53 research outputs found

    Autonomic cardiovascular response to acute hypoxia and passive head-up tilting in humans

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    Acute hypoxia may alter autonomic cardiovascular reflexes during orthostasis. Heart rate variability (HRV), arterial blood pressure (MAP), and respiratory sinus arrhythmia (RSA) were recorded during supine (SUP) and passive head up tilt (HUT) in eight healthy humans, spontaneously breathing either room air or 10 % O2 in N2. In the time domain, heart rate increased and variability decreased with HUT in both trials, with no difference between trials. In the frequency domain, normalized low frequency HRV increased, and normalized high frequency HRV decreased with HUT in both trials, with no difference between trials. MAP was 74.9 (8.6) and 77.5 (11.7) mmHg when SUP in the room air and hypoxia trials, respectively. A significant increase in MAP occurred with HUT in the room air trial but not in the hypoxia trial. In both trials, end tidal CO2 decreased with HUT, with no difference between trials. In the room air trial, end tidal O2 increased with HUT, whereas during the hypoxia trial, end tidal O2 decreased with HUT. The distribution of heart beats relative to the phase of ventilation (%HB IN and %HBOUT) was similar in both trials: the %HB IN was 43.5 (3.3) % and %HBOUT was 56.5 (4.2) % breathing room air when SUP, and 45.5 (3.0) and 54.5 (3.2) when hypoxic and SUP. For both trials, this distribution did not change with HUT. As both HRV and RSA showed similar responses to HUT when spontaneously breathing either room air or 10 % O2 in N2, we suggest that autonomic cardiovascular reflexes are preserved during acute hypoxia. Ā© 2013 Springer-Verlag Berlin Heidelberg

    Nicotine Supplementation Does Not Influence Performance of a 1h Cycling Time-Trial in Trained Males

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    The use of nicotine amongst professional and elite athletes is high, with anecdotal evidence indicating increased prevalence amongst cycling sports. However, previous investigations into its effects on performance have not used high-validity or -reliability protocols nor trained cyclists. Therefore, the present study determined whether nicotine administration proved ergogenic during a āˆ¼1 h self-paced cycling time-trial (TT). Ten well-trained male cyclists (34 Ā± 9 years; 71 Ā± 8 kg; O2max: 71 Ā± 6 ml ā‹… kgāˆ’1 ā‹… mināˆ’1) completed three work-dependent TT following āˆ¼30 min administration of 2 mg nicotine gum (GUM), āˆ¼10 h administration of 7 mg ā‹… 24 hāˆ’1 nicotine patch (PAT) or color- and flavor-matched placebos (PLA) in a randomized, crossover, and double blind design. Measures of nicotineā€™s primary metabolite (cotinine), core body temperature, heart rate, blood biochemistry (pH, HCO3āˆ’, Laāˆ’) and Borgā€™s rating of perceived exertion (RPE) accompanied performance measures of time and power output. Plasma concentrations of cotinine were highest for PAT, followed by GUM, then PLA, respectively (p < 0.01). GUM and PAT resulted in no significant improvement in performance time compared to PLA (62.9 Ā± 4.1 min, 62.6 Ā± 4.5 min, and 63.3 Ā± 4.1 min, respectively; p = 0.73), with mean power outputs of 264 Ā± 31, 265 Ā± 32, and 263 Ā± 33 W, respectively (p = 0.74). Core body temperature was similar between trials (p = 0.33) whilst HR averaged 170 Ā± 10, 170 Ā± 11, and 171 Ā± 11 beats ā‹… mināˆ’1 (p = 0.60) for GUM, PAT, and PLA, respectively. There were no differences between trials for any blood biochemistry (all p > 0.46) or RPE with mean values of 16.7 Ā± 0.9, 16.8 Ā± 0.7, and 16.8 Ā± 0.8 (p = 0.89) for GUM, PAT, and PLA, respectively. In conclusion: (i) nicotine administration, whether via gum or transdermal patch, did not exert an ergogenic or ergolytic effect on self-paced cycling performance of āˆ¼1 h; (ii) systemic delivery of nicotine was greatest when using a transdermal patch; and (iii) nicotine administration did not alter any of the psycho-physiological measures observed

