Semen analysis and reproductive hormones in boys with classical Hodgkin lymphoma treated according to the EuroNet-PHL-C2 protocol.

IF 6 1区 医学 Q1 OBSTETRICS & GYNECOLOGY Human reproduction Pub Date : 2024-09-10 DOI:10.1093/humrep/deae204
K C E Drechsel,S L Broer,H M K van Breda,F S Stoutjesdijk,E van Dulmen-den Broeder,A Beishuizen,W H Wallace,D Körholz,C Mauz-Körholz,D Hasenclever,M Cepelova,A Uyttebroeck,L Ronceray,J W R Twisk,G J L Kaspers,M A Veening
{"title":"Semen analysis and reproductive hormones in boys with classical Hodgkin lymphoma treated according to the EuroNet-PHL-C2 protocol.","authors":"K C E Drechsel,S L Broer,H M K van Breda,F S Stoutjesdijk,E van Dulmen-den Broeder,A Beishuizen,W H Wallace,D Körholz,C Mauz-Körholz,D Hasenclever,M Cepelova,A Uyttebroeck,L Ronceray,J W R Twisk,G J L Kaspers,M A Veening","doi":"10.1093/humrep/deae204","DOIUrl":null,"url":null,"abstract":"STUDY QUESTION\r\nWhat is the impact of the EuroNet-PHL-C2 treatment for boys with classical Hodgkin lymphoma (cHL) on semen parameters?\r\n\r\nSUMMARY ANSWER\r\nMore than half of the patients (52%, n = 16/31) had oligozoospermia or azoospermia at 2 years from cHL diagnosis; particularly boys treated for advanced-stage cHL had low sperm counts and motility.\r\n\r\nWHAT IS KNOWN ALREADY\r\nChemotherapy and radiotherapy to the inguinal region or testes can impair spermatogenesis and result in reduced fertility. The EuroNet-PHL-C2 trial aims to minimize radiotherapy in standard childhood cHL treatment, by intensifying chemotherapy. The present study aims to assess the (gonadotoxic) impact of this treatment protocol on semen parameters and reproductive hormones in boys aged ≤18 years.\r\n\r\nSTUDY DESIGN, SIZE, DURATION\r\nThis international, prospective, multi-centre cohort study was an add-on study to the randomized phase-3 EuroNet-PHL-C2 trial, where the efficacy of standard cHL treatment with OEPA-COPDAC-28 (OEPA: vincristine, etoposide, prednisone, and doxorubicin; COPDAC-28: cyclophosphamide, vincristine, prednisone, and dacarbazine) was compared to intensified OEPA-DECOPDAC-21 chemotherapy (DECOPDAC-21: COPDAC with additional doxorubicin and etoposide and 25% more cyclophosphamide). Patients were recruited between January 2017 and September 2021.\r\n\r\nPARTICIPANTS/MATERIALS, SETTING, METHODS\r\nEligibility criteria included male patients, diagnosed with classical HL before or at the age of 18 years, and treated according to the EuroNet-PHL-C2 protocol in any of the 18 participating sites in the Netherlands, Germany, Belgium, Czech Republic, and Austria. Sperm parameters (sperm concentration, progressive motility, sperm volume, and calculated total motile sperm count) were assessed at diagnosis and 2 years after diagnosis in (post)pubertal boys. Laboratory measurements (serum follicle-stimulating hormone (FSH) and inhibin B) were performed in samples drawn at diagnosis, during treatment (2-3 times), and at 2 years post-diagnosis, and (age-adjusted) analyses were conducted separately for pre-pubertal and (post)pubertal boys. Outcomes were compared between the treatment levels (TL1, TL2, and TL3) and consolidation treatment schemes (COPDAC-28 and DECOPDAC-21).