ABSTRACT
Introducción: La irradiación corporal total (ICT) forma parte del acondicionamiento mieloablativo del trasplante de progenitores hematopoyéticos (TPH) en hemopatías malignas. Esta terapia ha demostrado recientemente mayor supervivencia en leucemia linfoblástica aguda (LLA) frente a regímenes basados en quimioterapia. Sin embargo, los efectos secundarios son una limitación importante, especialmente en la población pediátrica.Pacientes y métodosAnalizamos retrospectivamente la supervivencia de pacientes con LLA que recibieron un TPH en un hospital terciario entre los años 1996 a 2009 (N=69 TPH en 57 pacientes). Diferenciamos una cohorte que había recibido ICT (N=44) y otra que no (N=25). Posteriormente entrevistamos a los supervivientes del grupo ICT con un mínimo de 10 años de seguimiento (N=18), preguntando acerca de la presencia de efectos secundarios.ResultadosLa supervivencia global (SG) a los 2 y 5 años fue del 79,1 y 65,2%, respectivamente para el grupo ICT y del 66,2 y 55,8% para el grupo no ICT, aunque esta diferencia no fue significativa (p=0,31). La supervivencia libre de evento (SLE) a los 2 y 5 años fue del 77,3 y 63,6%, respectivamente para el grupo ICT y del 56 y 32% para el grupo no ICT (p=0,02). La probabilidad de recidiva (PR) a los 2 años habiendo recibido ICT fue del 10% y sin haber recibido ICT del 28,6% (p=0,005). Los supervivientes que recibieron ICT desarrollaron neoplasias secundarias (39%), dislipemia (67%), alteraciones cognitivas (44%), infecciones respiratorias de repetición (39%), alteraciones tiroideas (45%), insuficiencia ovárica precoz (89%), cataratas (22%) y problemas psicológicos (44%), aunque la calidad de vida, valorada por ellos mismos, fue considerada como buena para el 83% de los encuestados.ConclusionesLos pacientes que recibieron ICT tuvieron significativamente mayor SLE y menor PR. Sin embargo, los efectos adversos son frecuentes e importantes, aunque no afectan subjetivamente a la calidad de vida. (AU)
Introduction: Total body irradiation (TBI) is part of the myeloablative conditioning for hematopoietic stem cell transplantation (HSCT) in malignant hematologic disorders. This therapy has recently shown improved survival in acute lymphoblastic leukemia (ALL) compared to chemotherapy-based regimens. However, side effects are a significant limitation, especially in the pediatric population.Patients and methodsWe retrospectively analyzed the survival of patients with ALL who underwent an HSCT at a tertiary hospital between 1996 and 2009 (N=69 HSCT in 57 patients). We differentiated a cohort that received TBI (N=44) from another that did not (N=25). Subsequently, we interviewed the survivors from the TBI group with a minimum of 10 years of follow-up (N=18), asking about the presence of side effects.ResultsThe overall survival (OS) at 2 and 5 years was 79.1% and 65.2% respectively for the TBI group and 66.2% and 55.8% for the non-TBI group, although this difference was not significant (P=.31). The event-free survival (EFS) at 2 and 5 years was 77.3% and 63.6% respectively for the TBI group and 56% and 32% for the non-TBI group (P=.02). The probability of relapse (PR) at 2 years for those who received TBI was 10% compared to 28.6% for those who did not receive TBI (P=.005). Survivors who received TBI developed secondary neoplasms (39%), dyslipidemia (67%), cognitive impairments affecting memory (44%), recurrent respiratory infections (39%), thyroid abnormalities (45%), premature ovarian failure (89%), cataracts (22%), and psychological problems (44%). However, the quality of life, as self-assessed by the patients, was considered good for 83% of the participants.ConclusionsPatients who received TBI had significantly higher EFS and lower PR. However, adverse effects are frequent and significant, although they do not subjectively affect quality of life. (AU)
Subject(s)
Humans , Leukemia, Biphenotypic, Acute , Whole-Body Irradiation , Transplants , Drug TherapyABSTRACT
