Neural control of blood pressure is altered following isolated leg heating in aged humans

Engelland, Rachel E.; Hemingway, Holden W.; Tomasco, Olivia G.; Olivencia‐Yurvati, Albert H.; Romero, Steven A.

doi:10.1152/ajpheart.00019.2020

Cited by 15 publications

(17 citation statements)

References 59 publications

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“…However, studies exploring the recovery following hyperthermia, reported decreases in peripheral and/or leg (femoral–ankle region) arterial stiffness alongside an elevated core temperature (Caldwell et al, 2017 ; Cheng et al, 2021 ; Lee et al, 2018 ; Sugawara & Tomoto, 2021 ; Thomas et al, 2017 ). The latter observations contrast with the unaffected or small changes in arterial stiffness/distensibility, core temperature, and arterial pressure observed in the present and previous single leg heating studies (Chiesa et al, 2015 , 2016 ; Engelland et al, 2020 ; Takahashi et al, 2011 ). Previous studies have alluded to the possibility that a certain threshold of hyperthermic intensity—such that can initiate profound increases in core temperature and/or alterations in sympathetic activity—may be required to elicit reductions in arterial stiffness and associated increases in distensibility (Caldwell et al, 2017 ; Kaldur et al, 2016 ).…”

Section: Discussioncontrasting

confidence: 99%

Regional thermal hyperemia in the human leg: Evidence of the importance of thermosensitive mechanisms in the control of the peripheral circulation

et al. 2021

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Hyperthermia is thought to increase limb blood flow through the activation of thermosensitive mechanisms within the limb vasculature, but the precise vascular locus in which hyperthermia modulates perfusion remains elusive. We tested the hypothesis that local temperature‐sensitive mechanisms alter limb hemodynamics by regulating microvascular blood flow. Temperature and oxygenation profiles and leg hemodynamics of the common (CFA), superficial (SFA) and profunda (PFA) femoral arteries, and popliteal artery (POA) of the experimental and control legs were measured in healthy participants during: (1) 3 h of whole leg heating (WLH) followed by 3 h of recovery ( n = 9); (2) 1 h of upper leg heating (ULH) followed by 30 min of cooling and 1 h ULH bout ( n = 8); and (3) 1 h of lower leg heating (LLH) ( n = 8). WLH increased experimental leg temperature by 4.2 ± 1.2ºC and blood flow in CFA, SFA, PFA, and POA by ≥3‐fold, while the core temperature essentially remained stable. Upper and lower leg blood flow increased exponentially in response to leg temperature and then declined during recovery. ULH and LLH similarly increased the corresponding segmental leg temperature, blood flow, and tissue oxygenation without affecting these responses in the non‐heated leg segment, or perfusion pressure and conduit artery diameter across all vessels. Findings demonstrate that whole leg hyperthermia induces profound and sustained elevations in upper and lower limb blood flow and that segmental hyperthermia matches the regional thermal hyperemia without causing thermal or hemodynamic alterations in the non‐heated limb segment. These observations support the notion that heat‐activated thermosensitive mechanisms in microcirculation regulate limb tissue perfusion during hyperthermia.

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Section: Discussioncontrasting

confidence: 99%

Regional thermal hyperemia in the human leg: Evidence of the importance of thermosensitive mechanisms in the control of the peripheral circulation

et al. 2021

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“…These reductions in BP occurred despite the absence of appreciable changes in intestinal temperature, thus implying that elevations in core body temperature are not a prerequisite for the hypotensive effects of HT in PAD patients. The mechanisms by which HT lowers BP remains poorly defined, but emerging evidence suggests that, in contrast to Plasma IL-6 (pg/mL) Treatment: p = 0.55 Time: p<0.01 Interaction: p = 0.30 c young individuals, aged adults do not display the characteristic increase in muscle sympathetic nerve activity following leg heating (Engelland et al, 2020). It has thus been proposed that a blunted neural compensatory response to HT-induced increases in leg vascular conductance partly underlies the hypotensive effects observed in elderly individuals (Engelland et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

