Daryl M G Hurrie, Morteza Talebian Nia, Kevin Power, Katinka Stecina, Phillip Gardiner, Evan Lockyer, Gordon G Giesbrecht
Applied physiology, nutrition, and metabolism = Physiologie appliquee, nutrition et metabolisme 2022 FebCold stress impairs fine and gross motor movements. Although peripheral effects of muscle cooling on performance are well understood, less is known about central mechanisms. This study characterized corticospinal and spinal excitability during surface cooling, reducing skin (Tsk) and esophageal (Tes) temperatures. Ten subjects (3 females) wore a liquid-perfused suit and were cooled (9 °C perfusate, 90 min) and rewarmed (41 °C perfusate, 30 min). Transcranial magnetic stimulation (eliciting motor evoked potentials [MEPs]), as well as transmastoid (eliciting cervicomedullary evoked potentials [CMEPs]) and brachial plexus (eliciting maximal compound motor action potentials [Mmax]) electrical stimulation, were applied at baseline, every 20 min during cooling, and following rewarming. Sixty minutes of cooling reduced Tsk by 9.6 °C (P < 0.001), but Tes remained unchanged (P = 0.92). Tes then decreased by ∼0.6 °C in the next 30 min of cooling (P < 0.001). Eight subjects shivered. During rewarming, shivering was abolished, and Tsk returned to baseline, while Tes did not increase. During cooling and rewarming, Mmax, MEP, and MEP/Mmax remained unchanged from baseline. However, CMEP and CMEP/Mmax increased during cooling by ∼85% and 79% (P < 0.001), respectively, and remained elevated post-rewarming. The results suggest that spinal excitability is facilitated by reduced Tsk during cooling and reduced Tes during warming, while corticospinal excitability remains unchanged. ClinicalTrials.gov ID: NCT04253730. Novelty: This is the first study to characterize corticospinal and spinal excitability during whole-body cooling and rewarming in humans. Whole body cooling did not affect corticospinal excitability. Spinal excitability was facilitated during reductions in both skin and core temperatures.
Daryl M G Hurrie, Morteza Talebian Nia, Kevin Power, Katinka Stecina, Phillip Gardiner, Evan Lockyer, Gordon G Giesbrecht. Spinal and corticospinal excitability in response to reductions in skin and core temperatures via whole-body cooling. Applied physiology, nutrition, and metabolism = Physiologie appliquee, nutrition et metabolisme. 2022 Feb;47(2):195-205
PMID: 34582724
View Full Text