Exercise trained postmenopausal women have higher arterial stiffness than men before and after an acute bout of dynamic exercise CraigJen ODonnellEmma FergusonRichard 2020 <div>Objectives Arterial stiffness, peripheral wave reflection and pulse pressure predict cardiovascular disease risk. Regular aerobic exercise training is a recommended non-pharmacological approach to lower cardiovascular disease risk, including lowering blood pressure and attenuating age-related increases in arterial stiffness (AS). However, it remains unclear whether sex differences differentially modulate vascular adaptations to exercise training and/or influence vascular compliance. Thus, we sought to examine the independent and combined effects of aerobic conditioning and an acute bout of dynamic exercise, a known nitric oxide stimulus, on AS in healthy middle-aged men and postmenopausal women (PMW).</div><div><br></div><div>Methods Two age-matched (54±1 years; mean±SEM) groups of habitually aerobically trained men (n=6; VO2peak 49.8±1.2 ml/kg/min) and postmenopausal women (n=6; VO2peak 38.5±1.4 ml/kg/min) were studied. Pulse wave analysis using applanation tonometry methods was used to assess arterial stiffness (augmentation pressure [AP; mmHg] and augmentation index corrected for heart rate [AIx75;%]). Central measures of blood pressure (systolic BP, SBP; diastolic BP, DBP; pulse pressure, PP; mmHg) were determined using a validated transfer function. AS and BP were recorded at baseline and 60 min after an acute bout of moderate intensity exercise (45 min of brisk walking at 60% VO2peak).</div><div><br></div><div>Results Our preliminary findings (see table 1) demonstrate that baseline AP and AIx75 were higher, (p<0.05) in PMW compared with M. Groups did not differ (p>0.05) for baseline measures of central BP but brachial SBP and PP were lower (p<0.05) in PMW. Within groups, exercise lowered (p<0.05) all measures of brachial and central BP and indices of arterial stiffness in both M and PMW. Between groups, post-exercise AIx75 remained lower (p<0.05) in M, and brachial SBP and PP lower in PMW (p<0.05). Within condition, delta (central – peripheral) BP values, and peripheral-to-central PP ratio were higher (p<0.05) in M before and after exercise. Between conditions, delta (pre – post-exercise) central PP and brachial PP were positively correlated (p<0.05) with delta (pre – post-exercise) AIx75 in men only.</div><div><br></div><div>Conclusions Our preliminary findings suggest that compared with habitually aerobically trained PMW, trained men demonstrate lower peripheral wave reflection yet higher PP amplification both before and after an acute bout of exercise. Associations between PP and AIx75 were observed in men but not women. While the clinical significance of these findings cannot be determined, these observations suggest: i) arterial stiffness is lower in aerobically trained men versus women, and ii) the relationship between PP and arterial stiffness may differ between men and women. Such differences may be of relevance to the known sex differences in the development and progression of hypertension with ageing.</div>