2000-2019 年瑞士男女发育差异的普遍程度

medRxiv - Endocrinology Pub Date : 2024-03-13 DOI:10.1101/2024.03.11.24304115

Sara Andrea Metzger, Grit Sommer, Christa E Flueck, Swiss DSD Cohort Study Group

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摘要

目的：有关罕见性发育差异（DSD）患病率的可靠数据尚缺。我们旨在估算瑞士基于人口的DSD患病率：回顾性人群研究，包括 2000-2019 年间在瑞士出生、根据芝加哥共识患有 DSD 的个体：瑞士所有 10 家儿童医院的内分泌护理中心和 8 家私人内分泌诊所通过 I-DSD 登记表或病例报告表收集 DSD 数据。我们计算了DSD诊断组的患病率，并分析了患病率的时间趋势。结果：在 20 年的研究期间，我们共发现了 561 名 DSD 患者。近一半（n=266，47%）患有性染色体 DSD，177 人（32%）患有 46,XY DSD，118 人（21%）患有 46,XX DSD。46,XY DSD 的病因是雄激素合成或作用紊乱（37/177，21%）、性腺发育不典型（28/177，16%）或其他原因（112/177，63%）。导致 46,XX DSD 的原因是雄激素过多（99/118，84%）、性腺发育不典型（8/118，7%）或其他原因（11/118，9%）。平均每年有 28 例新的 DSD 新生儿。每年每 10 万活产婴儿中，性染色体畸形发病率为 17 例，46,XY 性染色体畸形发病率为 12 例，46,XX 性染色体畸形发病率为 8 例。每 7500 名新生女婴中就有一名患有 46,XX 先天性肾上腺发育不全（CAH）：结论：性染色体发育异常的患病率低于预期，原因是诊断较晚导致报告不足。46,XX CAH 的患病率与新生儿筛查数据相似，表明病例的完整性良好。对于复杂的 DSD 病例，我们希望能覆盖全部病例。这项研究为有关 DSD 的政策制定和（跨）国家研究提供了宝贵的资源。

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Prevalence of differences of sex development in Switzerland from 2000-2019

Objective: Reliable data on prevalence of rare differences of sex development (DSD) are lacking. We aimed to estimate population-based prevalence of DSD in Switzerland. Design: Retrospective population-based study including individuals with DSD according to Chicago Consensus, born in Switzerland from 2000-2019. Methods: Endocrine care centers in all ten Swiss Children's Hospitals and eight private endocrine practices collected DSD data through the I-DSD registry or case report forms. We calculated prevalence for DSD diagnostic groups and analyzed time trends in prevalence. Results: Over the 20-year study period, we identified 561 individuals with DSD. Almost half (n=266, 47%) had sex chromosome DSD, 177 (32%) had 46,XY DSD and 118 (21%) had 46, XX DSD. Causes for 46,XY DSD were disturbed androgen synthesis or action (37/177, 21%), atypical gonadal development (28/177, 16%), or other causes (112/177, 63%). Causes for 46,XX DSD were androgen excess (99/118, 84%), atypical gonadal development (8/118, 7%), or other causes (11/118, 9%). On average, 28 new cases were born with DSD annually. Prevalence was 17 for sex chromosome DSD, 12 for 46,XY DSD and 8 for 46,XX DSD per 100'000 live births and year. One per 7'500 newborn girls had 46,XX congenital adrenal hypoplasia (CAH). Conclusion: Prevalence of sex chromosome DSD was lower than expected because of underreporting due to late diagnosis. Prevalence of 46,XX CAH is similar to newborn screening data, suggesting good completeness of cases. For complex DSD cases, we expect complete coverage. This study provides a valuable resource for policymaking and (inter)national research on DSD.

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medRxiv - Endocrinology

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