    The Efficacy of Ingesting Water on Thermoregulatory Responses and Running Performance in a Warm-Humid Condition

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    The understanding that fluid ingestion attenuates thermoregulatory and circulatory stress during exercise in the heat was based on studies conducted in relatively dry (āˆ¼50% RH) environments. It remains undetermined whether similar effects occur during exercise in a warm and more humid environment, where evaporative capacity is reduced. Nine well-trained, unacclimatised male runners were randomly assigned to perform four experimental trials where they ran for 60 min at an intensity of 70% VO2max followed by an incremental exercise test until volitional exhaustion. The four trials consisted of non-fluid ingestion (NF) and fluid ingestion (FI) in a warm-dry (WD) and warm-humid condition (WH). Time to exhaustion (TTE), body temperature (Tb), whole body sweat rate, partitional calorimetry measures, heart rate and plasma volume were recorded during exercise. There was no significant difference in Tb following 60 min of exercise in FI and NF trial within both WD (37.3Ā°C Ā± 0.4 vs. 37.4Ā°C Ā± 0.3; p > 0.05) and WH conditions (38.0Ā°C Ā± 0.4 vs. 38.1Ā°C Ā± 0.4; p > 0.05). The TTE was similar between FI and NF trials in both WH and WD, whereas exercise capacity was significantly shorter in WH than WD (9.1 Ā± 2.8 min vs. 12.7 Ā± 2.4 min, respectively; p = 0.01). Fluid ingestion failed to provide any ergogenic benefit in attenuating thermoregulatory and circulatory stress during exercise in the WH and WD conditions. Consequently, exercise performance was not enhanced with fluid ingestion in the warm-humid condition, although the humid environment detrimentally affected exercise endurance

    Effect of transdermal nicotine administration on exercise endurance in men

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    Nicotine is widely reported to increase alertness, improve co-ordination and enhance cognitive performance; however, to our knowledge there have been no attempts to replicate these findings in relation to exercise endurance. The purpose of this study was to determine the effects nicotine might have on cycling endurance, perception of exertion and a range of physiological variables. With local ethics committee approval and having obtained informed consent, 12 healthy, non-smoking men (22 Ā± 3 years; maximal O2 uptake, 56 Ā± 6 ml kg1 min1, mean Ā±s.d.) cycled to exhaustion at 18Ā°C and 65% of their peak aerobic power, wearing either a 7 mg transdermal nicotine patch (NIC) or a colour-matched placebo (PLA) in a randomized cross-over design; water was available ad libitum. Subjects were exercising at approximately 75% of their maximal O2 uptake with no differences in cadence between trials. Ten out of 12 subjects cycled for longer with NIC administration, and this resulted in a significant 17 Ā± 7% improvement in performance (P< 0.05). No differences were observed for perceived exertion, heart rate or ventilation. There were no differences in concentrations of plasma glucose, lactate or circulating fatty acids. In the absence of any effect on peripheral markers, we conclude that nicotine prolongs endurance by a central mechanism. Possible modes of action are suggested

    Effects of hypoxia and hypercapnia on human HRV and respiratory sinus arrhythmia

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    Hypercapnia increase minute ventilation (V'E) with little effect on heart rate (HR), whereas hypoxia may increase HR without affecting V'E. However, the effects of hypercania and hypoxia on both heart rate variability (HRV) and the clustering of the heart beats during spontaneous breathing (respiratory sinus arrhythmia -RSA) are not clear. "From abstract

    Environmental physiology research presented at ICEE2013

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    The 15th International Conference on Environmental Ergonomics, Queenstown, New Zealand, February 11 to 15, 2013 (ICEE2013) brought together researchers interested in work and exercise physiology, safety, comfort and performance in various stressful and extreme environments

