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The Effects of Cold Water Immersion on Fractioned Response TimeRomney, Patricia Jean 23 April 2009 (has links) (PDF)
Objectives: Quantify the effects of cold water immersion of the ankle on fractioned response time of the dominant lower limb. Design and Setting: A 2x2x5x5 crossover design with repeated measures on time and treatment directed data collection. The independent variables were gender, treatment, time (pretreatment, and post 15 seconds, 3 minutes 6 minutes and 9 minutes) and trial (5 trials for each time group). Response time (Tresp), reaction time (Treac), trial and surface temperature were measurement variables. Subjects: Thirty-six subjects, 18 females and 18 males were recruited from a physically active volunteer college student population. Measurements: Fractioned response time was tested following a 20 minute treatment. Response time and Treac were recorded by the reaction timer, and Tmov was calculated by taking the difference between Tresp and Treac. For each time/subject the high and low Tresp were discarded and the middle three trials were averaged and used for statistical analysis. A 2x2x5 ANOVA was used to determine overall differences between gender, treatment and time followed by Newman-Keuls multiple comparison tests. Results: Males were faster than females for Tresp, Treac and Tmov. Movement time and Tresp were slower with cold water immersion, but Treac was unaffected. Movement time and Tresp were fastest pretreatment, and slowest during the post 15-second time group. Though both Tmov and Tresp progressively sped up from the post 15-second through the post 9-minute time group, they did not return to pretreatment values when data collection discontinued. Conclusions: Immersing the dominant ankle in cold water for 20 minutes increases Tmov of the dominant lower limb; thereby increasing fractioned response time (Tresp).
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Hydrostatic and thermal influences on intravascular volume determination during immersion: quantification of the f-cell ratioGordon, Christopher, res.cand@acu.edu.au January 2001 (has links)
Previous data have shown that the most prevalent, indirect plasma volume (PV) measurement technique, which utilises changes in haematocrit (Hct) and haemoglobin concentration ([Hb]), underestimates actual PV changes during immersion, when compared to a direct tracer-dilution method. An increase in the F-cell ratio (whole-body haematocrit (Hctw) to large-vessel haematocrit (Hctv) ratio) has been purported as a possible explanation, probably due to hydrostatic and thermally-mediated changes during water immersion. Previous investigators have not quantified the F-cell ratio during immersion. Therefore, this study sought to determine the effect of the F-cell ratio on the indirect method during both, thermoneutral and cold-water immersions. Seven healthy males were tested three times, seated upright in air (control: 21.2°C SD ±1.1), and during thermoneutral (34.5oC SD ±0.2) and cold-water immersion (18.6oC SD ±0.2), immersed to the third intercostal space for 60 min. Measurements during the immersion tests included PV (Evans blue dye column elution, Evans blue dye computer programme, and Hct [Hb]), red cell volume (RCV; sodium radiochromate), cardiac frequency (fc) and rectal temperature (Tre). Plasma volume during the control trial remained stable, and equivalent across the three tests. There was a hydrostatically-induced increase in PV during thermoneutral immersion, when determined by the Evans blue dye method (16.2%). However, the Hct/[Hb] calculation did not adequately reflect this change, and underestimated the relative PV change by 43%. In contrast, PV decreased during cold immersion when determined using the Evans blue dye method by 17.9% and the Hct/[Hb] calculation by 8.0%, respectively, representing a 52% underestimation by the latter method. There was a non-significant decline in RCV during both immersions. Furthermore, an increase (8.6%) and decrease (-14.4%) in blood volume (BV) was observed during thermoneutral and cold-water immersions, respectively. The decline in RCV during thermoneutral immersion attenuated the BV expansion. Despite the disparity between the PV methods, there was no increase in the F-cell ratio during either immersion. In contrast, there was a significant decline in the F-cell ratio during the control: air and thermoneutral immersion, which may indicate that other, undefined variables may impact on the stability of the red cell compartment. The current study is the first to show that the Hct/[Hb] method clearly underestimates PV changes during both thermoneutral and cold-water immersion. Furthermore, RCV was shown, for the first time, to decline during both immersions. However, the changes in the F-cell ratio during this study, did not account for the underestimation of PV change using the Hct/[Hb] method.
