Integrative physiological and behavioural responses to sudden cold-water immersion are similar in skilled and less-skilled swimmers

Abstract We examined the initial physiological responses and subsequent capacity to swim following cold-water immersion. An ecologically-valid model was used whereby immersion was sudden (< 2 s) and participants had to actively remain afloat. Participants (15 skilled swimmers, 17 less-skilled swi...

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Bibliographic Details
Published in:Physiology & behavior 2015-01, Vol.138, p.254-259
Main Authors: Button, Chris, Croft, James L, Cotter, James D, Graham, Matthew J, Lucas, Samuel J.E
Format: Article
Language:English
Subjects:
Adolescent
Adult
Athletes
Brain - blood supply
Brain - physiopathology
Cerebrovascular Circulation - physiology
Cold shock
Cold Temperature - adverse effects
Drowning
Humans
Hyperventilation
Hypocapnia - etiology
Hypocapnia - physiopathology
Middle Aged
Motor Activity - physiology
Psychiatry
Respiration
Severity of Illness Index
Shock - etiology
Shock - physiopathology
Survival
Swimming - physiology
Treading water
Water
Young Adult
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Summary:Abstract We examined the initial physiological responses and subsequent capacity to swim following cold-water immersion. An ecologically-valid model was used whereby immersion was sudden (< 2 s) and participants had to actively remain afloat. Participants (15 skilled swimmers, 17 less-skilled swimmers) undertook four experimental test sessions: a physiological test and a swimming test in both cold (10 °C) water and temperate (27 °C) water in a swimming flume (temperature order counter-balanced). For physiological testing, measures of brain perfusion [flow velocity (MCAv, Doppler) and oxygenation (NIRS)] and cardiorespiratory function [ventilation parameters and end-tidal PCO2 (PET CO2 )] were recorded whilst treading water for 150 s. The swimming test involved treading water (150 s) before swimming at 60% (up to 120 s) and 90% (to intolerance) of pre-determined maximum velocity. Multifactorial analysis revealed that swimming duration was influenced most heavily by water temperature, followed by respiratory variables and MCAv in the first 30 s of immersion. The time course and severity of cold shock were similar in both groups ( p = 0.99), in terms of initial physiological changes (MCAv down ~ 20 ± 11%, respiratory frequency increased to 58 ± 18 breaths·min − 1 , PET CO2 dropped to 12 ± 9 mm Hg). Treading water following cold-water immersion increased MCAv by 30% above resting values despite maintained cold-shock-induced hyperventilation. In comparison to temperate water, swimming capacity was also reduced similarly between groups in the cold (i.e., distance decreased by 34 ± 26% skilled; 41 ± 33% less-skilled, p = 0.99). These integrative findings verify that sudden cold-water immersion followed by physical activity leads to similar physiological responses in humans when contrasting between skilled and less-skilled swimmers.
ISSN:0031-9384
1873-507X
DOI:10.1016/j.physbeh.2014.10.024