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Food Intake During Cold Exposure: Effects of the Quantity of Food Ingested on Shivering and Nonshivering Thermogenesis

Humans are known as homeothermic endotherms. To ensure thermic balance at rest when exposed to cold, they dispose of two main thermogenic processes: shivering thermogenesis (ST) and non-shivering thermogenesis (NST). ST consists of involuntary muscle contractions and NST represents the component of Hprod that is not ST. While ST is difficult to tolerate, it is not yet known which nutrients and how much are required to stimulate NST and lower ST in the cold. Whether or not food caloric intake has an impact on the relative contribution of ST and NST to total Hprod remains to be determined. Therefore, the purpose of this thesis was 1) to quantify the effects of ingesting two quantities (1507 vs 3015 kJ) of same relative compositions on cold-induced whole-body Hprod and 2) to establish the effects of these two quantities of food on the relative contribution of ST and NST to total Hprod. Five healthy male participants were exposed to a 3h mild cold, using a liquid conditioned suit with water flowing at 15°C (COLD) or 33 °C (CON) for a total of 4 trials. Thermal, metabolic and shivering responses were measured at baseline, before and after shake ingestion. Results demonstrated that Hprod and ST intensity increased in the cold, while no significant differences were found between the ingested shakes at two different caloric equivalents. In addition, ST intensity did not change, which confirmed that NST remained the same between the two conditions. Thus, knowing that the caloric intake will not maximize the thermogenic effects in the cold (i.e. improve the comfort of the individual), is it more advantageous to bring food or additional clothing, for any activity? Clearly, more research on the exact pathways of each processes in the cold with food consumption needs to be made. To that extent, the investigation of the effect of food quality on changes in the thermogenic processes during cold exposure strikes us as a fascinating area for future research.

Identiferoai:union.ndltd.org:uottawa.ca/oai:ruor.uottawa.ca:10393/41588
Date21 December 2020
CreatorsFortin-Lacombe, Jessica
ContributorsHaman, François
PublisherUniversité d'Ottawa / University of Ottawa
Source SetsUniversité d’Ottawa
LanguageEnglish
Detected LanguageEnglish
TypeThesis
Formatapplication/pdf

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