Young women experience orthostatic intolerance to a greater degree than men. Numerous physiological pathways could be responsible for this intolerance in both healthy and pathophysiological conditions. This review discusses sex differences in hemodynamics, ventilation, autonomic control, and cerebral blood flow. Further, we discuss these phenomena and their potential exacerbations in postural orthostatic tachycardiac syndrome (POTS). After normalization for body size women have lower stroke volume and blood volume, and while upright women have reduced ventilation, reduced venous return likely from attenuated respiratory pump and skeletal muscle pump activity, augmented parasympathetic withdrawal, attenuated neurovascular transduction of sympathetic outflow, and increased vasodilatory capacity compared to age-matched men. Women have greater middle cerebral artery blood velocity, potentially impaired cerebral dynamic autoregulation (depending on the timing), yet similar cerebrovascular reactivity to carbon dioxide exists between the sexes. Thus, we suggest that the greater incidence of orthostatic intolerance in women is primarily due to hemodynamic control and autonomic function; however, the enhanced parasympathetic withdrawal while upright could theoretically influence cerebral vasodilatory capacity and is proposed as a possibility in need of further investigation. POTS physiology is described briefly due to its increasing prevalence via post-COVID infections. We summarize some potential physiological changes in POTS including hemodynamic and ventilatory control, and we highlight that cerebral blood flow control is impaired and likely plays a role in the symptomology of POTS.
Keywords: Autonomic control; Brain blood flow; Hemodynamics; Orthostatic intolerance; Postural orthostatic tachycardia syndrome; Vascular; Ventilation.
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