The maintenance of core temperature in SCUBA divers: Contributions of anthropometrics, patent foramen ovale, and non-shivering thermogenesis

IF 3 2区医学 Q1 SPORT SCIENCES Journal of science and medicine in sport Pub Date : 2024-12-01 DOI:10.1016/j.jsams.2024.07.010

Karleigh E. Bradbury , Kaitlyn G. DiMarco , Joel E. Futral , Rachel N. Lord , Justin A. Edward , Otto Barak , Igor Glavičić , Ivana Miloš , Ivan Drvis , Željko Dujić , Andrew T. Lovering

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Abstract

Objectives

To determine the influence of a patent foramen ovale and fibroblast growth factor-21 on core temperature (Tc) responses in SCUBA divers. Additionally, we aimed to quantify the individual and combined influences of wetsuit thickness and anthropometric data on Tc changes during the dives.

Design

An experimental study comparing the Tc responses between divers with (n = 17) and without a patent foramen ovale (n = 14).

Methods

A total of 31 divers participated in the study. Tc was measured pre- and post-dive in 17–18 °C sea water using a telemetric pill. Additionally, blood was drawn pre-dive and ~ 1–2 h post-dive for measurement of fibroblast growth factor-21.

Results

There was no influence of a patent foramen ovale on the Tc responses during SCUBA diving in either dive profile (p > 0.05). Additionally, there was no influence of SCUBA diving on fibroblast growth factor-21 concentrations (p > 0.05). The strongest positive and significant associations with the ∆ Tc/min were found when multiplying wetsuit thickness in millimeters by body mass (r² = 0.3147, p = 0.0010), BMI (r² = 0.3123, p = 0.0011), and body surface area (r² = 0.2877, p = 0.0019). There was a significant, negative linear relationship between the body surface area to mass ratio and ∆ Tc/min (r² = 0.2812, p = 0.0032).

Conclusions

These data suggest that Tc regulation during recreational SCUBA diving can be facilitated in part by the appropriate choice of wetsuit thickness for a given set of anthropometric characteristics.

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水肺潜水员核心体温的维持：人体测量学、卵圆孔开口和非颤抖性产热的贡献

目的是确定卵圆孔未闭（PFO）和成纤维细胞生长因子-21（FGF-21）对 SCUBA 潜水员核心温度（Tc）反应的影响。此外，我们还旨在量化潜水期间潜水衣厚度和人体测量数据对 Tc 变化的单独和综合影响。实验研究比较了有 PFO 的潜水员（17 人）和没有 PFO 的潜水员（14 人）的 Tc 反应。共有 31 名潜水员参与了这项研究。使用遥测药丸在潜水前后测量 Tc。此外，还在潜水前和潜水后约 1-2 小时抽血测量 FGF-21。在两种潜水情况下，PFO 对 SCUBA 潜水期间的 Tc 反应均无影响（P > 0.05）。此外，SCUBA 潜水对 FGF-21 浓度也没有影响（p > 0.05）。当以毫米为单位的潜水衣厚度乘以体重（r = 0.3147，p = 0.0010）、体重指数（r = 0.3123，p = 0.0011）和体表面积（r = 0.2877，p = 0.0019）时，发现与 ∆Tc/min 的正相关性最强且最显著。体表面积与质量比和ΔTc/分钟之间存在明显的负线性关系（图 1E；r = 0.2812，p = 0.0032）。当考虑人体测量特征和潜水衣厚度时，Tc 反应的相关性最强。这些数据表明，根据特定的人体测量特征选择合适的潜水衣厚度，可以在一定程度上促进休闲水肺潜水过程中的核心温度调节。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of science and medicine in sport 医学-运动科学

CiteScore

7.40

自引率

10.00%

发文量

198

审稿时长

48 days

期刊介绍： The Journal of Science and Medicine in Sport is the official journal of Sports Medicine Australia (SMA) and is an an international refereed research publication covering all aspects of sport science and medicine. The Journal considers for publication Original research and Review papers in the sub-disciplines relating generally to the broad sports medicine and sports science fields: sports medicine, sports injury (including injury epidemiology and injury prevention), physiotherapy, podiatry, physical activity and health, sports science, biomechanics, exercise physiology, motor control and learning, sport and exercise psychology, sports nutrition, public health (as relevant to sport and exercise), and rehabilitation and injury management. Manuscripts with an interdisciplinary perspective with specific applications to sport and exercise and its interaction with health will also be considered.