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Récupération et exercice inducteur de dommages musculaires / Recovery and exercise-induced muscle damageAbaïdia, Abd-Elbasset 24 October 2016 (has links)
Après une compétition, certains sportifs utilisent des stratégies pour accélérer la récupération des dommages musculaires. Le but général de cette thèse était d’étudier les effets de différentes stratégies sur les cinétiques de récupération après un exercice inducteur de dommages musculaires. Les objectifs des études réalisées étaient : 1) de comparer les effets du bain froid (10 minutes à 10°C) et de la cryothérapie corps entier (3 minutes à -110°C) sur la récupération ; 2) d’évaluer les effets d’une séance de musculation du haut du corps réalisée le lendemain d’un exercice des membres inférieurs sur leur récupération; 3) d’étudier les effets de la consommation d’un placebo en comparaison avec une condition contrôle sur les cinétiques de récupération. Le modèle expérimental utilisé pour induire des dommages musculaires dans ces trois études était un exercice constitué de 5 séries de 15 contractions excentriques maximales des fléchisseurs du genou. Cet exercice était caractérisé par une baisse de la fonction musculaire, une augmentation des concentrations sanguines en créatine kinase et une augmentation des douleurs musculaires. La fonction musculaire, des marqueurs perceptifs et sanguins des dommages musculaires étaient également évalués au cours des 72h suivant cet exercice. Dans la première étude, le bain froid permettait d’accélérer la récupération de la performance lors d’un saut en contre-mouvement sur une jambe et sur deux jambes 72h après l’exercice en comparaison avec la cryothérapie corps entier. Dans la deuxième étude, la musculation du haut du corps n’avait pas d’effet délétère sur la récupération et avait un effet bénéfique modéré sur la récupération de la force concentrique 48h après l’exercice. Dans la troisième étude, la consommation d’un placebo présentait une très forte probabilité d’avoir un effet bénéfique sur la performance en saut et les douleurs musculaires 72h après exercice. La perception de la récupération était également modérément améliorée 72h après exercice. En conclusion, les trois stratégies de récupération utilisées lors de ces études à savoir le bain froid, la séance de musculation et la consommation d’un placebo peuvent être efficaces après des exercices induisant des dommages musculaires. / Following competition, athletes commonly use strategies to accelerate their recovery from muscle damage. The overall objective of this thesis was to study the effects of different recovery strategies on recovery kinetics following exercise-induced muscle damage. The aims of the studies were as follows: 1) to compare the effects of cold-water immersion (10 minutes at 10°C) and whole-body cryotherapy (3 minutes at -110°C), 2) to assess the effects of an upper-limb strength training session, performed the day after a lower-limb exercise,, 3) to study the effects of a placebo ingestion in comparison with a passive recovery. The experimental model used to induce muscle damage in these three studies consisted of 5 sets x 15 repetitions of maximal eccentric contractions of the knee flexors muscles. This exercise resulted in a decrease of muscle function, increases in blood creatine kinase concentration as well as increases in perceived muscle soreness. Muscle function blood markers and subjective recovery from muscle damage were assessed throughout a 72h period post exercise. In the first study, cold-water immersion was more effective than whole-body cryotherapy evidenced through an accelerated recovery of both single and double leg countermovement jump 72h following exercise. In the second study, the upper-limb strength training session had a moderate beneficial effect on concentric force recovery 48h after the exercise and both interestingly and importantly, did not have any detrimental effect on recovery. Finally for the third study, placebo ingestion was ‘very likely’ to have a beneficial effect on jump performance and muscle soreness 72h post-exercise. Additionally, perceived recovery was moderately better 72h following exercise. In conclusion, the studies conducted in this thesis showed that the recovery strategies of cold-water immersion, strength training and ingestion of a placebo, may be effective after exercise-induced muscle damage.
