1.
Male gonadal function after pediatric hematopoietic stem cell transplantation: a systematic review
Mathiesen, S., Andrés-Jensen, L., Nielsen, M. M., Sørensen, K., Ifversen, M., Jahnukainen, K., Juul, A., Müller, K.
Transplantation and cellular therapy. 2022
Abstract
CONTEXT Male gonadal dysfunction is a frequent late effect following pediatric hematopoietic stem cell transplantation (HSCT) that can lead to disturbances in pubertal development, sexual dysfunction, and infertility. However, no systematic review exists regarding prevalence and risk factors in relation to different treatment regimens. AIM: To systematically evaluate the current evidence regarding the prevalence of male gonadal dysfunction after pediatric HSCT, related risk factors, and the diagnostic value of surrogate markers of spermatogenesis in this patient group. METHODS We searched PubMed and Embase using a combination of text words and subject terms. The eligibility screening was conducted using predefined criteria. Data were extracted corresponding to the Leydig cell compartment involved in testosterone production and the germ cell compartment involved in spermatogenesis, respectively. Subsequently, data synthesis was performed. RESULTS Of 2369 identified records, 25 studies were eligible. The studies were heterogeneous in terms of included diagnoses, gonadotoxic therapy, follow-up time, and definitions of gonadal dysfunction. The data synthesis revealed a preserved Leydig cell function in patients treated with non-total body irradiation (TBI) regimens, whereas the evidence regarding the impact of TBI conditioning on Leydig cell function was conflicting. Based on surrogate markers of spermatogenesis and only limited data on semen quality, the germ cell compartment was affected in half of the patients treated with non-TBI regimens and in nearly all patients treated with TBI conditioning. Testicular irradiation as part of front-line therapy prior to referral to HSCT led to complete Leydig cell failure and germ cell failure. Evidence regarding the impact of diagnosis, pubertal stage at HSCT, and chronic graft-versus-host disease is limited, as is the evidence of the diagnostic value of surrogate markers of spermatogenesis. CONCLUSIONS Testicular irradiation as part of front-line therapy and TBI conditioning are the main risk factors associated with male gonadal dysfunction after pediatric HSCT; however, impaired spermatogenesis is also observed in half of the patients treated with non-TBI regimens. Methodological shortcomings limit existing evidence, and future studies should include semen quality analyses, follow-up into late adulthood, and evaluation of the cumulative exposure to gonadotoxic therapy.
2.
Is microchimerism a sign of imminent disease recurrence after allogeneic hematopoietic stem cell transplantation? A systematic review of the literature
Haugaard, A. K., Kofoed, J., Masmas, T. N., Madsen, H. O., Marquart, H. V., Heilmann, C., Muller, K. G., Ifversen, M.
Blood reviews. 2020;:100673
Abstract
Chimerism analysis following hematopoietic stem cell transplantation (HSCT) for leukemia is routinely applied in parallel with quantification of minimal residual disease (MRD) to identify imminent relapse. In the past decades, new methods with a lower limit of detection compared to standard methods have been developed, so-called microchimerism analysis. Microchimerism analysis is fast, simple, applicable across pre-HSCT disease-type and can be applied on peripheral blood allowing frequent testing during follow-up. Monitoring of microchimerism in blood could replace repeated bone marrow analysis for MRD and allow earlier detection of imminent relapse or graft failure. Clinical studies in single center cohorts have shown conflicting but promising results. There is currently no consensus on the interpretation of microchimerism analysis and heterogeneity of studies remains a major obstacle for inter-study comparisons and meta-analysis in this field. We have conducted a systematic review of studies investigating associations between microchimerism and relapse of leukemia post-HSCT. We summarize current evidence and provide suggestions for future research.