Your search keyword '"Debevec T"' showing total 7 results

1. Effects of preterm birth on the pattern of altitude acclimatization at rest and during moderate-intensity exercise across three days at 3,375 m.

Author

Narang BJ, Manferdelli G, Millet GP, and Debevec T

Subjects

Humans, Female, Male, Adult, Pulmonary Ventilation physiology, Hemodynamics physiology, Muscle, Skeletal metabolism, Muscle, Skeletal physiology, Infant, Newborn, Young Adult, Altitude, Exercise physiology, Acclimatization physiology, Premature Birth physiopathology, Rest physiology, Oxygen Consumption physiology, Cardiac Output physiology

Abstract

Preterm birth elicits long-lasting physiological effects in various organ systems, potentially modulating exercise and environmental stress responses. To establish whether prematurely-born adults respond uniquely during early high-altitude acclimatization at rest and during exercise, 17 healthy adults born preterm (gestational age < 32 wk) and 17 term-born, age- and aerobic-capacity-matched, control participants completed a three-day high-altitude sojourn (3,375 m). Oxygen uptake, pulmonary ventilation, and hemodynamic responses, as well as pulse oxygen saturation, brain tissue saturation index (TSI), and skeletal muscle TSI, were measured daily at rest and during moderate-intensity steady-state exercise bouts. In general, the prematurely-born group displayed comparable acclimatization responses at rest, with similar ventilation and cardiac output observed between groups throughout. Resting brain TSI was, however, higher in the preterm group upon arrival at high altitude (72 ± 7% vs. 68 ± 3%; d = 1.20). Absolute exercising oxygen uptake was lower in the preterm participants ( P = 0.047), with this group displaying lower exercising cardiac output underpinned by reduced stroke volume (both P = 0.035). Nevertheless, exercising minute ventilation (V̇e) did not differ between groups ( P = 0.237) while brain TSI (70 ± 6% vs. 66 ± 3%; d = 1.35) and pulse oxygen saturation (85 ± 3% vs. 82 ± 5%; d = 1.52) were higher with prematurity upon arrival to high altitude. These findings suggest that healthy prematurely-born adults exhibit comparable early acclimatization patterns to their term-born counterparts and better maintain cerebral oxygenation at rest. Together, these data suggest that prematurely-born adults should not be discouraged from high-altitude sojourns involving physical activity. NEW & NOTEWORTHY The acclimatization pattern across three days at 3,375 m, at rest and during moderate-intensity exercise, was similar between healthy adults born prematurely and their term-born counterparts. Preterm adults free from respiratory complications were found to better maintain brain tissue and capillary oxygen saturation at high altitudes, whereas the term-born group experienced larger altitude-induced reductions. Despite apparent cardiac limitations, preterm individuals tolerated exercise similarly to their term-born peers. These findings underscore the notion that preterm birth per se does not predispose healthy adults to decreased altitude tolerance during exercise.

Published

2024

2. Baroreflex sensitivity is blunted in hypoxia independently of changes in inspired carbon dioxide pressure in prematurely born male adults.

Author

Manferdelli G, Narang BJ, Bourdillon N, Debevec T, and Millet GP

Subjects

Adult, Female, Infant, Newborn, Male, Humans, Infant, Hypercapnia, Baroreflex, Hypoxia, Oxygen, Altitude, Carbon Dioxide, Premature Birth

Abstract

Premature birth may result in specific cardiovascular responses to hypoxia and hypercapnia, that might hamper high-altitude acclimatization. This study investigated the consequences of premature birth on baroreflex sensitivity (BRS) under hypoxic, hypobaric and hypercapnic conditions. Seventeen preterm born males (gestational age, 29 ± 1 weeks), and 17 age-matched term born adults (40 ± 0 weeks) underwent consecutive 6-min stages breathing different oxygen and carbon dioxide concentrations at both sea-level and high-altitude (3375 m). Continuous blood pressure and ventilatory parameters were recorded in normobaric normoxia (NNx), normobaric normoxic hypercapnia (NNx + CO 2 ), hypobaric hypoxia (HHx), hypobaric normoxia (HNx), hypobaric normoxia hypercapnia (HNx + CO 2 ), and hypobaric hypoxia with end-tidal CO 2 clamped at NNx value (HHx + clamp). BRS was assessed using the sequence method. Across all conditions, BRS was lower in term born compared to preterm (13.0 ± 7.5 vs. 21.2 ± 8.8 ms⋅mmHg -1 , main group effect: p < 0.01) participants. BRS was lower in HHx compared to NNx in term born (10.5 ± 4.9 vs. 16.0 ± 6.0 ms⋅mmHg -1 , p = 0.05), but not in preterm (27.3 ± 15.7 vs. 17.6 ± 8.3 ms⋅mmHg -1 , p = 0.43) participants, leading to a lower BRS in HHx in term born compared to preterm (p < 0.01). In conclusion, this study reports a blunted response of BRS during acute high-altitude exposure without any influence of changes in inspired CO 2 in healthy prematurely born adults., (© 2024 The Authors. Physiological Reports published by Wiley Periodicals LLC on behalf of The Physiological Society and the American Physiological Society.)