\r\n\r\nMAIN RESULTS AND THE ROLE OF CHANCE\r\nIn total, 101 boys were included in the present analysis: 73 were (post)pubertal (median age 15.4 years, (IQR 14.4; 16.6), 10 TL1, 29 TL2, 34 TL3, 62% of TL2/3 patients received COPDAC-28) and 28 boys were pre-pubertal (median age 9.6 years (IQR 6.6; 11.4), 4 TL1, 7 TL2, 17 TL3, 38% of TL2/3 patients received COPDAC-28). The study included six boys who had received pelvic radiotherapy; none were irradiated in the inguinal or testicular area. At diagnosis, 48 (post)pubertal boys delivered semen for cryopreservation; 19 (40%) semen samples were oligospermic and 4 (8%) were azoospermic. Low sperm concentration (<15 mil/ml) appeared to be related to the HL disease itself, with a higher prevalence in boys who presented with B symptoms (76% vs 26%, aOR 2.3 (95% CI 1.0; 3.8), P = 0.001) compared to those without such symptoms. At 2 -years post-diagnosis, 31 boys provided semen samples for analysis, of whom 12 (39%) boys had oligozoospermia and 4 (13%) had azoospermia, while 22 boys (71%) had low total motile sperm counts (TMSC) (<20 mil). Specifically, the eight boys in the TL3 group treated with DECOPDAC-21 consolidation had low sperm counts and low progressive motility after 2 years (i.e. median sperm count 1.4 mil/ml (IQR <0.1; 5.3), n = 7 (88%), low sperm concentration, low median progressive motility 16.5% (IQR 0.0; 51.2), respectively). Age-adjusted serum FSH levels were significantly raised and inhibin B levels (and inhibin B:FSH ratios) were decreased during chemotherapy in (post)pubertal boys, with subsequent normalization in 80% (for FSH) and 60% (for inhibin B) of boys after 2 years. Only 4 out of the 14 (post)pubertal boys (29%) with low sperm concentrations after 2 years had elevated FSH (>7.6 IU/l), while 7 (50%) had low inhibin B levels (<100 ng/l). In pre-pubertal boys, reproductive hormones were low overall and remained relatively stable during chemotherapy.\r\n\r\nLIMITATIONS, REASONS FOR CAUTION\r\nThe present analyses included sperm and laboratory measurements up to 2 years post-diagnosis. Long-term reproductive outcomes and potential recovery of spermatogenesis remain unknown, while recovery was reported up to 5- or even 10-year post-chemotherapy in previous studies.Boys who were pre-pubertal at diagnosis were still too young and/or physically not able to deliver semen after 2 years and we could not assess a potential difference in gonadotoxicity according to pubertal state at the time of treatment. Overall, the statistical power of the analyses on sperm concentration and quality after 2 years was limited.\r\n\r\nWIDER IMPLICATIONS OF THE FINDINGS\r\nResults of the semen analyses conducted among the 31 boys who had provided a semen sample at 2 years post-treatment were generally poor. However, additional long-term and adequately powered data are crucial to assess the potential recovery and clinical impact on fertility. The participating boys will be invited to deliver a semen sample after 5 years. Until these data become available, benefits of intensified chemotherapy in cHL treatment to reduce radiotherapy and lower risk for development of secondary tumours should be carefully weighed against potentially increased risk of other late effects, such as diminished fertility due to the increased chemotherapy burden. Boys with newly diagnosed cHL should be encouraged to deliver sperm for cryopreservation whenever possible. However, patients and clinicians should also realize that the overall state of disease and inflammatory milieu of cHL can negatively affect sperm quality and thereby reduce chance of successful fertility preservation. Furthermore, the measurement of FSH and inhibin B appears to be of low value in predicting low sperm quality at two years from cHL treatment.\r\n\r\nSTUDY FUNDING/COMPETING INTEREST(S)\r\nThis study was funded by the Dutch charity foundation KiKa (project 257) that funds research on all forms of childhood cancer. C.M.