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Water Immersion During the Labour and Effects on Oxidative Stress.
Sert, UY, Ozel, S, Neselioglu, S, Erel, O, Engin Ustun, Y
Fetal and pediatric pathology. 2020;(3):185-193
Abstract
Objective: The study aims to investigate maternal serum thiol/disulfide homeostasis and ischemia-modified albumin (IMA) levels of women who were submerged during labor. Material and methods: Sixty-four pregnant women were enrolled in this study. Thirty-four women were submerged during the first stage of labor and 30 women were not. Native thiol, total thiol, disulfide, albumin, IMA, disulfide/native thiol, disulfide/total thiol and native thiol/total thiol concentrations were measured and demographic data were obtained. Results: Cord blood pH, serum disulfide levels and (disulfide/total thiol) × 100 levels were significantly lower in the water immersion group (P < 0.01, P = 0.01 and P < 0.01, respectively). Native thiol, total thiol, albumin and IMA levels were higher in the water immersion group P < 0.01, P < 0.01, P = 0.001 and P < 0.01, respectively). Conclusion: Water immersion during the first stage of labor was found to be associated with deterioration of thiol-disulfide homeostasis with respect to antioxidant status while IMA levels were higher, suggesting an ischemic condition.
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Ictal Video-Electroencephalography Findings in Bathing Seizures: Two New Cases and Review of the Literature.
Mosquera-Gorostidi, A, Azcona-Ganuza, G, Yoldi-Petri, ME, García de Gurtubay, I, Aguilera-Albesa, S
Pediatric neurology. 2019;:76-81
Abstract
INTRODUCTION Reflex bathing seizures are described during the course of bathing in water near body temperature. These seizures differ from other epilepsies characterized by bathing-induced seizures such as hot water epilepsy, but there are few well-described patients and only some of these have been documented by ictal video-electroencephalography. METHODS Our objective was to characterize the clinical presentation of bathing-induced seizures demonstrated by ictal video-electroencephalographic recordings with water temperature below 38°C. We described two previously unreported infants and reviewed additional cases in the literature that fulfilled those criteria. RESULTS Eighteen infants were indentified. They were predominantly male (72%), and the mean age of seizure onset was 15 months (one to 36 months). The most frequent seizure triggers included pouring water over the face and immersion. Seizures were of focal onset with loss of awareness and prominent autonomic symptoms. Ictal video-electroencephalography revealed delta-theta high-amplitude focal waves involving temporal and adjacent regions, with a rapid spread to the ipsilateral hemisphere or generalization. Avoiding known triggers usually controlled the seizures, but carbamazepine, valproate, and levetiracetam were also helpful. Neuroimaging was normal in all cases, and neurodevelopment was unaffected. DISCUSSION Bathing seizures predominate in boys with an early onset and a benign self-limited course. The use of ictal video-electroencephalographic recordings in these cases leads to diagnosis and reveals individual differences in triggers.
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Head-out immersion in hot water increases serum BDNF in healthy males.
Kojima, D, Nakamura, T, Banno, M, Umemoto, Y, Kinoshita, T, Ishida, Y, Tajima, F
International journal of hyperthermia : the official journal of European Society for Hyperthermic Oncology, North American Hyperthermia Group. 2018;(6):834-839
Abstract
PURPOSE Brain-derived neurotrophic factor (BDNF) is an important neurotrophin. The present study investigated the effects of head-out water immersion (HOI) on serum BDNF concentrations. METHODS Eight healthy men performed 20 min head-out water immersion at 42 °C (hot-HOI) and 35 °C (neutral-HOI). These experimental trials were administered in a randomised order separated by at least 7 days. Venous blood samples were withdrawn at rest, immediately after the 20-min HOI, as well as at 15 and 30 min after the end of the HOI. Serum BDNF and S100β, plasma cortisol, platelet and monocyte counts, and core body temperature (Tcb) were measured. RESULTS Tcb was higher at the end of the hot-HOI and 15 min after hot-HOI (p < 0.01), but recovered to pre-HOI level at 30 min after hot-HOI. No change in Tcb was recorded during neutral-HOI. BDNF level was higher (p < 0.05) at the end of the hot-HOI and at 15 min after the end of hot-HOI, and returned to the baseline at 30 min after hot-HOI. S100β, platelet count and monocyte count remained stable throughout the study. Cortisol level was lower at the end of the hot-HOI and returned to pre-HOI level during the recovery period. BDNF and S100β, cortisol, and platelet and monocyte counts did not change throughout the neutral-HOI study. CONCLUSIONS The present findings suggested that the increase in BDNF during 20-min hot-HOI was induced by hyperthermia through enhanced production, rather than by changes in permeability of the blood-brain barrier (BBB), platelet clotting mechanisms or secretion from monocytes.