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Vliv aktivního zotavení a hydroterapie na opakovaný krátkodobý a střednědobý svalový výkon / The effect of active recovery and hydroterapy on the subsequent short-term and medium-term muscular performanceStrejcová, Barbora January 2011 (has links)
Title: The effect of active recovery and hydroterapy on the subsequent short-term and medium-term muscular performance Objective: The aim of the study was to compare the effect of two recoveries (ice pack, passive recovery) on the subsequent short-term and three recoveries (active recovery, cold water immersion, passive recovery) on the medium-term knee strength in the extension and flexion. Methods: Fourteen athletes in an average age of 26,6±4,4 years performed, in a random cross-over design, 2 sessions with 5 repeated short-term isokinetic tests and 3 sessions with 3 repeated medium-term isokinetic tests. The effect of ice packs and passive rest and the effect of active recovery, passive rest and cold water immersion were assessed by the 5x2 (time x recovery) and 3x3 (time x recovery) repeated-measure ANOVA, respectively. Results: The ice packs did not have any effect on peak torque, total work and average power during short-term performances. The average heart rate was significantly lower during measurements with the ice packs than during the passive recovery (125±15 vs. 135±20 tepů. min-1 ). We stated significantly lower changes in knee extension for the peak torque after the active recovery (↑ 0,9 N.m) than after the cold water immersion (↓ 14,6 N.m) or the passive recovery (↓ 13,9 N.m). The...
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Efekt ponořování předloktí do studené vody na opakované izometrické kontrakce flexorů prstů do vyčerpání u sportovních lezců / Effect of cold water immersion on intermittent isometric forearm flexor contractions to failure in rock climbersKodejška, Jan January 2018 (has links)
Title: Effect of cold water immersion on intermittent isometric forearm flexor contractions to failure in rock climbers Objectives: The aim of this study was to determine the effect of cold water immersion on intermittent isometric forearm flexor contraction to failure in rock climbers. Methods: Thirty-two climbers (15 male and 17 female) completed three intermittent trials to failure, on a climbing-specific handgrip dynamometer, on three separate visits to the laboratory. For each visit a different recovery strategy was employed: passive recovery (PAS), cold water immersion at 8 řC (CWI 8) or 15 řC (CWI 15). The force time integral (FTI - time of contraction multiplied by the force of contraction) was determined to assess intermittent performance. The tissue saturation index (TSI) and total haemoglobin (tHb) during isometric contractions from near-infrared spectroscopy (NIRS) were determined to assess hemodynamic changes. Differences between repeated trials and three recovery protocols, derived parameters NIRS, were assessed using repeated measures ANOVA with Bonferroni corrections. Results: There was no significant difference between conditions after trial one. In response to the PAS recovery condition there was a 10% and 22% decrease in FTI in the second and third trials, respectively. The PAS...
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Vliv aktivního zotavení a hydroterapie na opakovaný krátkodobý a střednědobý svalový výkon / The effect of active recovery and hydroterapy on the subsequent short-term and medium-term muscular performanceStrejcová, Barbora January 2011 (has links)
Title: The effect of active recovery and hydroterapy on the subsequent short-term and medium-term muscular performance Objective: The aim of the study was to compare the effect of two recoveries (ice pack, passive recovery) on the subsequent short-term and three recoveries (active recovery, cold water immersion, passive recovery) on the medium-term knee strength in the extension and flexion. Methods: Fourteen athletes in an average age of 26,6±4,4 years performed, in a random cross-over design, 2 sessions with 5 repeated short-term isokinetic tests and 3 sessions with 3 repeated medium-term isokinetic tests. The effect of ice packs and passive rest and the effect of active recovery, passive rest and cold water immersion were assessed by the 5x2 (time x recovery) and 3x3 (time x recovery) repeated-measure ANOVA, respectively. Results: The ice packs did not have any effect on peak torque, total work and average power during short-term performances. The average heart rate was significantly lower during measurements with the ice packs than during the passive recovery (125±15 vs. 135±20 tepů. min-1 ). We stated significantly lower changes in knee extension for the peak torque after the active recovery (↑ 0,9 N.m) than after the cold water immersion (↓ 14,6 N.m) or the passive recovery (↓ 13,9 N.m). The...