-K., D.K., W.H.W., D.H., MC, A.U., and A.B. were involved in the development of the EuroNet-PHL-C2 regimen. The other authors declare no potential conflict of interest.\r\n\r\nTRIAL REGISTRATION NUMBER\r\nN/A.","PeriodicalId":13003,"journal":{"name":"Human reproduction","volume":null,"pages":null},"PeriodicalIF":6.0000,"publicationDate":"2024-09-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Human reproduction","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1093/humrep/deae204","RegionNum":1,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"OBSTETRICS & GYNECOLOGY","Score":null,"Total":0}
引用次数: 0

Abstract

STUDY QUESTION What is the impact of the EuroNet-PHL-C2 treatment for boys with classical Hodgkin lymphoma (cHL) on semen parameters? SUMMARY ANSWER More than half of the patients (52%, n = 16/31) had oligozoospermia or azoospermia at 2 years from cHL diagnosis; particularly boys treated for advanced-stage cHL had low sperm counts and motility. WHAT IS KNOWN ALREADY Chemotherapy and radiotherapy to the inguinal region or testes can impair spermatogenesis and result in reduced fertility. The EuroNet-PHL-C2 trial aims to minimize radiotherapy in standard childhood cHL treatment, by intensifying chemotherapy. The present study aims to assess the (gonadotoxic) impact of this treatment protocol on semen parameters and reproductive hormones in boys aged ≤18 years. STUDY DESIGN, SIZE, DURATION This international, prospective, multi-centre cohort study was an add-on study to the randomized phase-3 EuroNet-PHL-C2 trial, where the efficacy of standard cHL treatment with OEPA-COPDAC-28 (OEPA: vincristine, etoposide, prednisone, and doxorubicin; COPDAC-28: cyclophosphamide, vincristine, prednisone, and dacarbazine) was compared to intensified OEPA-DECOPDAC-21 chemotherapy (DECOPDAC-21: COPDAC with additional doxorubicin and etoposide and 25% more cyclophosphamide). Patients were recruited between January 2017 and September 2021. PARTICIPANTS/MATERIALS, SETTING, METHODS Eligibility criteria included male patients, diagnosed with classical HL before or at the age of 18 years, and treated according to the EuroNet-PHL-C2 protocol in any of the 18 participating sites in the Netherlands, Germany, Belgium, Czech Republic, and Austria. Sperm parameters (sperm concentration, progressive motility, sperm volume, and calculated total motile sperm count) were assessed at diagnosis and 2 years after diagnosis in (post)pubertal boys. Laboratory measurements (serum follicle-stimulating hormone (FSH) and inhibin B) were performed in samples drawn at diagnosis, during treatment (2-3 times), and at 2 years post-diagnosis, and (age-adjusted) analyses were conducted separately for pre-pubertal and (post)pubertal boys. Outcomes were compared between the treatment levels (TL1, TL2, and TL3) and consolidation treatment schemes (COPDAC-28 and DECOPDAC-21). MAIN RESULTS AND THE ROLE OF CHANCE In total, 101 boys were included in the present analysis: 73 were (post)pubertal (median age 15.4 years, (IQR 14.4; 16.6), 10 TL1, 29 TL2, 34 TL3, 62% of TL2/3 patients received COPDAC-28) and 28 boys were pre-pubertal (median age 9.6 years (IQR 6.6; 11.4), 4 TL1, 7 TL2, 17 TL3, 38% of TL2/3 patients received COPDAC-28). The study included six boys who had received pelvic radiotherapy; none were irradiated in the inguinal or testicular area. At diagnosis, 48 (post)pubertal boys delivered semen for cryopreservation; 19 (40%) semen samples were