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Post-exercise recovery of biological, clinical and metabolic variables after different temperatures and durations of cold water immersion: a randomized clinical trial.
Vanderlei, FM, de Albuquerque, MC, de Almeida, AC, Machado, AF, Netto, J, Pastre, CM
The Journal of sports medicine and physical fitness. 2017;(10):1267-1275
Abstract
BACKGROUND Cold water immersion (CWI) is a commonly used recuperative strategy. However there is a lack of standardization of protocols considering the duration and temperature of application of the technique and the stress model. Therefore it is important to study the issue of dose response in a specific stress model. Thus the objective was to analyze and compare the effects of CWI during intense post-exercise recovery using different durations and temperatures of immersion. METHODS One hundred and five male individuals were divided into five groups: one control group (CG) and four recovery groups (G1: 5' at 9±1 °C; G2: 5' at 14±1 °C; G3: 15' at 9±1 °C; G4: 15' at 14±1 °C). The volunteers were submitted to an exhaustion protocol that consisted of a jump program and the Wingate Test. Immediately after the exhaustion protocol, the volunteers were directed to a tank with water and ice, where they were immersed for the recovery procedure, during which blood samples were collected for later lactate and creatine kinase (CK) analysis. Variables were collected prior to the exercise and 24, 48, 72, and 96 hours after its completion. RESULTS For the CK concentration, 15 minutes at 14 °C was the best intervention option, considering the values at 72 hours after exercise, while for the moment of peak lactate an advantage was observed for immersion for 5 minutes at 14 °C. Regarding the perception of recovery, CWI for 5 minutes at 14 °C performed better long-term, from the time of the intervention to 96 hours post-exercise. For pain, no form of immersion responded better than the CG at the immediately post-intervention moment. CONCLUSIONS There were no differences in behavior between the CWI intervention groups for the outcomes studied.
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Treadmill walking in water induces greater respiratory muscle fatigue than treadmill walking on land in healthy young men.
Yamashina, Y, Yokoyama, H, Naghavi, N, Hirasawa, Y, Takeda, R, Ota, A, Imai, D, Miyagawa, T, Okazaki, K
The journal of physiological sciences : JPS. 2016;(3):257-64
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Abstract
The purpose of the present study was to investigate the effect of walking in water on respiratory muscle fatigue compared with that of walking on land at the same exercise intensity. Ten healthy males participated in 40-min treadmill walking trials on land and in water at an intensity of 60% of peak oxygen consumption. Respiratory function and respiratory muscle strength were evaluated before and after walking trials. Inspiratory muscle strength and forced expiratory volume in 1 s were significantly decreased immediately after walking in water, and expiratory muscle strength was significantly decreased immediately and 5 min after walking in water compared with the baseline. The decreases of inspiratory and expiratory muscle strength were significantly greater compared with that after walking on land. In conclusion, greater inspiratory and expiratory muscle fatigue was induced by walking in water than by walking on land at the same exercise intensity in healthy young men.
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Use of Cold-Water Immersion to Reduce Muscle Damage and Delayed-Onset Muscle Soreness and Preserve Muscle Power in Jiu-Jitsu Athletes.
Fonseca, LB, Brito, CJ, Silva, RJ, Silva-Grigoletto, ME, da Silva, WM, Franchini, E
Journal of athletic training. 2016;(7):540-9
Abstract
CONTEXT Cold-water immersion (CWI) has been applied widely as a recovery method, but little evidence is available to support its effectiveness. OBJECTIVE To investigate the effects of CWI on muscle damage, perceived muscle soreness, and muscle power recovery of the upper and lower limbs after jiu-jitsu training. DESIGN Crossover study. SETTING Laboratory and field. PATIENTS OR OTHER PARTICIPANTS A total of 8 highly trained male athletes (age = 24.0 ± 3.6 years, mass = 78.4 ± 2.4 kg, percentage of body fat = 13.1% ± 3.6%) completed all study phases. INTERVENTION(S): We randomly selected half of the sample for recovery using CWI (6.0°C ± 0.5°C) for 19 minutes; the other participants were allocated to the control condition (passive recovery). Treatments were reversed in the second session (after 1 week). MAIN OUTCOME MEASURE(S): We measured serum levels of creatine phosphokinase, lactate dehydrogenase (LDH), aspartate aminotransferase, and alanine aminotransferase enzymes; perceived muscle soreness; and recovery through visual analogue scales and muscle power of the upper and lower limbs at pretraining, postrecovery, 24 hours, and 48 hours. RESULTS Athletes who underwent CWI showed better posttraining recovery measures because circulating LDH levels were lower at 24 hours postrecovery in the CWI condition (441.9 ± 81.4 IU/L) than in the control condition (493.6 ± 97.4 IU/L; P = .03). Estimated muscle power was higher in the CWI than in the control condition for both upper limbs (757.9 ± 125.1 W versus 695.9 ± 56.1 W) and lower limbs (53.7 ± 3.7 cm versus 35.5 ± 8.2 cm; both P values = .001). In addition, we observed less perceived muscle soreness (1.5 ± 1.1 arbitrary units [au] versus 3.1 ± 1.0 au; P = .004) and higher perceived recovery (8.8 ± 1.9 au versus 6.9 ± 1.7 au; P = .005) in the CWI than in the control condition at 24 hours postrecovery. CONCLUSIONS Use of CWI can be beneficial to jiu-jitsu athletes because it reduces circulating LDH levels, results in less perceived muscle soreness, and helps muscle power recovery at 24 hours postrecovery.
