Local heat application to the leg reduces muscle sympathetic nerve activity in human

Takahashi, Naohiko; Nakamura, Takeshi; Kanno, Nami; Kimura, Ken‐ichi; Toge, Yasushi; Lee, Kyu-Ha; Tajima, Fumihiro

doi:10.1007/s00421-011-1852-0

Cited by 17 publications

(12 citation statements)

References 41 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Although heat induces skin vasodilation, the heat application by a skin thermode with an area of 9.0 cm 2 is not sufficient to impact on peripheral blood flow control which would result in an increase in MSNA. In a previous study, local warming accompanied by skin vasodilation even reduced MSNA (Takahashi et al ., ). Our results on temperature‐specific activation of MSNA are in line with the thermal interference with the muscle metaboreflex during muscle work which is mediated via a circuit of thinly myelinated type III and unmyelinated type IV muscle afferents and sympathetic efferents (Mark et al ., ).…”

Section: Discussionmentioning

confidence: 97%

The impact of baroreflex function on endogenous pain control: a microneurography study

Lautenschläger

Habig

Best

et al. 2015

Eur J of Neuroscience

View full text Add to dashboard Cite

The interaction between sympathetic vasoconstrictor activity to muscles [muscle sympathetic nerve activity (MSNA), burst frequency (BF) and burst incidence (BI)] and different stress and somatosensory stimuli is still unclear. Eighteen healthy men (median age 28 years) underwent microneurography recordings from the peroneal nerve. MSNA was recorded during heat pain (HP) and cold pain (CP) alone as well as combined with different stress tasks (mental arithmetic, singing, giving a speech). An additional nine healthy men (median age 26 years) underwent the stimulation protocol with an additional control task (thermal pain combined with listening to music) to evaluate possible attentional confounders. MSNA was significantly increased by CP and HP. CP-evoked responses were smaller. The diastolic blood pressure followed the time course of MSNA while heart rate remained unchanged. The mental stress tasks further increased MSNA and were sufficient to reduce pain while the control task had no effect. MSNA activity correlated negatively with pain intensity and positively with analgesia. High blood pressure values were associated with lower pain intensity. Our study indicates an impact of central sympathetic drive on pain and pain control.

show abstract

Section: Discussionmentioning

confidence: 97%

The impact of baroreflex function on endogenous pain control: a microneurography study

Lautenschläger

Habig

Best

et al. 2015

Eur J of Neuroscience

View full text Add to dashboard Cite

show abstract

“…The onset of skin cooling can decrease the general level of MSNA (Kregel et al 1992) and whole body warming has been shown to increase it (Niimi et al 1997). Conversely, recording MSNA at sites local to the skin stimulation have found the opposite effect, where innocuous cold can increase MSNA, (Ishida et al 2016), whereas skin warming can decrease it (Takahashi et al 2011), which was thought to be part of a local regulatory reflex. The activation of Aβ lowthreshold mechanoreceptors via vibration can decrease MSNA (Strzalkowski et al 2016), as can transcutaneous electrical skin stimulation (Goswami et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Individual Variability of Pleasantness Ratings to Stroking Touch Over Different Velocities

et al. 2021

View full text Add to dashboard Cite

In homeostasis, somatosensory C fibre afferents are hypothesised to mediate input to the brain about interactions with external stimuli and sympathetic efference provides the output that regulates bodily functions. We aimed to test this hypothesis and whether different types of innocuous somatosensory input have differential effects. Healthy volunteers performed a muscle fatigue (hand-grip) task to exhaustion, which produces increased muscle sympathetic nerve activity (MSNA), as measured through microneurography. Participants completed the muscle fatigue task without concurrent cutaneous sensory stimulation (control) or we applied skin warming (heat pack) as a C fibre stimulation, slow brush stroking as C and Aβ fibre stimulation, or vibration as Aβ fibre stimulation, to the participant's forearm. We also measured heart rate, the duration of the hand-grip task, and ratings of pain at the end of the task. Concurrent skin warming showed increased MSNA compared to the other conditions. Tactile stimuli (brushing, vibration) were not significantly different to the control (no intervention) condition. Warming increased the pain from the muscle contraction, whereas the tactile stimuli did not. We interpret the effect of warming on MSNA as providing relevant afferent information during muscle contraction, which needed to be counteracted via vasoconstriction to maintain homeostasis. Brushing and vibration were less homeostatically relevant stimuli for the muscle contraction and hence had no significant effect. The findings add sensory specificity to our current understanding of homeostatic regulation through somatosensory afferent and sympathetic efferent pathways.

show abstract

“…In addition, the reduction of retrograde SR in the warm trial might be potentially induced by locally attenuated sympathetic activation in the forearm. Takahashi et al 29) reported that when the anterior region of the leg was locally warmed at 41 using a hydrocollator pack, MSNA in the peroneal nerve was significantly decreased irrespective of systemic change.…”

Section: Sr and Diameter In The Ba And Sbf In The Palm And Forearm During Exercisementioning

confidence: 99%

Effects of Unilateral Arm Warming or Cooling on the Modulation of Brachial Artery Shear Stress and Endothelial Function during Leg Exercise in Humans

Miura

Kashima

Morimoto

et al. 2021

JAT

View full text Add to dashboard Cite

Aim: We examined the effect of modulating the shear stress (SS) profile using forearm warming and cooling on subsequent endothelial function in the brachial artery (BA) during exercise. Methods: Twelve healthy young subjects immersed their right forearm in water (15°C or 42°C) during a leg cycling exercise at 120–130 bpm for 60 min. The same exercise without water immersion served as a control. The BA diameter and blood velocity were simultaneously recorded using Doppler ultrasonography to evaluate the antegrade, retrograde, and mean shear rates (SRs, an estimate of SS) before, during, and after exercise. The endothelial function in the right BA was evaluated using flow-mediated dilation (FMD) (%) using two-dimensional high-resolution ultrasonography before (baseline) and 15 and 60 min after exercise. Results: During exercise, compared with the control trial, higher antegrade and mean SRs and lower retrograde SRs were observed in the warm trial; conversely, lower antegrade and mean SRs and higher retrograde SRs were observed in the cool trial. At 15 min postexercise, no significant change was observed in the FMD from baseline in the warm (Δ%FMD: +1.6%, tendency to increase; p = 0.08) and control trials (Δ %FMD: +1.1%). However, in the cool trial, the postexercise FMD at 60 min decreased from baseline (Δ%FMD: −2.7%) and was lower than that of the warm (Δ%FMD: +1.5%) and control (Δ%FMD: +1.2%) trials. Accumulated changes in each SR during and after exercise were significantly correlated with postexercise FMD changes. Conclusion: Modulation of shear profiles in the BA during exercise appears to be associated with subsequent endothelial function.

show abstract

Local heat application to the leg reduces muscle sympathetic nerve activity in human

Cited by 17 publications

References 41 publications

The impact of baroreflex function on endogenous pain control: a microneurography study

The impact of baroreflex function on endogenous pain control: a microneurography study

Individual Variability of Pleasantness Ratings to Stroking Touch Over Different Velocities

Effects of Unilateral Arm Warming or Cooling on the Modulation of Brachial Artery Shear Stress and Endothelial Function during Leg Exercise in Humans

Contact Info

Product

Resources

About