    Cerebral autoregulation across the menstrual cycle in eumenorrheic women

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    Abstract There is emerging evidence that ovarian hormones play a significant role in the lower stroke incidence observed in preā€menopausal women compared with men. However, the role of ovarian hormones in cerebrovascular regulation remains to be elucidated. We examined the blood pressureā€cerebral blood flow relationship (cerebral autoregulation) across the menstrual cycle in eumenorrheic women (nĀ =Ā 12; meanĀ Ā±Ā SD: age, 31Ā Ā±Ā 7Ā years). Participants completed sitā€toā€stand and Valsalva maneuvers (VM, mouth pressure of 40Ā mmHg for 15Ā s) during the early follicular (EF), late follicular (LF), and midā€luteal (ML) menstrual cycle phases, confirmed by serum measurement of progesterone and 17Ī²ā€estradiol. Middle cerebral artery blood velocity (MCAv), arterial blood pressure and partial pressure of endā€tidal carbon dioxide were measured. Cerebral autoregulation was assessed by transfer function analysis during spontaneous blood pressure oscillations, rate of regulation (RoR) during sitā€toā€stand maneuvers, and Tieckā€™s autoregulatory index during VM phases II and IV (AIā€II and AIā€IV, respectively). Resting mean MCAv (MCAvmean), blood pressure, and cerebral autoregulation were unchanged across the menstrual cycle (all pĀ >Ā 0.12). RoR tended to be different (EF, 0.25Ā Ā±Ā 0.06; LF; 0.19Ā Ā±Ā 0.04; ML, 0.18Ā Ā±Ā 0.12Ā secāˆ’1; pĀ =Ā 0.07) and demonstrated a negative relationship with 17Ī²ā€estradiol (R2Ā =Ā 0.26, pĀ =Ā 0.02). No changes in AIā€II (EF, 1.95Ā Ā±Ā 1.20; LF, 1.67Ā Ā±Ā 0.77 and ML, 1.20Ā Ā±Ā 0.55) or AIā€IV (EF, 1.35Ā Ā±Ā 0.21; LF, 1.27Ā Ā±Ā 0.26 and ML, 1.20Ā Ā±Ā 0.2) were observed (pĀ =Ā 0.25 and 0.37, respectively). Although, a significant interaction effect (pĀ =Ā 0.02) was observed for the VM MCAvmean response. These data indicate that the menstrual cycle has limited impact on cerebrovascular autoregulation, but individual differences should be considered

    A comparison of rectal, oesophageal and gastro-intestinal tract temperatures during moderate-intensity cycling in temperate and hot conditions

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    The purpose of this study was to compare three of the most commonly used methods of core temperature (Tcore) measurement during cycling under different environmental conditions as there are practical problems associated with each method and, sometimes, uncertainty as to which is the appropriate measure. Eight trained males (VO2 max: 60 Ā± 7 ml kg(-1) min(-1)) completed two 60-min cycling trials at ~70% VO2 max at 20Ā°C (MOD) and 35Ā°C (HOT). Measures of Tcore were made every 5 min with oesophageal (Toes) and rectal (Trec) thermistors and of the gastro-intestinal tract temperature (Tgi ) with a temperature-sensitive disposable radio pill. During MOD Toes initially plateaued after 10 min, Tgi after 25 min and Trec after 50 min, whereas during HOT these times had increased to 25 min for Toes and 55 min for both Tgi and Trec. Toes consistently provided lower readings than Trec (0Ā·24-0Ā·26Ā°C) and Tgi (0Ā·26-0Ā·28Ā°C) with Tgi and Trec similar (0Ā·02Ā°C). Readings for Tgi displayed closer agreement with Trec (ICC = 0Ā·92) than Toes (ICC = 0Ā·86) with less agreement between Trec and Toes (ICC = 0Ā·84). 95% of all Tgi readings were within Ā±0Ā·5Ā°C of Trec and within Ā±0Ā·6Ā°C of Toes with 95% of all Toes readings being within Ā±0Ā·7Ā°C of Trec . These results demonstrate distinct response times, absolute values and agreement between Tcore measured at different body locations under different ambient conditions. Implications and considerations are discussed
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