7 results on '"Mekjavic, Igor B."'
Search Results
2. The combined effects of temperature and posture on regional blood flow and haemodynamics
- Author
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Fisher, Jason T., Ciuha, Urša, and Mekjavić, Igor B.
- Published
- 2024
- Full Text
- View/download PDF
3. Impact of a simulated multiday heatwave on nocturnal physiology, behavior, and sleep: a 10-day confinement study.
- Author
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Ioannou, Leonidas G., Tsoutsoubi, Lydia, Mantzios, Konstantinos, Ciuha, Ursa, Kenny, Glen P., Nybo, Lars, Flouris, Andreas D., and Mekjavic, Igor B.
- Subjects
BODY temperature regulation ,BODY temperature ,HEAT ,SLEEP ,HEALTH behavior ,POLYSOMNOGRAPHY - Abstract
This study investigated the impact of a multiday heatwave on nocturnal physiology, behavior, and sleep under controlled conditions with comprehensive monitoring of environmental factors and participant activities. Seven young healthy males were confined for 10 days in controlled conditions that ranged between hot-to-warm (day: 35.4 °C, night: 26.3 °C) during nights 4–6 and temperate (day: 25.4 °C, night: 22.3 °C) before (nights 1–3) and after (nights 7–10) the heatwave. Measurements included core and skin temperatures, heart rate, sympathovagal balance, vasomotion indicators, urine samples, blanket coverage, subjective sleep assessments, and partial polysomnography. The average nocturnal core temperature was 0.2 °C higher during and after the heatwave compared to the pre-heatwave period, with this difference being more pronounced (+0.3 °C) in the first 2 h of sleep (p < 0.001). For every 0.1 °C rise in overnight core temperature, the total sleep time decreased by 14 min (pseudo-R
2 = 0.26, p = 0.01). The elevated core temperatures occurred despite the participants exhibiting evident thermoregulatory behavior, as they covered 30% less body surface during the heatwave compared to pre- and post-heatwave periods (p < 0.001). During the heatwave, mean skin temperature at bedtime was 1.3 °C higher than pre-heatwave and 0.8 °C higher than post-heatwave periods (p < 0.001). No differences in other responses, including heart rate and vasomotion indicators, were observed. The paper details a 20-min sleepwalking episode that was coupled with marked changes in sleepwalker's thermophysiological responses. In conclusion, the simulated heatwave resulted in higher overnight core temperature which was associated with reduced total sleep time. Behavioral thermoregulation during sleep may serve as a defense against these effects, though more research is needed. [ABSTRACT FROM AUTHOR]- Published
- 2024
- Full Text
- View/download PDF
4. Effect of sportswear on performance and physiological heat strain during prolonged running in moderately hot conditions
- Author
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Ioannou, Leonidas G., Tsoutsoubi, Lydia, Gkiata, Paraskevi, Brown, Harry A., Periard, Julien D., Mekjavic, Igor B., Kenny, Glen P., Nybo, Lars, Flouris, Andreas D., Ioannou, Leonidas G., Tsoutsoubi, Lydia, Gkiata, Paraskevi, Brown, Harry A., Periard, Julien D., Mekjavic, Igor B., Kenny, Glen P., Nybo, Lars, and Flouris, Andreas D.
- Abstract
Introduction: This study examined the impact of different upper-torso sportswear technologies on the performance and physiological heat strain of well-trained and national-level athletes during prolonged running in moderately hot conditions. Methods: A randomized crossover design was employed in which 20 well-trained (n = 16) and national-level (n = 4) athletes completed four experimental trials in moderately hot conditions (35°C, 30% relative humidity). In each trial, participants ran at 70% of their peak oxygen uptake (70% V̇O2peak) for 60 min, while wearing a different upper-body garment: cotton t-shirt, t-shirt with sweat-wicking fabric, compression t-shirt, and t-shirt with aluminum dots lining the inside of the upper back of the garment. Running speed was adjusted to elicit the predetermined oxygen consumption associated with 70% V̇O2peak. Physiological (core and skin temperatures, total body water loss, and urine specific gravity) and perceptual (thermal comfort and sensation, ratings of perceived exertion, and garment cooling functionality) parameters along with running speed at 70% V̇O2peak were continuously recorded. Results: No significant differences were observed between the four garments for running speed at 70% V̇O2peak, physiological heat strain, and perceptual responses (all p > 0.05). The tested athletes reported larger areas of perceived suboptimal cooling functionality in the cotton t-shirt and the t-shirt with aluminum dots relative to the sweat-wicking and compression t-shirts (d: 0.43–0.52). Conclusion: There were not differences among the tested garments regarding running speed at 70% V̇O2peak, physiological heat strain, and perceptual responses in well-trained and national-level endurance athletes exercising in moderate heat.
- Published
- 2024
5. Validation of formulae predicting stroke volume from arterial pressure: with particular emphasis on upright individuals in hot ambient conditions.
- Author
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Tsoutsoubi, Lydia, Ioannou, Leonidas G., Ciuha, Urša, Fisher, Jason T., Possnig, Carmen, Simpson, Lydia L., Flouris, Andreas D., Lawley, Justin, and Mekjavic, Igor B.