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Efekt ponořování předloktí do studené vody na opakované izometrické kontrakce flexorů prstů do vyčerpání u sportovních lezců / Effect of cold water immersion on intermittent isometric forearm flexor contractions to failure in rock climbersKodejška, Jan January 2018 (has links)
Title: Effect of cold water immersion on intermittent isometric forearm flexor contractions to failure in rock climbers Objectives: The aim of this study was to determine the effect of cold water immersion on intermittent isometric forearm flexor contraction to failure in rock climbers. Methods: Thirty-two climbers (15 male and 17 female) completed three intermittent trials to failure, on a climbing-specific handgrip dynamometer, on three separate visits to the laboratory. For each visit a different recovery strategy was employed: passive recovery (PAS), cold water immersion at 8 řC (CWI 8) or 15 řC (CWI 15). The force time integral (FTI - time of contraction multiplied by the force of contraction) was determined to assess intermittent performance. The tissue saturation index (TSI) and total haemoglobin (tHb) during isometric contractions from near-infrared spectroscopy (NIRS) were determined to assess hemodynamic changes. Differences between repeated trials and three recovery protocols, derived parameters NIRS, were assessed using repeated measures ANOVA with Bonferroni corrections. Results: There was no significant difference between conditions after trial one. In response to the PAS recovery condition there was a 10% and 22% decrease in FTI in the second and third trials, respectively. The PAS...
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Acute and chronic individualised psychophysiological stress assessment of elite athletes through non-invasive biochemical analysis.Lindsay, Angus John Chisholm January 2015 (has links)
Intense exercise is known to cause alterations in the psychophysiological status of an athlete. Monitoring the health and recovery of an athlete is imperative for the maintenance of performance and reduced fatigue and injury incidence. The physicality associated with select sports results in significant elevations and suppression of psychophysiological biomarkers that are often modulated by game-related impacts, intense training regimes and psychosocial aspects associated with the professional era. The aim of the studies outlined in this thesis were to determine the effectiveness of selected “stress” markers in several sports that result in significant “stress”, and quantify the level of acute and chronic “stress” following individual games and competitions to improve athlete management and recovery.
Study one aimed at developing a new strong-cation exchange high performance liquid chromatography (SCX-HPLC) method for the detection and quantification of urinary pterins and creatinine in a body-building cohort completing high intensity resistance training. The method had an intra- and inter-assay variability of 3.04 % and 5.42 % respectively, with visibly clear peaks and no tailing. Urinary neopterin (NP) and 7,8-dihydroneopterin during a week of competitive natural body-building did not significantly change indicating no alteration in immune system function and oxidative stress. It did provide evidence for the use of specific gravity as a similarly reliable method for urine volume correction following exercise.
Study two focused on a playoff game of elite amateur rugby. The time course changes of NP, cortisol, salivary immunoglobulin A (sIgA) and myoglobin in 11 elite amateur rugby players were measured up to 86 hours post-game. Cortisol increased 4-fold, myoglobin 2.85-fold, NP 1.75-fold and total NP 2.3-fold, all significant, whilst sIgA did not change. All markers returned to baseline within 17 hours providing valuable information for sample collection schedule optimization. Respiratory elastance was also measured by ventilation for the assessment of exercise induced lung inflammation/injury following the game (Chapter three). There was an increase in elastance in selected individuals that did not correlate with either global positioning system (GPS) or impact data. It was shown however, that a ventilator is capable of measuring respiratory changes in a conscious and healthy individual.
Study three focused on the final three games of professional rugby in the 2013 ITM Cup. The acute and cumulative changes in the same four markers were analysed following three home games. There were significant increases in NP, total NP, cortisol and myoglobin along with significant suppression of sIgA (p < 0.05). Large intra- and inter-individual variation existed between players with changes associated with total impacts. Moreover, impact induced muscle damage may account for changes in oxidative status. Specific gravity (SG) was shown to be a more reliable marker for urine volume correction in comparison to creatinine; while some players showed signs of cumulative stress.
