Age-related alterations in the cardiovascular responses to acute exercise in males and females: role of the exercise pressor reflex

Risk Factors Associated With Exaggerated Blood Pressure Response at the Time of Exercise Treadmill Stress Test

BACKGROUND

Exaggerated blood pressure response (EBPR) to exercise stress testing (EST) may be a marker of future hypertension and carry valuable information for the prediction of cardiovascular events. We sought to evaluate the clinical and resting EST parameters associated with an increased likelihood of EBPR.

METHODS

The records of 14,073 patients (mean age: 55 ± 11 years) without known cardiovascular disease who underwent a treadmill EST were analyzed.

RESULTS

The overall prevalence of arterial hypertension was 44%. A considerable proportion (24%) of patients exhibited EBPR. Multivariate analysis of the entire study population showed that middle-aged individuals (40-60 years old), resting systolic BP > 130 mmHg and/or diastolic BP > 80 mmHg, known arterial hypertension, current cigarette smoking, and family history of premature coronary artery disease are all independent risk factors for EBPR (all P < 0.001). Although the presence of arterial hypertension increased the likelihood of EBPR in the analysis of the entire population, the relevant association in subjects above 60 years old is statistically nonsignificant (P = 0.120). Notably, the pre-test systolic BP > 130 mmHg and/or diastolic BP > 80 mmHg level increased significantly the likelihood of manifesting EBPR in all age categories (<40, 40-60, and >60 years old) independent of hypertension presence and in all hypertensive patients independently of antihypertensive treatment intake (all P < 0.001).

CONCLUSIONS

Considering the diagnostic and prognostic utility of EBPR during treadmill EST the clinical and resting hemodynamic parameters that increase the likelihood of EBPR are targets for interventions and preventive measures to modify lifestyle risk behaviors and reduce hypertension and cardiovascular risk factors in the early stages.

Interleukin-1 type 1 receptor blockade attenuates the exaggerated exercise pressor reflex in male UC Davis type 2 diabetic mellitus rats

An exaggerated exercise pressor reflex and peripheral neuropathy are both evoked by the same type of thinly myelinated afferents and are present in patients with type 2 diabetes mellitus (T2DM). Although it is known that the pro-inflammatory cytokine interleukin-1β (IL-1β) contributes to peripheral neuropathy, the effects of IL-1β on the exercise pressor reflex in T2DM are not known. Therefore, we aimed to determine the effect of IL-1 receptors on the exercise pressor reflex in T2DM. We compared changes in peak pressor (mean arterial pressure; ΔMAP), blood pressure index (ΔBPi), heart rate (ΔHR) and heart rate index (ΔHRi) responses to static and intermittent contractions and tendon stretch before and after peripheral IL-1 type 1 receptor blockade (anakinra, Kineret®) in T2DM and healthy male rats and IL-1 receptor activation (IL-1β) in healthy rats. Blocking IL-1 receptors significantly attenuated the ΔMAP and ΔBPi to static contraction in T2DM rats. Furthermore, blocking IL-1 receptors significantly attenuated the ΔMAP, ΔBPi and ΔHRi to intermittent contraction, and ΔMAP to tendon stretch in T2DM rats (all P < 0.05). In addition, IL-1 receptor activation significantly exaggerated the ΔMAP and ΔBPi to static contraction and ΔMAP, ΔBPi and ΔHR to intermittent contraction in healthy rats, all P < 0.05. Furthermore, circulating IL-1β serum concentrations were significantly greater in T2DM rats than in healthy rats (P < 0.05). We conclude that IL-1 signalling contributes to the exaggerated exercise pressor reflex in T2DM, suggesting for the first time that inflammatory cytokines play a critical role in exaggerated blood pressure responses to exercise in those with T2DM. KEY POINTS: Chronic inflammation, a complication of type 2 diabetes mellitus (T2DM), causes increased production of pro-inflammatory cytokines, such as interleukin (IL)-1β, IL-6, and tumour necrosis factor-α. IL-1β has been shown to sensitize muscle afferents that conduct the exercise pressor reflex. We found blocking of IL-1 receptors by anakinra (Kineret®), an IL-1 type 1 receptor antagonist, significantly attenuated the exaggerated exercise pressor reflex in T2DM rats, but not in healthy rats. In addition, activating IL-1 receptors with IL-1β significantly augmented the exercise pressor reflex in healthy rats. Our findings suggest that IL-1 receptors, by mediating IL-1β signalling, play a role in exaggerating the exercise pressor reflex in T2DM. These results highlight the complex interplay between inflammation and the autonomic nervous system in regulating cardiovascular function, and the potential for using an FDA-approved IL-1 receptor antagonist, Kineret®, as a therapeutic approach to reduce adverse cardiovascular events during physical activity in those with T2DM.

