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RESEARCH PRODUCT
Breathing 100% oxygen during water immersion improves postimmersion cardiovascular responses to orthostatic stress
Barbara E ShykoffJohn P. FlorianKi H. ChonLuca FaesLuca Faessubject
AdultMalemedicine.medical_specialtyCardiac outputPhysiologyDivingOrthostatic intoleranceHemodynamicsBlood PressureNeurological Conditions Disorders and Treatments03 medical and health sciencesOrthostatic vital signs0302 clinical medicinePhysiology (medical)Internal medicineHeart rateImmersionMedicineAutonomic nervous systemblood flowHumansOriginal ResearchPresyncopeRespiratory Conditions Disorder and DiseasesHyperbaric Oxygenationbusiness.industryRespirationheart rate variabilityHeartStroke Volume030229 sport sciencesmedicine.diseaseSurgeryOxygenmedicine.anatomical_structureBlood pressureAutonomic nervous system; Blood flow; Blood pressure; Heart rate variability; Hyperoxia; Orthostatic tolerance; Water immersion; Adult; Diving; Humans; Hyperbaric Oxygenation; Immersion; Male; Orthostatic Intolerance; Oxygen; Vascular Resistance; Blood Pressure; Respiration; Stroke Volume; Physiology; Physiology (medical)Settore ING-INF/06 - Bioingegneria Elettronica E InformaticaVascular resistanceCardiologyOrthostatic Intolerancehyperoxiawater immersionorthostatic toleranceVascular Resistancebusiness030217 neurology & neurosurgeryHumandescription
Abstract Physiological compensation to postural stress is weakened after long‐duration water immersion (WI), thus predisposing individuals to orthostatic intolerance. This study was conducted to compare hemodynamic responses to postural stress following exposure to WI alone (Air WI), hyperbaric oxygen alone in a hyperbaric chamber (O 2 HC), and WI combined with hyperbaric oxygen (O 2 WI), all at a depth of 1.35 ATA, and to determine whether hyperbaric oxygen is protective of orthostatic tolerance. Thirty‐two healthy men underwent up to 15 min of 70° head‐up tilt (HUT) testing before and after a single 6‐h resting exposure to Air WI ( N = 10), O 2 HC ( N = 12), or O 2 WI ( N = 10). Heart rate (HR), blood pressure (BP), cardiac output (Q), stroke volume (SV), forearm blood flow (FBF), and systemic and forearm vascular resistance (SVR and FVR) were measured. Although all subjects completed HUT before Air WI, three subjects reached presyncope after Air WI exposure at 10.4, 9.4, and 6.9 min. HUT time did not change after O 2 WI or O 2 HC exposures. Compared to preexposure responses, HR increased (+10 and +17%) and systolic BP (−13 and −8%), and SV (−16 and −23%) decreased during HUT after Air WI and O 2 WI, respectively. In contrast, HR and SV did not change, and systolic (+5%) and diastolic BP (+10%) increased after O 2 HC. Q decreased (−13 and −7%) and SVR increased (+12 and +20%) after O 2 WI and O 2 HC, respectively, whereas SVR decreased (−9%) after Air WI. Opposite patterns were evident following Air WI and O 2 HC for FBF (−26 and +52%) and FVR (+28 and −30%). Therefore, breathing hyperbaric oxygen during WI may enhance post‐WI cardiovascular compensatory responses to orthostatic stress.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-12-01 | Physiological Reports |