Study four examined stress in a professional team throughout the 22 week 2014 Super 15 competition. Part one investigated changes in oxidative stress and muscle damage markers to solidify the muscle damage/oxidative status theory postulated in the previous study. Experimental evidence showed iron and myoglobin are separately capable of oxidizing 7,8-dihydroneopterin to NP in vitro. It was then identified that players who suffered the greatest muscle damage as a result of impacts also had the greatest change in oxidative status (NP). This evidence suggests rugby union induces significant alterations in oxidative status that may be exacerbated by the impact induced release of myoglobin.
Part two measured urinary NT-proBNP during the last two consecutive home games to identify whether rugby union causes significant cardiovascular stress and if the pre to post-game change can be explained by GPS technology. Significant individualized elevations were observed in games one and two which did not correlate with any GPS measurements or impacts. Concentrations returned to normal ~ 36 hours post-game suggesting no permanent damage to cardiac muscle had occurred. The lack of correlation suggests GPS technology is not an accurate measure of cardiovascular stress in professional rugby union.
Part three involved the measurement of cortisol, total NP and sIgA throughout the season to assess the degree of cumulative stress. Samples were taken at regular intervals ~ 36 hours post-game for 22 weeks. Extreme inter-individual variation was present. Select individuals showed continual elevation in immune system activation and psychophysiological stress, whilst others presented with a continual decline in immune system function. Collectively however, minor deviations from baseline in all markers were observed and participation in long distance travel did not significantly affect the psychophysiological status of the group. Together this suggests a season does not cause an accumulation in psychophysiological stress, although careful individual player analysis is warranted.
Understanding rugby union positional demands is essential for training program specification and position specific development of players. Part four used GPS, video-analysis and biochemical analysis to identify positional demands in five regular season games. Forwards tended to be involved in more impacts and covered less distance, while backs covered more distance and carried the ball into contact more regularly. There was no difference in the psychophysiological status between positions indicating both aspects of stress (impacts and distance covered) may induce a similar response. Alternatively, individual biological variation may be solely responsible for this change suggesting careful consideration should be given when using traditional work-load measures such as GPS when quantifying “stress”.
Part five assessed the effectiveness of varied recovery interventions. Total NP, cortisol, myoglobin and sIgA were measured pre- post- and ~ 36 hours post game to identify which intervention was most effective at returning players to a psychophysiological state that allowed for the resumption of normal training. Findings concluded the immediate post-game strategy employed by the team (cold bath, consumption of protein and carbohydrates, compression garments and eight hours sleep) seemed to provide the greatest psychophysiological improvement regardless of the “next-day” intervention. There was large inter-individual variation and players were still in a state of recovery ~ 36 hours post-game as indicated by the elevated total NP and sIgA concentrations.
Study five had four aspects. Develop a new, cost-effective and simple reverse phase HPLC (RP-HPLC) method for the quantification of urinary myoglobin in a clinically relevant range, quantify the level of structural stress following a simulated mixed martial arts (MMA) contest, determine whether cold water immersion attenuates the level of inflammation and muscle damage following a contest, and whether this hypothesized attenuation may be explained by cryotherapy induced mononuclear cell activation suppression in vitro. The RP-HPLC method had an intra- and inter-assay variations from 0.32 - 2.94 %. Linearity was in the range of 5 – 1000 µg/mL which detected significant increases in urinary myoglobin following the MMA contest. Total NP was found to significantly increase following the contest and return to approximately pre-contest levels 24 hours later for the passive group only. Cold water immersion was further found to attenuate the total NP increase in the first two hours post-contest solidifying its use as a recovery technique following intense exercise, while cryotherapy significantly suppressed T-cell activation. This study provides a reliable and repeatable assay for muscle damage quantification in a clinically relevant range, evidence of the physicality associated with MMA, and indicates cold water immersion is a reliable recovery intervention that may impart its positive benefits through T-cell suppression.