INTRODUCTION: Total body irradiation (TBI) is part of the myeloablative conditioning for hematopoietic stem cell transplantation (HSCT) in malignant hematologic disorders. This therapy has recently shown improved survival in acute lymphoblastic leukemia (ALL) compared to chemotherapy-based regimens. However, side effects are a significant limitation, especially in the pediatric population. PATIENTS AND METHODS: We retrospectively analyzed the survival of patients with ALL who underwent an HSCT at a tertiary hospital between 1996 and 2009 (N = 69 HSCT in 57 patients). We differentiated a cohort that received TBI (N = 44) from another that did not (N = 25). Subsequently, we interviewed the survivors from the TBI group with a minimum of 10 years of follow-up (N = 18), asking about the presence of side effects. RESULTS: The overall survival (OS) at 2 and 5 years was 79.1% and 65.2% respectively for the TBI group and 66.2% and 55.8% for the non-TBI group, although this difference was not significant (P=.31). The event-free survival (EFS) at 2 and 5 years was 77.3% and 63.6% respectively for the TBI group and 56% and 32% for the non-TBI group (P=.02). The probability of relapse (PR) at 2 years for those who received TBI was 10% compared to 28.6% for those who did not receive TBI (P=.005). Survivors who received TBI developed secondary neoplasms (39%), dyslipidemia (67%), cognitive impairments affecting memory (44%), recurrent respiratory infections (39%), thyroid abnormalities (45%), premature ovarian failure (89%), cataracts (22%), and psychological problems (44%). However, the quality of life, as self-assessed by the patients, was considered good for 83% of the participants.. CONCLUSIONS: Patients who received TBI had significantly higher EFS and lower PR. However, adverse effects are frequent and significant, although they do not subjectively affect quality of life.
Subject(s)
Hematopoietic Stem Cell Transplantation , Precursor Cell Lymphoblastic Leukemia-Lymphoma , Whole-Body Irradiation , Humans , Precursor Cell Lymphoblastic Leukemia-Lymphoma/therapy , Female , Retrospective Studies , Whole-Body Irradiation/adverse effects , Male , Child , Hematopoietic Stem Cell Transplantation/adverse effects , Hematopoietic Stem Cell Transplantation/methods , Adolescent , Child, Preschool , Treatment Outcome , Transplantation Conditioning/methods , Transplantation Conditioning/adverse effects , Infant , Follow-Up Studies , Survival Rate , Disease-Free SurvivalABSTRACT
Malignant bone tumors are aggressive tumors, with a high tendency to metastasize, that are observed most frequently in adolescents during rapid growth spurts. Pediatric patients with malignant bone sarcomas, Ewing sarcoma and osteosarcoma, who present with progressive disease have dire survival rates despite aggressive therapy. These therapies can have long-term effects on bone growth, such as decreased bone mineral density and reduced longitudinal growth. New therapeutic approaches are therefore urgently needed for targeting pediatric malignant bone tumors. Harnessing the power of the immune system against cancer has improved the survival rates dramatically in certain cancer types. Natural killer (NK) cells are a heterogeneous group of innate effector cells that possess numerous antitumor effects, such as cytolysis and cytokine production. Pediatric sarcoma cells have been shown to be especially susceptible to NK-cell-mediated killing. NK-cell adoptive therapy confers numerous advantages over T-cell adoptive therapy, including a good safety profile and a lack of major histocompatibility complex restriction. NK-cell immunotherapy has the potential to be a new therapy for pediatric malignant bone tumors. In this manuscript, we review the general characteristics of osteosarcoma and Ewing sarcoma, discuss the long-term effects of sarcoma treatment on bones, and the barriers to effective immunotherapy in bone sarcomas. We then present the laboratory and clinical studies on NK-cell immunotherapy for pediatric malignant bone tumors. We discuss the various donor sources and NK-cell types, the engineering of NK cells and combinatorial treatment approaches that are being studied to overcome the current challenges in adoptive NK-cell therapy, while suggesting approaches for future studies on NK-cell immunotherapy in pediatric bone tumors.
Subject(s)
Bone Neoplasms , Neoplasms , Osteosarcoma , Sarcoma, Ewing , Sarcoma , Adolescent , Humans , Child , Sarcoma, Ewing/therapy , Osteosarcoma/therapy , Neoplasms/therapy , Immunotherapy, Adoptive , Bone Neoplasms/therapy , Killer Cells, Natural , Immunotherapy , Cell- and Tissue-Based TherapyABSTRACT
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