Growth in children after bone marrow transplantation for acute leukemia.

We evaluated the growth of children with acute leukemia who received a bone marrow transplant (BMT) after preparation with hyperfractionated total body irradiation (TBI). Seventy-two patients (27 female and 45 male patients) with acute lymphoblastic leukemia (ALL; n = 39) or acute myelogenous leukemia (AML; n = 33) who were less than 14 years of age at BMT were studied. Before BMT all had received multiagent chemotherapy and 31 had received cranial irradiation (RT). Preparation for BMT included total body irradiation (1,375 cGy [n = 37] or 1,500 cGy [n = 35]). Heights, expressed as standard deviation scores (SDS), were studied up to 4 years post-BMT. The estimated height SDS for the entire group at the time of BMT was -0.28 +/- 0.05 and decreased to -1.11 +/- 0.22 at 4 years post-BMT (P < .0001). Using a growth curve model to compare covariate groups over the period of study, we found that the loss in height SDS was most significant in those patients who received cranial RT before BMT (P = .005). The estimated height SDS for patients treated with cranial RT went from -0.52 +/- 0.20 at transplantation to -1.83 +/- 0.23 4 years later. In contrast, patients who did not receive cranial RT before BMT showed a smaller decrease in height SDS over the 4-year observation period, ie, -0.11 +/- 0.20 decreasing to -0.73 +/- 0.21. Similarly, patients with a diagnosis of ALL had a greater loss of height SDS than those with AML (P = .033). Fifteen of 18 patients tested were found to be growth hormone (GH) deficient; 9 patients were treated with GH and all showed an improvement in growth velocity (P < .0001). We conclude that (1) children with acute leukemia who have received cranial RT and subsequently undergo BMT, primarily those with ALL, are at high risk for growth failure and GH deficiency, and (2) that fractionation of TBI may have a relative sparing effect on growth.

[1]  A. Fischer,et al.  Growth and growth hormone secretion after bone marrow transplantation. , 1993, Archives of disease in childhood.

[2]  M. Cisternino,et al.  Growth in children after bone marrow transplantation. , 1993, Hormone research.

[3]  A. Ogilvy-Stuart,et al.  Endocrine deficit after fractionated total body irradiation. , 1992, Archives of disease in childhood.

[4]  R. Motzer,et al.  Autologous bone marrow transplantation for acute myelogenous leukemia using 4-hydroperoxycyclophosphamide and VP-16 purged bone marrow. , 1992, Bone marrow transplantation.

[5]  J. Goldwein,et al.  Growth in children after bone marrow transplantation for advanced neuroblastoma compared with growth after transplantation for leukemia or aplastic anemia. , 1992, The Journal of pediatrics.

[6]  S. Piantadosi,et al.  Growth in children after bone marrow transplantation: busulfan plus cyclophosphamide versus cyclophosphamide plus total body irradiation. , 1992, Blood.

[7]  A. Papadimitriou,et al.  Growth hormone treatment of growth failure secondary to total body irradiation and bone marrow transplantation. , 1991, Archives of disease in childhood.

[8]  J. Sanders Endocrine problems in children after bone marrow tranplant for hematologic malignancies , 1991 .

[9]  M. Siimes,et al.  Growth failure and growth hormone deficiency in children after bone marrow transplantation for leukemia. , 1990, Bone marrow transplantation.

[10]  J. Hendry Response of human organs to single (or fractionated equivalent) doses of irradiation. , 1989, International journal of radiation biology.

[11]  C. Bordignon,et al.  Graft failure after T-cell-depleted human leukocyte antigen identical marrow transplants for leukemia: II. In vitro analyses of host effector mechanisms. , 1989, Blood.

[12]  L. Robison,et al.  Growth in children following irradiation for bone marrow transplantation. , 1989, The American journal of pediatric hematology/oncology.

[13]  M D Schluchter,et al.  Analysis of incomplete multivariate data using linear models with structured covariance matrices. , 1988, Statistics in medicine.

[14]  B. Borgström,et al.  Growth and growth hormone in children after bone marrow transplantation. , 1988, Hormone research.

[15]  S. Groshen,et al.  Allogeneic bone marrow transplantation after hyperfractionated total-body irradiation and cyclophosphamide in children with acute leukemia. , 1987, The New England journal of medicine.

[16]  R. Stanhope,et al.  The effect of total body irradiation and bone marrow transplantation during childhood and adolescence on growth and endocrine function , 1987, British journal of haematology.

[17]  C. Cowell,et al.  GROWTH FAILURE AND GROWTH-HORMONE DEFICIENCY AFTER TREATMENT FOR ACUTE LYMPHOBLASTIC LEUKAEMIA , 1987, The Lancet.

[18]  H. Deeg,et al.  Growth and development following marrow transplantation for leukemia. , 1986, Blood.

[19]  S. Shalet,et al.  EFFECT OF SPINAL IRRADIATION ON GROWTH , 1986, Pediatric Research.

[20]  H. Deeg,et al.  BONE MARROW TRANSPLANTATION: A REVIEW OF DELAYED COMPLICATIONS , 1984, British journal of haematology.

[21]  R. Wells,et al.  The impact of cranial irradiation on the growth of children with acute lymphocytic leukemia. , 1983, American journal of diseases of children.

[22]  V. Land,et al.  Growth in children with acute lymphocytic leukemia: a Pediatric Oncology Group study. , 1983, Medical and pediatric oncology.

[23]  L. Peters Discussion: The radiobiological bases of tbi , 1980 .

[24]  P. H. Jones,et al.  THE EFFECT OF VARYING DOSES OF CEREBRAL IRRADIATION ON GROWTH HORMONE PRODUCTION IN CHILDHOOD , 1976, Clinical endocrinology.

[25]  J. Probert,et al.  The effects of radiation therapy on bone growth. , 1975, Radiology.

[26]  E. Hall Radiation dose-rate: a factor of importance in radiobiology and radiotherapy. , 1972, The British journal of radiology.

[27]  W. Greulich,et al.  A Radiographic standard of reference for the growing hand and wrist , 1971 .

[28]  J. Tanner,et al.  Standards from birth to maturity for height, weight, height velocity, and weight velocity: British children, 1965. I. , 1966, Archives of disease in childhood.