The data generated by these investigations highlights the necessity for individual physiological analysis. Group data often masks the extreme variation that exists in clinical and exercise trials where treatment and management of athletes is conducted for recovery and performance. Biochemical analysis provides an added sophistication of work-load and psychophysiological assessment that common technological methods cannot emulate. With a lack of correlation between the quantitative changes in specific non-overlapping biomarkers and GPS, video-analysis and questionnaires, it would seem pertinent to develop a non-invasive quantitative approach in elite sport to understand the level of exercise-induced psychophysiological stress for the precise management of athletes.
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Modalités d'exercice et de récupération : approche cardiovasculaire et performance / Exercises modalities and recovery strategies : cardiovascular aspects and performanceMénétrier, Arnaud 06 December 2013 (has links)
(Cf. corpus p. 25-26) Ce travail de thèse s'est articulé autour de deux problématiques : les réponses cardiovasculaires consécutives à l/ différents protocoles d'exercice et 2/ différents protocoles de récupération. Concernant la première, 3 protocoles de recherches ont été menés. L'un avait pour objectif de déterminer les effets aigus d'exercices de même durée proposant une quantité de travail totale équivalente distribuée de façon constante (CC) ou intermittente (IT), sur la rigidité artérielle multi-segmentaire et ses déterminants. Les deux autres se proposaient d'explorer les dysfonctions cardiaques induites par des exercices de durées plus longues (2 à 4 heures) et leurs mécanismes sous-jacents. La seconde problématique de ce travail de doctorat a conduit à la réalisation de 5 protocoles de recherche. L'immersion contrastée (alternance d'immersions d'une à deux minutes jusqu'à l'aine à ~ 12°C et à ~ 36°C), l'immersion en eau froide (~ 12°C) et la compression élastique ont été tout particulièrement étudiées. Les points suivants ont été abordés : la comparaison des effets de la compression élastique et de l'immersion contrastée sur la performance subséquente ; la connaissance des facteurs concourant aux bénéfices de ces dernières entre des efforts intenses et brefs (c.-à-d. étude du débit sanguin musculaire, de la saturation tissulaire en oxygène, de la clairance des métabolites, etc.) ; l'étude des effets de la pression hydrostatique seule (immersion à neutralité thermique ), et ceux de celle-ci associée au froid (immersion en eau froide ) ou à l'alternance de température (immersion contrastée) sur le débit sanguin musculaire; et enfin l'étude des effets sur certains paramètres de la récupération du port d'une compression élastique au cours et au décours d'un trail. Dans ce contexte, les résultats de nos études mettent en évidence qu'un exercice de type IT diminue davantage la rigidité artérielle multi-segmentaire qu'un exercice de type CC. Cette diminution plus prononcée est associée à un relargage plus important de substances vasodilatatrices (NO,ANP, lactates, etc.). Nous avons également montré qu'un exercice prolongé de durée modérée engendre des dysfonctions cardiaques transitoires. Plus particulièrement, certains indices de contractilité évalués par une technique échocardiographique de dernière génération (c.-à-d. le « Speckle Tracking Echocardiography ») nous ont permis de mettre en évidence que la baisse de la fonction systolique du ventricule gauche (VG) était associée à une atteinte contractile du myocarde dans des conditions standardisées de fréquence et de charge cardiaques. Nos résultats soulignent également le rôle clé de la torsion ventriculaire dans la diminution du remplissage du VG et par conséquent de la fonction diastolique à l'arrêt de l'effort. Les études expérimentales s'intéressant aux techniques de récupération post-exercice indiquent que l'immersion contrastée et la compression élastique par rapport à une récupération passive, lorsqu'elles sont appliquées immédiatement après un premier exercice fatiguant, améliorent la performance subséquente (exercice de pédalage de 5 min) lorsque celle-ci est répétée dans un laps de temps court (15 min). De plus, l'immersion contrastée est plus efficace que la compression élastique pour améliorer la performance subséquente. Ces techniques de récupération accélèrent la clairance du lactate, cette dernière étant accélérée davantage après l'immersion contractée. La compression élastique augmente le débit sanguin musculaire mais également la saturation tissulaire en oxygène, que ce soit avant et après l'effort. Par rapport à une récupération passive, l'immersion contrastée augmente également le débit sanguin musculaire après l'effort, et davantage que la compression élastique. (...) / (Cf. corpus p. 27-28) This thesis work focuses on the