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The effect of different water immersion temperatures on post-exercise parasympathetic reactivation.
de Oliveira Ottone, V, de Castro Magalhães, F, de Paula, F, Avelar, NC, Aguiar, PF, da Matta Sampaio, PF, Duarte, TC, Costa, KB, Araújo, TL, Coimbra, CC, et al
PloS one. 2014;(12):e113730
Abstract
PURPOSE We evaluated the effect of different water immersion (WI) temperatures on post-exercise cardiac parasympathetic reactivation. METHODS Eight young, physically active men participated in four experimental conditions composed of resting (REST), exercise session (resistance and endurance exercises), post-exercise recovery strategies, including 15 min of WI at 15°C (CWI), 28°C (TWI), 38°C (HWI) or control (CTRL, seated at room temperature), followed by passive resting. The following indices were assessed before and during WI, 30 min post-WI and 4 hours post-exercise: mean R-R (mR-R), the natural logarithm (ln) of the square root of the mean of the sum of the squares of differences between adjacent normal R-R (ln rMSSD) and the ln of instantaneous beat-to-beat variability (ln SD1). RESULTS The results showed that during WI mRR was reduced for CTRL, TWI and HWI versus REST, and ln rMSSD and ln SD1 were reduced for TWI and HWI versus REST. During post-WI, mRR, ln rMSSD and ln SD1 were reduced for HWI versus REST, and mRR values for CWI were higher versus CTRL. Four hours post exercise, mRR was reduced for HWI versus REST, although no difference was observed among conditions. CONCLUSIONS We conclude that CWI accelerates, while HWI blunts post-exercise parasympathetic reactivation, but these recovery strategies are short-lasting and not evident 4 hours after the exercise session.
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Influence of different levels of immersion in water on the pulmonary function and respiratory muscle pressure in healthy individuals: observational study.
de Andrade, AD, Júnior, JC, Lins de Barros Melo, TL, Rattes Lima, CS, Brandão, DC, de Melo Barcelar, J
Physiotherapy research international : the journal for researchers and clinicians in physical therapy. 2014;(3):140-6
Abstract
BACKGROUND AND PURPOSE Immersion in water, with the head above the water line, causes acute physiological changes in the pulmonary and cardiovascular systems. The aim of this study was to evaluate the acute physiological responses to immersion on lung volumes and respiratory muscle strength at different depths. METHODS A cross-sectional study was conducted in 28 healthy individuals (21.75 ± 1.99 years; 13 men and 15 women). Anthropometric and spirometric data as well as respiratory muscle strength were evaluated. Evaluations were carried out on dry land (DL) and in a pool at three different levels of immersion: iliac crests (IC), xiphoid appendix of the sternum (XA) and clavicles (CL). The order of evaluation for spirometry and maximal inspiratory and expiratory pressures between DL and the different levels of immersion was randomized. The ANOVA test for repeated measures with post hoc Tukey was applied to compare the variables. RESULTS Vital capacity exhibited lower values at the CL level compared with DL, XA and IC (p < 0.01). The most significant change in forced expiratory volume in the first second (FEV(1)) occurred under immersion at CL and XA levels. No differences in maximal expiratory pressure were found in the comparisons between the different levels of immersion and DL (p = 0.19). There was nevertheless a decrease in maximum inspiratory pressure with immersion at the CL level (91 ± 23 cmH(2)O) compared with DL (105 ± 29 cmH(2)O), XA (99 ± 24 cmH(2)O) and IC (101 ± 25 cmH(2)O) values (p < 0.01). CONCLUSION The results suggest that immersion at the level of the clavicles and xiphoid appendix alters lung function and respiratory muscle strength when compared with the values measured out of the water and immersed at the IC level in healthy individuals, demonstrating the influence of hydrostatic pressure on the respiratory system.
