Your search keyword '"Coulange M"' showing total 3 results

1. Adaptative mechanism of the equilibrative nucleoside transporter 1 (ENT-1) and blood adenosine levels in elite freedivers.

Author

Marlinge, M., Vairo, D., Bertaud, A., Vernet, C., Chefrour, M., Bruzzese, L., Chaptal, M. C., Mottola, G., Boussuges, A., Risso, J. J., Blot-Chabaud, M., Coulange, M., Guieu, R., and Joulia, F.

Subjects

NUCLEOSIDE transport proteins, ADENOSINES, ADENOSINE deaminase, HEART beat, BLOOD pressure

Abstract

Purpose: Long static or intense dynamic apnoea-like high-altitude exposure is inducing hypoxia. Adenosine is known to participate to the adaptive response to hypoxia leading to the control of heart rate, blood pressure and vasodilation. Extracellular adenosine level is controlled through the equilibrative nucleoside transporter 1 (ENT-1) and the enzyme adenosine deaminase (ADA). The aim of this study was to determine the control of adenosine blood level (ABL) via ENT-1 and ADA during apnoea-induced hypoxia in elite freedivers was similar to high-altitude adaptation. Methods: Ten freediver champions and ten controls were studied. Biological (e.g. ENT-1, ADA, ABL, PaO2, PaCO2 and pH) and cardiovascular (e.g. heart rate, arterial pressure) parameters were measured at rest and after a submaximal dry static apnoea. Results: In freedivers, ABL was higher than in control participants in basal condition and increased more in response to apnoea. Also, freedivers showed an ADA increased in response to apnoea. Finally, ENT-1 level and function were reduced for the free divers. Conclusion: Our results suggest in freedivers the presence of an adaptive mechanism similar to the one observed in human exposed to chronic hypoxia induced by high-altitude environment. [ABSTRACT FROM AUTHOR]

Published

2021

2. Cardiac alterations induced by a fish-catching diving competition.

Author

Gargne, O., Joulia, F., Golé, Y., Coulange, M., Bessereau, J., Fontanari, P., Desruelle, A.‐V., Gavarry, O., and Boussuges, A.

Subjects

DOPPLER ultrasonography, APNEA, BLOOD pressure, BODY temperature, BODY weight, CARDIAC output, COLD (Temperature), DIVING, ECHOCARDIOGRAPHY, FISHES, HEART beat, HEMODYNAMICS, LONGITUDINAL method, PROBABILITY theory, SCALES (Weighing instruments), STATISTICS, T-test (Statistics), DATA analysis, SPORTS events, SKIN temperature, VISUAL analog scale, ANKLE brachial index, DATA analysis software, STROKE volume (Cardiac output)

Abstract

Cardiac changes induced by repeated breath-hold diving were investigated after a fish-catching diving competition. Eleven healthy subjects carried out repeated breath-hold dives at a mean maximal depth of 20 ± 2.7 msw (66 ± 9 fsw) during 5 h. One hour after the competition, the body mass loss was −1.7 ± 0.5 kg. Most of the breath-hold divers suffered from cold and although the core temperature remained normal, a decrease in cutaneous temperature was recorded in the extremities. Systolic blood pressure was reduced in both upper and lower limbs. Heart rate was unchanged, but left ventricular (LV) stroke volume was reduced leading to a decrease in cardiac output (−20%). Left atrial and LV diameters were significantly decreased. LV filling was assessed on a trans-mitral profile. An increase in the contribution of the atrial contraction to LV filling was observed. Right cavity diameters were increased. The cardiac autonomic alterations were in favor of sympathetic hyperactivity. After a fish-catching diving competition in cold water, alterations suggesting dehydration, contraction in plasma volume and sympathetic hyperactivity were observed. Furthermore, enlargements of right cavities were in favor of right ventricular strains. Repeated apnea and swimming in cold water may account for these alterations. [ABSTRACT FROM AUTHOR]

Published

2012

3. Ultrasound lung comets induced by repeated breath-hold diving, a study in underwater fishermen.

Author

Boussuges, A., Coulange, M., Bessereau, J., Gargne, O., Ayme, K., Gavarry, O., Fontanari, P., and Joulia, F.

Subjects

*HEART radiography, *BLOOD pressure, *BODY fluids, *DIVING, *DOPPLER echocardiography, *EXTRACELLULAR space, *FISHING, *HEART function tests, *HEMODYNAMICS, *LUNGS, *LUNG injuries, *PROBABILITY theory, *PULMONARY edema, *PULMONARY function tests, *QUESTIONNAIRES, *SPIROMETRY, *STATISTICS, *T-test (Statistics), *ULTRASONIC imaging, *DATA analysis, *SPORTS events, *TORSO, *DATA analysis software

Abstract

Pulmonary edema has been reported in breath-hold divers during fish-catching diving activity. The present study was designed to detect possible increases in extravascular lung water (EVLW) in underwater fishermen after a competition. Thirty healthy subjects were studied. They participated in two different 5-h fish-catching diving competitions: one organized in the winter (10 subjects) and one organized in the autumn (20 subjects). A questionnaire was used to record underwater activity and note respiratory problems. An increase in EVLW was investigated from the detection of ultrasound lung comets (ULC) by chest ultrasonography. Complementary investigations included echocardiography and pulmonary function testing. An increase in EVLW was detected in three out of 30 underwater fishermen after the competition. No signs of cardiovascular dysfunction were found in the entire population and in divers with an increase in the ULC score. Two divers with raised ULC presented respiratory disorders such as cough or shortness of breath. Impairment in spirometric parameters was recorded in these subjects. An increase in EVLW could be observed after a fish-catching diving competition in three out of 30 underwater fishermen. In two subjects, it was related to respiratory disorders and impairment in pulmonary flow. [ABSTRACT FROM AUTHOR]

Published

2011