一种方法并不适用于所有人：更年期类型和激素治疗对大脑健康的影响

The British Journal of Psychiatry Pub Date : 2025-06-09 DOI:10.1192/bjp.2025.52

Laura L. Gravelsins, Liisa A. M. Galea

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引用次数: 0

摘要

更年期是衰老轨迹的一个拐点。与实际年龄无关，更年期与几个身体系统的生物老化有关。在这篇综述中，我们强调了考虑更年期对大脑健康的影响——它的类型、症状和干预措施的重要性。通过绝经期激素治疗（MHT）补充卵巢激素的损失可能是支持女性健康大脑衰老的关键。MHT与几种神经退行性疾病的风险降低有关；然而，它对大脑健康的好处并不总是被观察到。本综述强调了经常被忽视的MHT因素，这些因素影响其对大脑健康、认知和神经退行性疾病风险产生积极或消极的影响。这些因素包括多种MHT，包括制剂、给药途径和给药方案，以及个体特征，特别是血管舒缩症状和载脂蛋白ε4 （APOE4）基因型的存在。方法使用pubmed和Scopus检索具有相关检索词的文章。结果绝经因素包括年龄、突发性和症状对脑老化的影响。MHT影响大脑健康，透皮MHT对大脑衰老有更积极的影响，但其有效性可能取决于个体因素，如基因型、生殖和生活方式因素。结论为了开发有效的、个性化的MHT治疗方法，需要进一步的研究。临床前模型必须考虑人类更年期和MHT的类型。为了最大限度地预防女性痴呆症，需要更多的绝经教育和护理，并将其延伸到60岁以上或绝经后10年。

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One size does not fit all: how type of menopause and hormone therapy matters for brain health

Background

Menopause is an inflection point in the ageing trajectory. Independent of chronological age, menopause is associated with the biological ageing of several body systems. In this review, we highlight the importance of considering the influence of menopause – its types, symptoms and interventions – on brain health. Supplementing the loss of ovarian hormones with menopausal hormone therapy (MHT) may be key for supporting the healthy brain ageing of females. MHT has been associated with reduced risk of several neurodegenerative diseases; however, its benefits are not always observed on brain health.

Aims

This narrative review highlights often overlooked MHT factors that influence its effects to produce positive or negative effects on brain health, cognition and neurodegenerative disease risk. These factors include the many varieties of MHT, including formulation, administration route and dosing schedule, as well as individual characteristics, particularly the presence of vasomotor symptoms and apolipoprotein ε4 (APOE4) genotype.

Method

PubMed and Scopus were used to identify articles with relevant search terms.

Results

Menopause factors, including age, abruptness and symptoms, influence brain ageing. MHT influences brain health, with transdermal MHT showing more positive effects on brain ageing, but its effectiveness may depend on individual factors such as genotype, reproductive and lifestyle factors.

Conclusions

To develop effective and individualised MHT treatments, further research is needed. Preclinical models must consider the type of human menopause and MHT. To achieve the greatest dementia prevention in females, more menopause education and care is needed that extends beyond 60 years of age, or 10 years postmenopause.

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来源期刊

The British Journal of Psychiatry

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