“…These reductions in BP occurred despite the absence of appreciable changes in intestinal temperature, thus implying that elevations in core body temperature are not a prerequisite for the hypotensive effects of HT in PAD patients. The mechanisms by which HT lowers BP remains poorly defined, but emerging evidence suggests that, in contrast to young individuals, aged adults do not display the characteristic increase in muscle sympathetic nerve activity following leg heating (Engelland et al., 2020). It has thus been proposed that a blunted neural compensatory response to HT‐induced increases in leg vascular conductance partly underlies the hypotensive effects observed in elderly individuals (Engelland et al., 2020).…”

Section: Discussionmentioning

confidence: 99%

Acute effects of leg heat therapy on walking performance and cardiovascular and inflammatory responses to exercise in patients with peripheral artery disease

et al. 2020

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Lower‐extremity peripheral artery disease (PAD) is associated with increased risk of cardiovascular events and impaired exercise tolerance. We have previously reported that leg heat therapy (HT) applied using liquid‐circulating trousers perfused with warm water increases leg blood flow and reduces blood pressure (BP) and the circulating levels of endothelin‐1 (ET‐1) in patients with symptomatic PAD. In this sham‐controlled, randomized, crossover study, sixteen patients with symptomatic PAD (age 65 ± 5.7 years and ankle‐brachial index: 0.69 ± 0.1) underwent a single 90‐min session of HT or a sham treatment prior to a symptom‐limited, graded cardiopulmonary exercise test on the treadmill. The primary outcome was the peak walking time (PWT) during the exercise test. Secondary outcomes included the claudication onset time (COT), resting and exercise BP, calf muscle oxygenation, pulmonary oxygen uptake (V̇O2), and plasma levels of ET‐1, interleukin‐6 (IL‐6) and tumor necrosis factor‐alpha (TNF‐α). Systolic, but not diastolic BP, was significantly lower (~7 mmHg, p < .05) during HT when compared to the sham treatment. There was also a trend for lower SBP throughout the exercise and the recovery period following HT (p = .057). While COT did not differ between treatments (p = .77), PWT tended to increase following HT (CON: 911 ± 69 s, HT: 954 ± 77 s, p = .059). Post‐exercise plasma levels of ET‐1 were also lower in the HT session (CON: 2.0 ± 0.1, HT: 1.7 ± 0.1, p = .02). Calf muscle oxygenation, V̇O2, COT, IL‐6, and TNF‐α did not differ between treatments. A single session of leg HT lowers BP and post‐exercise circulating levels of ET‐1 and may enhance treadmill walking performance in symptomatic PAD patients.

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“…The mechanism/s mediating the sustained increase in systemic vascular conductance and reduction in arterial blood pressure after acute heat exposure are yet to be fully elucidated. We recently utilized the microneurography technique to directly measure sympathetic nerve traffic in young and aged adults before and in recovery from acute leg heating (19). We found that the reduction in arterial blood pressure that occurs in aged adults 30 min after acute leg heating is mediated, in part, by a sympathoinhibitory effect that alters the compensatory neural response to hypotension.…”

Section: Cardiovascular Adjustments In Recovery From Acute Heat Exposurementioning

confidence: 99%

Cardiovascular Adjustments After Acute Heat Exposure

Romero

Richey

Hemingway

2022

Exercise and Sport Sciences Reviews

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Neural control of blood pressure is altered following isolated leg heating in aged humans

Cited by 15 publications

References 59 publications

Regional thermal hyperemia in the human leg: Evidence of the importance of thermosensitive mechanisms in the control of the peripheral circulation

Regional thermal hyperemia in the human leg: Evidence of the importance of thermosensitive mechanisms in the control of the peripheral circulation

Acute effects of leg heat therapy on walking performance and cardiovascular and inflammatory responses to exercise in patients with peripheral artery disease

Cardiovascular Adjustments After Acute Heat Exposure

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