Vascular limitations in blood pressure regulation with age in women: Insights from exercise and acute cardioselective β-blockade

Younger women rely on altering cardiac output (Q ̇ $\dot{Q}$ ) to regulate blood pressure (BP). In contrast, older women rely more on altering vascular tone. However, evidence suggests that the ability to alter systemic vascular conductance (SVC) is diminished in older women. In the present study, cardioselective β-blockade was utilized to diminish the relative contribution ofQ ̇ $\dot{Q}$ to BP regulation and thereby evaluate age-related vascular limitations in women at rest and during large muscle dynamic exercise. Younger (n = 13, mean age 26.0 years) and older (n = 14, mean age 61.8 years) healthy women performed submaximal bouts of semi-recumbent cycling exercise at varying intensities while receiving an intravenous infusion of esmolol, a β1-antagonist, or saline control in a repeated-measures crossover design.Q ̇ $\dot{Q}$ was attenuated during esmolol infusion, with greater reductions during exercise (moderate, -1.0 (95% CI, -1.6 to -0.5) L/min, P < 0.001; heavy, -2.0 (95% CI, -2.6 to -1.5) L/min, P < 0.001) than seated rest (-0.5 (95% CI, -1.1 to 0.0) L/min, P = 0.048), and this reduction was not significantly different between age groups (P = 0.122). Older women exhibited a greater attenuation in mean arterial pressure (MAP) during esmolol (-7 (95% CI, -9 to -4) mmHg, P < 0.001) relative to younger women (-2 (95% CI, -5 to 0) mmHg, P = 0.071). These changes coincided with a greater reduction of SVC in the younger women during esmolol (-15 (95% CI, -20 to -10) mL/min/mmHg, P < 0.001) compared to older women (-3 (95% CI, -9 to 2) mL/min/mmHg, P = 0.242). Together, these findings provide evidence that older, postmenopausal women have a diminished ability to adjust SVC in order to regulate MAP.

Sex-Specific Differences in Cardiovascular Adaptations and Risks in Elite Athletes: Bridging the Gap in Sports Cardiology

BACKGROUND

The growing participation of women in competitive sports necessitates a comprehensive understanding of sex-specific cardiovascular adaptations and risks. Historically, research has predominantly focused on male athletes, leaving a gap in knowledge about the unique cardiovascular dynamics of female peers.

HYPOTHESIS

we hypothesized that female athletes exhibit distinct cardiovascular adaptations and face different risks, influenced by physiological, hormonal, and structural differences.

METHODS

A systematic review of the literature was conducted, analyzing studies on cardiovascular responses and adaptations in athletes. Data were extracted on hemodynamic changes, autonomic and neural reflex regulation, cardiac remodeling, and arrhythmias. Comparative analyses were performed to identify sex-specific patterns and discrepancies in cardiovascular health outcomes.

RESULTS

We revealed considerable sex differences in cardiovascular adaptations to athletic training. Female athletes generally have longer QT intervals, greater sinoatrial node automaticity, and enhanced atrioventricular node function compared to males. They also exhibit lower sympathetic activity, lower maximal stroke volumes, and a tendency toward eccentric cardiac remodeling. Conversely, male athletes are more prone to concentric hypertrophy and higher incidences of bradyarrhythmia and accessory pathway arrhythmias. Female athletes are more likely to experience symptomatic atrial fibrillation and face higher procedural complications during catheter ablation.

CONCLUSIONS

Our findings underscore the necessity for sex-specific approaches in sports cardiology. Recognizing and addressing these differences could enhance performance and reduce adverse cardiac events in athletes. Future research should focus on developing tailored screening, prevention, and treatment strategies to bridge the knowledge gap and promote cardiovascular health in both male and female athletes.