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Testosterone deficiency in men surviving childhood acute leukemia after treatment with hematopoietic stem cell transplantation or testicular radiation: an L.E.A. study.

Romain LopezGeneviève PlatYves BertrandStéphane DucassouPaul SaultierJulie BerbisCécile PochonZeinab HamidouMarilyne PoireeMarie-Dominique TaboneJustyna KanoldJean-Hugues DalleVirginie GandemerCatherine PaillardNicolas SirventDominique PlantazSandrine ThouveninIsabelle PellierSophie AnsoborloGuy LevergerAndré BaruchelPascal AuquierGérard Michel
Published in: Bone marrow transplantation (2021)
We included 255 patients from the L.E.A. French long-term follow-up cohort. All had received hematopoietic stem cell transplantation (HSCT) and/or testicular radiation for childhood acute leukemia and were older than 18 years at last L.E.A. evaluation. Total testosterone deficiency was defined as a <12 nmol/l level or by substitutive therapy, partial deficiency as normal testosterone with elevated luteinizing hormone (>10 UI/l). After myeloablative total body irradiation (n = 178), 55.6% had total deficiency, 15.7% partial deficiency, and 28.7% were normal. A 4-6 Gy testicular boost and a younger age at HSCT increased significantly the risk. After a Busulfan-containing myeloablative conditioning regimen (n = 53), 28.3% had total deficiency, 15.1% partial deficiency, 56.6% were normal (62.5% vs. 0% in patients without or with additional testicular radiation). A 24-Gy testicular radiation without HSCT induced total or partial deficiency in 71.4% and 28.6%, respectively (n = 21). Total testosterone deficiency increased the risk of metabolic syndrome: 25% vs. 12.1% in men with partial testosterone deficiency and 8.8% when Leydig cell function was normal (p = 0.031).
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