cardiovascular responses consecutive to l/ various exercice modalities and 2/ various post-exercise recovery interventions. With regard to the exercise modalities, 3 experimental protocols were led. The first one aimed to compare the acute effects of constant and interval exercises on regional arterial stiffness and these determinants. Two others studies focused on the cardiac dysfunctions induced by exercises of longer durations (2-3h) and the underlying mechanisms. The second problematic of this thesis work led to 5 studies. The following questions were approached: the comparison of the effects of contrast water therapy and compression stockings on the subsequent performance; the knowledge of the factors at the origin of the benefits of these recovery interventions between repeated brief and exhaustive bouts of physical exercise (i.e. muscle blood flow, muscle oxygenation, removal of metabolic waste, etc.) ; the changes in leg muscle blood flow, caused by hydrostatic pressure alone [thermoneutral water immersion), and in addition to cooling (cold water immersion) or alternating of temperature (contrast water therapy); and finally the effects of elastic compression worn during and after a trail running race on the participants' recovery. Our results show that interval exercise decreases more regional arterial stiffness [central and peripheral) than constant exercise. This more pronounced decrease is associated with a higher concentration of vasodilator factors (NO, ANP, lactates, etc.). We also show that a prolonged exercise (2-3h) induce transient cardiac dysfunctions. Specifically, parameters of systolic function evaluated using 2D-speckle tracking echocardiography not only at rest, but also during incremental tests to adjust heart rate demonstrate that the 3h-period of prolonged and strenuous exercise induces left ventricular systolic dysfunction. Our results also demonstrate that depressed diastolic function is associated with delayed untwisting velocity. The studies focusing on post-exercise recovery interventions indicate that compared with passive recovery, contrast water therapy and compression stockings improve the subsequent 5-min maximal performance in cycling when this one is repeated during a brief elapsed time (i.e. 15 min). Moreover, contrast water therapy is more efficient than compression stockings to improve the subsequent performance. Theses recovery interventions accelerate the removal of lactates, and contrast water therapy more than compression stockings. The elastic compression increases muscle blood flow but also tissue oxygen saturation, before and after a physical exercise. Contrast water therapy also increases muscle blood flow after an exercise compared with a passive recovery, and more than elastic compression. (...)
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USING NONINVASIVE CALIBRATED CUFF PLETHYSMOGRAPHY TO OBSERVE THE EFFECTS OF COLD-WATER IMMERSION ON ARTERIAL COMPLIANCEGrigorian, Rita M 01 October 2023 (has links) (PDF)
As the prevalence of cardiovascular diseases continues to exponentially grow in populations across the globe, the necessity of determining underlying factors, effective methods of diagnoses, and universally available preventive measures also grows. Early detection of endothelial dysfunction, a proven precursor of cardiovascular diseases, can be extremely impactful in encouraging preventative measures and early intervention before medical conditions become chronic. In recent years, ice plunging, a form of cryotherapy involving full body immersion in cold water, has gained popularity within circles of fitness and health practitioners, gaining the interest of people of all backgrounds. Certain parallels observed between the human physiological response to cold exposure and endothelial function encourage further study of the effects of ice plunging on cardiovascular health. Calibrated cuff plethysmography is a promising method of reflecting on endothelial function by measuring arterial compliance of select blood vessels. In this study, a calibrated cuff plethysmography device was built and tested for efficiency as it was used to measure compliance and cross-sectional area of the brachial artery of 14 participants 30 minutes before, immediately after, and 30 minutes after a 5-minute cold plunge in a temperature of 10°C - 15°C. Results found some significant differences between baseline measurements recorded immediately after the ice plunge and measurements recorded during reactive hyperemia conditions at normal body temperature but did not conclude that 5-minute cold-water immersion intervention had a significant impact on arterial compliance or area overall since this was a short term experiment with only acute intervention methods. The device used was concluded to effectively measure arterial compliance and area.
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