Published

2024

3. Last Word on Viewpoint: Premature birth: a neglected consideration for altitude adaptation.

Author

Debevec T, Narang BJ, Manferdelli G, and Millet GP

Subjects

Acclimatization, Adaptation, Physiological, Female, Humans, Altitude, Premature Birth

Published

2022

4. Premature birth: a neglected consideration for altitude adaptation.

Author

Debevec T, Narang BJ, Manferdelli G, and Millet GP

Subjects

Acclimatization, Adaptation, Physiological, Female, Humans, Hypoxia, Pregnancy, Altitude, Premature Birth

Published

2022

5. Respiratory responses to hypoxia during rest and exercise in individuals born pre-term: a state-of-the-art review.

Author

Narang BJ, Manferdelli G, Millet GP, and Debevec T

Subjects

Altitude, Exercise physiology, Female, Humans, Hypoxia, Infant, Newborn, Male, Oxygen Consumption physiology, Lung Diseases, Premature Birth

Abstract

The pre-term birth survival rate has increased considerably in recent decades, and research investigating the long-term effects of premature birth is growing. Moreover, altitude sojourns are increasing in popularity and are often accompanied by various levels of physical activity. Individuals born pre-term appear to exhibit altered acute ventilatory responses to hypoxia, potentially predisposing them to high-altitude illness. These impairments are likely due to the use of perinatal hyperoxia stunting the maturation of carotid body chemoreceptors, but may also be attributed to limited lung diffusion capacity and/or gas exchange inefficiency. Aerobic exercise capacity also appears to be reduced in this population. This may relate to the aforementioned respiratory impairments, or could be due to physiological limitations in pulmonary blood flow or at the exercising muscle (e.g. mitochondrial efficiency). However, surprisingly, the debilitative effects of exercise when performed at altitude do not seem to be exacerbated by premature birth. In fact, it is reasonable to speculate that pre-term birth could protect against the consequences of exercise combined with hypoxia. The mechanisms that underlie this assertion might relate to differences in oxidative stress responses or in cardiopulmonary morphology in pre-term individuals, compared to their full-term counterparts. Further research is required to elucidate the independent effects of neonatal treatment, sex differences and chronic lung disease, and to establish causality in some of the proposed mechanisms that could underlie the differences discussed throughout this review. A more in-depth understanding of the acclimatisation responses to chronic altitude exposures would also help to inform appropriate interventions in this clinical population., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

6. Preterm birth: Potential risk factor for greater COVID-19 severity?

Author

Debevec T, Burtscher J, and Millet GP

Subjects

Angiotensin-Converting Enzyme 2, COVID-19, Coronavirus Infections diagnosis, Coronavirus Infections epidemiology, Female, Humans, Male, Pandemics, Pneumonia, Viral diagnosis, Pneumonia, Viral epidemiology, Pregnancy, Premature Birth diagnosis, Premature Birth epidemiology, Risk Factors, SARS-CoV-2, Betacoronavirus, Coronavirus Infections blood, Oxidative Stress physiology, Peptidyl-Dipeptidase A blood, Pneumonia, Viral blood, Premature Birth blood, Severity of Illness Index

Published

2020

7. Preterm birth and oxidative stress: Effects of acute physical exercise and hypoxia physiological responses.

Author

Martin A, Faes C, Debevec T, Rytz C, Millet G, and Pialoux V

Subjects

Antioxidants metabolism, Female, Humans, Infant, Newborn, Oxygen metabolism, Pregnancy, Premature Birth metabolism, Exercise physiology, Hypoxia, Oxidative Stress physiology, Premature Birth physiopathology

Abstract

Preterm birth is a global health issue that can induce lifelong medical sequela. Presently, at least one in ten newborns are born prematurely. At birth, preterm newborns exhibit higher levels of oxidative stress (OS) due to the inability to face the oxygen rich environment in which they are born into. Moreover, their immature respiratory, digestive, immune and antioxidant defense systems, as well as the potential numerous medical interventions following a preterm birth, such as oxygen resuscitation, nutrition, phototherapy and blood transfusion further contribute to high levels of OS. Although the acute effects seem well established, little is known regarding the long-term effects of preterm birth on OS. This matter is especially important given that chronically elevated OS levels may persist into adulthood and consequently contribute to the development of numerous non-communicable diseases observed in people born preterm such as diabetes, hypertension or lung disorders. The purpose of this review is to summarize the current knowledge regarding the consequences of preterm birth on OS levels from newborn to adulthood. In addition, the effects of physical activity and hypoxia, both known to disrupt redox balance, on OS modulation in preterm individuals are also explored., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2018