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The menopausal transition represents a pivotal period in female aging, marked by profound endocrine, metabolic and cellular shifts. Increasing evidence indicates that menopausal symptoms - vasomotor instability, sleep disturbances, fatigue and cognitive complaints - are more than consequences of estrogen withdrawal, and may serve as a potential clinical indicator of biological aging. Experimental and clinical data suggest that declining estrogen signaling contributes to mitochondrial dysfunction, inflammation and telomere attrition, processes that are closely linked to cellular senescence and tissue deterioration. In addition to estrogen decline, the menopausal transition involves broader endocrine changes. Rising follicle stimulating hormone (FSH) levels, alteration in androgen balance and cortisol dysregulation of the hypothalamic-pituitary-adrenal axis may influence metabolic regulation, musculoskeletal health, stress physiology and body composition. Through these mechanisms, menopausal hormonal changes may contribute to increased cardiometabolic, musculoskeletal and neurocognitive vulnerability in midlife women. Clinical observations increasingly show that severe menopausal symptoms are associated with adverse cardiometabolic profiles, vascular dysfunction and markers of accelerated biological aging. Sleep disturbances and fatigue may further exacerbate metabolic dysregulation and systemic vulnerability, while cognitive complaints may reflect neuroinflammatory and vascular processes associated with aging. By restoring estrogen signaling, menopausal hormone therapy alleviates menopausal symptoms and may influence biological pathways involved in aging. Whether these effects translate into a modification of the aging trajectory remains unclear.