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Cardiovascular and autonomic responses to physiological stressors before and after six hours of water immersion.
Florian, JP, Simmons, EE, Chon, KH, Faes, L, Shykoff, BE
Journal of applied physiology (Bethesda, Md. : 1985). 2013;(9):1275-89
Abstract
The physiological responses to water immersion (WI) are known; however, the responses to stress following WI are poorly characterized. Ten healthy men were exposed to three physiological stressors before and after a 6-h resting WI (32-33°C): 1) a 2-min cold pressor test, 2) a static handgrip test to fatigue at 40% of maximum strength followed by postexercise muscle ischemia in the exercising forearm, and 3) a 15-min 70° head-up-tilt (HUT) test. Heart rate (HR), systolic and diastolic blood pressure (SBP and DBP), cardiac output (Q), limb blood flow (BF), stroke volume (SV), systemic and calf or forearm vascular resistance (SVR and CVR or FVR), baroreflex sensitivity (BRS), and HR variability (HRV) frequency-domain variables [low-frequency (LF), high-frequency (HF), and normalized (n)] were measured. Cold pressor test showed lower HR, SBP, SV, Q, calf BF, LFnHRV, and LF/HFHRV and higher CVR and HFnHRV after than before WI (P < 0.05). Handgrip test showed no effect of WI on maximum strength and endurance and lower HR, SBP, SV, Q, and calf BF and higher SVR and CVR after than before WI (P < 0.05). During postexercise muscle ischemia, HFnHRV increased from baseline after WI only, and LFnHRV was lower after than before WI (P < 0.05). HUT test showed lower SBP, DBP, SV, forearm BF, and BRS and higher HR, FVR, LF/HFHRV, and LFnHRV after than before WI (P < 0.05). The changes suggest differential activation/depression during cold pressor and handgrip (reduced sympathetic/elevated parasympathetic) and HUT (elevated sympathetic/reduced parasympathetic) following 6 h of WI.
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Short term effects of various water immersions on recovery from exhaustive intermittent exercise.
Pournot, H, Bieuzen, F, Duffield, R, Lepretre, PM, Cozzolino, C, Hausswirth, C
European journal of applied physiology. 2011;(7):1287-95
Abstract
In order to investigate the effectiveness of different techniques of water immersion recovery on maximal strength, power and the post-exercise inflammatory response in elite athletes, 41 highly trained (Football, Rugby, Volleyball) male subjects (age = 21.5 ± 4.6 years, mass = 73.1 ± 9.7 kg and height = 176.7 ± 9.7 cm) performed 20 min of exhaustive, intermittent exercise followed by a 15 min recovery intervention. The recovery intervention consisted of different water immersion techniques, including: temperate water immersion (36°C; TWI), cold water immersion (10°C; CWI), contrast water temperature (10-42°C; CWT) and a passive recovery (PAS). Performances during a maximal 30-s rowing test (P(30 s)), a maximal vertical counter-movement jump (CMJ) and a maximal isometric voluntary contraction (MVC) of the knee extensor muscles were measured at rest (Pre-exercise), immediately after the exercise (Post-exercise), 1 h after (Post 1 h) and 24 h later (Post 24 h). Leukocyte profile and venous blood markers of muscle damage (creatine kinase (CK) and lactate dehydrogenase (LDH)) were also measured Pre-exercise, Post 1 h and Post 24 h. A significant time effect was observed to indicate a reduction in performance (Pre-exercise vs. Post-exercise) following the exercise bout in all conditions (P < 0.05). Indeed, at 1 h post exercise, a significant improvement in MVC and P(30 s) was respectively observed in the CWI and CWT groups compared to pre-exercise. Further, for the CWI group, this result was associated with a comparative blunting of the rise in total number of leucocytes at 1 h post and of plasma concentration of CK at 24 h post. The results indicate that the practice of cold water immersion and contrast water therapy are more effective immersion modalities to promote a faster acute recovery of maximal anaerobic performances (MVC and 30″ all-out respectively) after an intermittent exhaustive exercise. These results may be explained by the suppression of plasma concentrations of markers of inflammation and damage, suggesting reduced passive leakage from disrupted skeletal muscle, which may result in the increase in force production during ensuing bouts of exercise.