oligospermic and 4 (8%) were azoospermic. Low sperm concentration (<15 mil/ml) appeared to be related to the HL disease itself, with a higher prevalence in boys who presented with B symptoms (76% vs 26%, aOR 2.3 (95% CI 1.0; 3.8), P = 0.001) compared to those without such symptoms. At 2 -years post-diagnosis, 31 boys provided semen samples for analysis, of whom 12 (39%) boys had oligozoospermia and 4 (13%) had azoospermia, while 22 boys (71%) had low total motile sperm counts (TMSC) (<20 mil). Specifically, the eight boys in the TL3 group treated with DECOPDAC-21 consolidation had low sperm counts and low progressive motility after 2 years (i.e. median sperm count 1.4 mil/ml (IQR <0.1; 5.3), n = 7 (88%), low sperm concentration, low median progressive motility 16.5% (IQR 0.0; 51.2), respectively). Age-adjusted serum FSH levels were significantly raised and inhibin B levels (and inhibin B:FSH ratios) were decreased during chemotherapy in (post)pubertal boys, with subsequent normalization in 80% (for FSH) and 60% (for inhibin B) of boys after 2 years. Only 4 out of the 14 (post)pubertal boys (29%) with low sperm concentrations after 2 years had elevated FSH (>7.6 IU/l), while 7 (50%) had low inhibin B levels (<100 ng/l). In pre-pubertal boys, reproductive hormones were low overall and remained relatively stable during chemotherapy. LIMITATIONS, REASONS FOR CAUTION The present analyses included sperm and laboratory measurements up to 2 years post-diagnosis. Long-term reproductive outcomes and potential recovery of spermatogenesis remain unknown, while recovery was reported up to 5- or even 10-year post-chemotherapy in previous studies.Boys who were pre-pubertal at diagnosis were still too young and/or physically not able to deliver semen after 2 years and we could not assess a potential difference in gonadotoxicity according to pubertal state at the time of treatment. Overall, the statistical power of the analyses on sperm concentration and quality after 2 years was limited. WIDER IMPLICATIONS OF THE FINDINGS Results of the semen analyses conducted among the 31 boys who had provided a semen sample at 2 years post-treatment were generally poor. However, additional long-term and adequately powered data are crucial to assess the potential recovery and clinical impact on fertility. The participating boys will be invited to deliver a semen sample after 5 years. Until these data become available, benefits of intensified chemotherapy in cHL treatment to reduce radiotherapy and lower risk for development of secondary tumours should be carefully weighed against potentially increased risk of other late effects, such as diminished fertility due to the increased chemotherapy burden. Boys with newly diagnosed cHL should be encouraged to deliver sperm for cryopreservation whenever possible. However, patients and clinicians should also realize that the overall state of disease and inflammatory milieu of cHL can negatively affect sperm quality and thereby reduce chance of successful fertility preservation. Furthermore, the measurement of FSH and inhibin B appears to be of low value in predicting low sperm quality at two years from cHL treatment. STUDY FUNDING/COMPETING INTEREST(S) This study was funded by the Dutch charity foundation KiKa (project 257) that funds research on all forms of childhood cancer. C.M.-K., D.K., W.H.W., D.H., MC, A.U., and A.B. were involved in the development of the EuroNet-PHL-C2 regimen. The other authors declare no potential conflict of interest. TRIAL REGISTRATION NUMBER N/A.
