Abstract
Cryostimulation is currently seen as a potential adjuvant strategy to tackle obesity and dysmetabolism by triggering cold-induced thermogenesis. Although suggestive, the underlying mechanisms are still poorly elucidated. We tested whether single or repeated applications of partial-body cryostimulation (PBC) could influence resting energy expenditure (REE) in exposed individuals. Fifteen middle-aged obese and sixteen control lean women (body mass index 31 ± 1.6 kg/m2 and 22 ± 1.7 kg/m2) underwent a daily PBC (−130 °C × 150 s) for five consecutive days. Resting energy metabolism (REE) was assessed by indirect calorimetry pre- and post-PBC on day 1 and day 5. As concerns REE, the linear mixed model revealed that REE changes were explained by session and time (F1,29 = 5.58; p = 0.02; ƞp2 = 0.16) independent of the group (F1,29 = 2.9; p = 0.09; ƞp2 = 0.09). REE pre-PBC increased from day 1 to day 5 either in leans (by 8.2%, from 1538 ± 111 to 1665 ± 106 kcal/day) or in obese women (by 5.5%, from 1610 ± 110 to 1698 ± 142 vs kcal/day). Respiratory quotient was significantly affected by the time (F1,29 = 51.61; p < 0.000001, ƞp2 = 0.64), as it increased from pre- to post-PBC, suggesting a shift in substrate oxidation. According to these preliminary data, cold-induced thermogenesis could be explored as a strategy to elevate REE in obese subjects. Longitudinal studies could test whether chronic PBC effects may entail favorable metabolic adaptations.
Highlights
Introduction iationsObesity constitutes a global health burden [1] and is defined as the overexpansion of white adipose tissue (WAT) leading to ponderal excess (BMI ≥ 30 kg/m2 )
Baseline resting energy expenditure (REE) resulted to be higher in the obese women with respect to lean controls
We investigated whether sessions of partialbody cryostimulation (PBC) carried out on five consecutive days might produce greater increase in REE in lean and obese subjects
Summary
Obesity constitutes a global health burden [1] and is defined as the overexpansion of white adipose tissue (WAT) leading to ponderal excess (BMI ≥ 30 kg/m2 ). It is commonly featured by a variable degree of low-grade inflammation and immune cells infiltration in WAT [2]. Adipocytes are plastic cells [3] capable of adapting their biological profile according to environmental changes, in the effort to ensure energy homeostasis. When exposed to energy excess, adipocytes undergo morphological and biochemical changes, which promote cell dysfunction and the development of local and systemic inflammatory response [2].
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