloablative; 33%-non-myeloablative).
CONCLUSION: Allogeneic HSCT, often preceded by TBI-based conditioning regimens, has significant survivorship challenges. Recipients of non-myeloablative regimens are still at risk of significant long-term multisystem toxicity despite much lower doses of TBI and chemotherapy. Pre-transplant factors such as cumulative chemotherapy exposure and age at transplant were associated with some toxicities.
MATERIALS/METHODS: Adult patients undergoing allogeneic HSCT utilizing TBI-based conditioning regimens from 1995-2020 at our institution were included. Baseline treatment-related factors and long-term toxicities (developing, or persisting beyond, 6 months after HSCT) were collected. The cumulative incidence of long-term toxicities and overall survival (OS) were calculated. Cox regression was used to assess for predictors of toxicity.
RESULTS: Five hundred fifty-two patients were analyzed: 378 myeloablative (typically 13.5 Gy/9fx) and 174 non-myeloablative (typically 2 Gy/1fx) TBI recipients. Median follow-up was 7.4 years for surviving patients. Cumulative incidences of long-term toxicities at 5 and 10 years are included in the Table. The most common toxicities were: pulmonary- infectious pneumonia and respiratory failure NOS; cardiac- heart failure and myocardial infarction; other endocrine- adrenal insufficiency and testosterone deficiency. The most common secondary malignancy was non-melanoma skin cancer. The proportion of all toxicities that were high-grade (3-5) for myeloablative and non-myeloablative regimens, respectively, were: pulmonary (65%, 52%), cardiac (66%, 39%), renal (23%, 27%), and other endocrine (3%, 18%). Increasing number of chemotherapy regimens (p = 0.05) and umbilical cord donor (p = 0.02) were associated with long-term pulmonary toxicity. Male sex (p = 0.03), increasing number of chemotherapy regimens (p<0.01), and elevated creatinine after transplant (p<0.01) were associated with long-term renal toxicity. Cataract development was associated with increasing age at transplant (p = 0.02). OS (5 years) was 40% (42% -myeloablative; 33%-non-myeloablative).
CONCLUSION: Allogeneic HSCT, often preceded by TBI-based conditioning regimens, has significant survivorship challenges. Recipients of non-myeloablative regimens are still at risk of significant long-term multisystem toxicity despite much lower doses of TBI and chemotherapy. Pre-transplant factors such as cumulative chemotherapy exposure and age at transplant were associated with some toxicities.
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