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根据 EuroNet-PHL-C2 方案治疗的典型霍奇金淋巴瘤男孩的精液分析和生殖激素。
研究问题对患有典型霍奇金淋巴瘤(cHL)的男孩进行EuroNet-PHL-C2治疗对精液参数有什么影响? 简要回答超过一半的患者(52%,n = 16/31)在确诊cHL两年后出现少精子症或无精子症;尤其是接受晚期cHL治疗的男孩精子数量和活力较低。腹股沟区或睾丸的化疗和放疗会损害精子生成,导致生育能力下降。EuroNet-PHL-C2试验旨在通过加强化疗,在标准儿童cHL治疗中尽量减少放疗。本研究旨在评估该治疗方案对18岁以下男孩精液参数和生殖激素的(性腺毒性)影响。这项国际性、前瞻性、多中心队列研究是随机三期EuroNet-PHL-C2试验的附加研究,在该试验中,使用OEPA-COPDAC-28(OEPA:OEPA:长春新碱、依托泊苷、泼尼松和多柔比星;COPDAC-28:环磷酰胺、长春新碱、泼尼松和达卡巴嗪)与加强型 OEPA-DECOPDAC-21 化疗(DECOPDAC-21:长春新碱、依托泊苷、泼尼松和多柔比星;COPDAC-28:环磷酰胺、长春新碱、泼尼松和达卡巴嗪)的疗效进行了比较:OEPA-DECOPDAC-21化疗(DECOPDAC-21:COPDAC增加多柔比星和依托泊苷,环磷酰胺增加25%)。患者招募时间为 2017 年 1 月至 2021 年 9 月。参与者/材料、设置、方法资格标准包括男性患者,在 18 岁之前或 18 岁时被诊断为典型 HL,并在荷兰、德国、比利时、捷克共和国和奥地利的 18 个参与地点中的任何一个按照 EuroNet-PHL-C2 方案接受治疗。精子参数(精子浓度、精子活动力、精子体积和计算出的活动精子总数)在(青春期后)男孩确诊时和确诊两年后进行评估。对诊断时、治疗期间(2-3次)和诊断后2年抽取的样本进行了实验室测量(血清卵泡刺激素(FSH)和抑制素B),并对青春期前和(青春期后)男孩分别进行了(年龄调整)分析。对不同治疗水平(TL1、TL2 和 TL3)和巩固治疗方案(COPDAC-28 和 DECOPDAC-21)之间的结果进行了比较。4 岁(IQR 14.4; 16.6),10 名 TL1、29 名 TL2、34 名 TL3,62% 的 TL2/3 患者接受了 COPDAC-28),28 名男孩为青春期前(中位年龄 9.6 岁(IQR 6.6; 11.4),4 名 TL1、7 名 TL2、17 名 TL3,38% 的 TL2/3 患者接受了 COPDAC-28)。该研究包括六名接受过盆腔放疗的男孩,其中没有人接受过腹股沟或睾丸部位的照射。确诊时,48 名(青春期后)男孩提供了用于冷冻保存的精液;19 份(40%)精液样本为少精子症,4 份(8%)为无精子症。精子浓度低(7.6 IU/l),7 个(50%)抑制素 B 水平低(<100 ng/l)。在青春期前的男孩中,生殖激素水平总体较低,并且在化疗期间保持相对稳定。确诊时处于青春期前的男童由于年龄太小和/或身体原因无法在两年后提供精液,我们无法根据治疗时的青春期状态评估性腺毒性的潜在差异。总体而言,2 年后精子浓度和质量分析的统计能力有限。研究结果的广泛影响在治疗后 2 年提供精液样本的 31 名男孩中进行的精液分析结果普遍较差。然而,额外的长期和充分的数据对于评估生育能力的潜在恢复和临床影响至关重要。我们将邀请参与研究的男孩在 5 年后提供精液样本。在获得这些数据之前,应仔细权衡在治疗 cHL 时加强化疗以减少放疗和降低继发肿瘤风险的益处,以及可能增加的其他后期效应风险,例如因化疗负担加重而导致的生育能力下降。应鼓励新确诊为 cHL 的男孩尽可能提供精子进行冷冻保存。但是,患者和临床医生也应认识到,cHL的整体疾病状态和炎症环境会对精子质量产生负面影响,从而降低成功保存精子的几率。此外,FSH和抑制素B的测量似乎对预测治疗后两年的低精子质量价值不大。
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来源期刊
Human reproduction
Human reproduction 医学-妇产科学
CiteScore
10.90
自引率
6.60%
发文量
1369
审稿时长
1 months
期刊介绍: Human Reproduction features full-length, peer-reviewed papers reporting original research, concise clinical case reports, as well as opinions and debates on topical issues. Papers published cover the clinical science and medical aspects of reproductive physiology, pathology and endocrinology; including andrology, gonad function, gametogenesis, fertilization, embryo development, implantation, early pregnancy, genetics, genetic diagnosis, oncology, infectious disease, surgery, contraception, infertility treatment, psychology, ethics and social issues.
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