- Subjects
PHOTOPLETHYSMOGRAPHY ,CARDIAC output ,HEART rate monitors ,HEART rate monitoring ,BLOOD pressure ,SKIN temperature - Abstract
Introduction: During heatwaves, it is important to monitor workers' cardiovascular health since 35% of those working in hot environments experience symptoms of heat strain. Wearable technology has been popularized for monitoring heart rate (HR) during recreational activities, but it can also be used to monitor occupational heat strain based on core and skin temperatures and HR. To our knowledge, no devices estimate the cardiovascular strain directly based on stroke volume (SV) or cardiac output (CO). In addition to the hardware, there are limitations regarding the lack of suitable algorithms that would provide such an index based on relevant physiological responses. The validation of the formulae already existing in literature was the principle aim of the present study. Methods: We monitored the cardiovascular responses of our participants to a supine and 60° head-up tilt at the same time each day. During the test, we measured blood pressure derived by finger photoplethysmography, which also provided beat-by-beat measures of SV and CO. Afterwards, we compared the SV derived from the photoplethysmography with the one calculated with the different equations that already exist in literature. Results: The evaluation of the formulae was based on comparing the error of prediction. This residual analysis compared the sum of the squared residuals generated by each formula using the same data set. Conclusion: Our findings suggest that estimating SV with existing formulae is feasible, showing a good correlation and a relatively small bias. Thus, simply measuring workers' blood pressure during breaks could estimate their cardiac strain. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
6. Comparison of joint kinematics between upright front squat exercise and horizontal squat exercise performed on a short arm human centrifugation.
- Author
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Sorrentino, Riccardo G., Avila‐Mirèles, Edwin, Babič, Jan, Supej, Matej, Mekjavic, Igor B., and McDonnell, Adam C.
- Subjects
SQUAT (Weight lifting) ,CENTRIFUGATION ,KINEMATICS ,CENTER of mass ,SUPINE position - Abstract
This study compared the joint kinematics between the front squat (FS) conducted in the upright (natural gravity) position and in the supine position on a short arm human centrifuge (SAHC). Male participants (N = 12) with no prior experience exercising on a centrifuge completed a FS in the upright position before (PRE) and after (POST) a FS exercise conducted on the SAHC while exposed to artificial gravity (AG). Participants completed, in randomized order, three sets of six repetitions with a load equal to body weight or 1.25 × body weight for upright squats, and 1 g and 1.25 g at the center of gravity (COG) for AG. During the terrestrial squats, the load was applied with a barbell. Knee (left/right) and hip (left/right) flexion angles were recorded with a set of inertial measurement units. AG decreased the maximum flexion angle (MAX) of knees and hips as well as the range of motion (ROM), both at 1 and 1.25 g. Minor adaptation was observed between the first and the last repetition performed in AG. AG affects the ability to FS in naïve participants by reducing MAX, MIN and ROM of the knees and hip. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
7. Effect of sportswear on performance and physiological heat strain during prolonged running in moderately hot conditions.
- Author
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Ioannou LG, Tsoutsoubi L, Gkiata P, Brown HA, Periard JD, Mekjavic IB, Kenny GP, Nybo L, and Flouris AD
- Subjects
- Humans, Aluminum, Body Temperature, Heart Rate physiology, Hot Temperature, Skin Temperature, Sweating, Cross-Over Studies, Body Temperature Regulation physiology, Running physiology
- Abstract
Introduction: This study examined the impact of different upper-torso sportswear technologies on the performance and physiological heat strain of well-trained and national-level athletes during prolonged running in moderately hot conditions., Methods: A randomized crossover design was employed in which 20 well-trained (n = 16) and national-level (n = 4) athletes completed four experimental trials in moderately hot conditions (35°C, 30% relative humidity). In each trial, participants ran at 70% of their peak oxygen uptake (70% V̇O
2peak ) for 60 min, while wearing a different upper-body garment: cotton t-shirt, t-shirt with sweat-wicking fabric, compression t-shirt, and t-shirt with aluminum dots lining the inside of the upper back of the garment. Running speed was adjusted to elicit the predetermined oxygen consumption associated with 70% V̇O2peak . Physiological (core and skin temperatures, total body water loss, and urine specific gravity) and perceptual (thermal comfort and sensation, ratings of perceived exertion, and garment cooling functionality) parameters along with running speed at 70% V̇O2peak were continuously recorded., Results: No significant differences were observed between the four garments for running speed at 70% V̇O2peak , physiological heat strain, and perceptual responses (all p > 0.05). The tested athletes reported larger areas of perceived suboptimal cooling functionality in the cotton t-shirt and the t-shirt with aluminum dots relative to the sweat-wicking and compression t-shirts (d: 0.43-0.52)., Conclusion: There were not differences among the tested garments regarding running speed at 70% V̇O2peak , physiological heat strain, and perceptual responses in well-trained and national-level endurance athletes exercising in moderate heat., (© 2023 The Authors. Scandinavian Journal of Medicine & Science In Sports published by John Wiley & Sons Ltd.)- Published
- 2024
- Full Text
- View/download PDF
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