Pulmonary Function of Recreational Divers: A Cross Sectional Study

F. Lemaître; M. Bedu; J. Coudert

doi:10.1055/s-2002-29084

International Journal of Sports Medicine, Table of Contents

Int J Sports Med 2002; 23(4): 273-278
DOI: 10.1055/s-2002-29084

Physiology and Biochemistry

Pulmonary Function of Recreational Divers: A Cross Sectional Study

F. Lemaître¹ , M. Bedu¹ , J. Coudert¹

¹Laboratoire de Physiologie - Biologie du Sport, Faculté de Médecine, Université d’Auvergne, Clermont-Ferrand Cedex, France

Abstract

Long term effects on respiratory function have been found in adult professional divers and have indicated the development of small-airway disease. The aim of this report was to investigate pulmonary lung function and breathing pattern of recreational divers, especially in young subjects. Pulmonary function was measured in 84 air divers (aged 8 - 38 years) and in a matched control group of 89 subjects (aged 8 - 34 years). Static lung volumes, dynamic lung volumes and flows, transfer factor for carbon monoxide (T_Lco), maximal static pressures and CO₂ rebreathing test were measured. We observed no significant differences for all lung function parameters between divers and non divers in children and adolescents. Adult air divers showed a significant decrease in T_LCO in absolute values (5.74 vs 6.26 ml × min^-1 × mmHg^-1 × l^-1, p = 0.03) and normal values and no significant difference in % predicted (112 vs 119 %), a higher maximal inspiratory pressure at functional residual capacity (-92 vs -74 cm H₂O, p < 0.05) and at residual volume (-108 vs -88 cm H₂O, p < 0.05) than adult controls. Adult divers also had a decreased resting respiratory frequency (13 c × min^-1 vs 17 c × min^-1 respectively, p < 0.01) and a higher carbon dioxide threshold (52 mm Hg vs 49 mm Hg respectively, p < 0.05) than adult controls. No significant differences occurred between adults divers and non divers for obstruction parameters. In this study, no airway obstruction or transfer factor reduction was observed in young recreational divers. Lower CO₂ threshold and higher inspiratory pressure were obtained in adult recreational divers compared to controls.

Key words

Lung function - hyperbaric - diving

Full Text

References

1 Barthelemy P, Michaud A, Buestel C, Sebert P. Plongeurs sous-marins amateurs. Caractéristiques ventilatoires, cardiovasculaires et d‘aptitude à l‘effort. Médecine du Sport.. 1991; 65, 3 124-127
2 Barthelemy P, Mialon P, Sebert P, Scheydeker J L. Anomalies de la fonction respiratoire chez les pompiers-plongeurs sous-marins de la protection civile. Rev Pneumol Clin. 1990; 46 271-276
3 Berkenbosch A, Bovill J G, Dahan A, DeGoede J, Olievier I CW. The ventilatory CO₂ sensitivities from Read’s rebreathing method and the steady-state method are not equal in man. J Physiol. 1989; 411 367-377
4 Bermon S, Magnie M N, Dolisi C, Wolkiewiez J, Gastaud M. Decreased pulmonary diffusing capacity of divers over a 6 year period. Eur J Appl Physiol. 1997; 76 170-173
5 Bermon S, Lapoussière J M, Dolisi C, Wolkiewiez J, Gastaud M. Pulmonary function of a firemen-diver population: a longitudinal study. Eur J Appl Physiol. 1994; 69 456-460
6 Black L F, Hyatt R E. Maximal respiratory pressures: normal values and relationship to age and sex. Am Rev Respir Dis. 1969; 69 696-702
7 Cotes J E, Dabbs J M, Hall A M, Heywood C, Laurence K M. Sitting height, fat-free mass and body fat as reference variables for lung function in healthy british children: comparison with stature. Annals Human Biol. 1979; 6 307-314
8 Cotes J E, Davey I S, Reed J W, Rooks M. Respiratory effects of a single saturation dive to 300 m. Brit J Int Med. 1987; 44 76-82
9 Dembert M L, Beck G J, Jekel J F, Mooney L W. Relations of smoking and diving experience to pulmonary function among U.S. Navy Divers. Undersea Biomed Res. 1984; 11 299-304
10 Dujic Z, Eterovic D, Denoble P, Krstacic G, Tocilj J, Gosovic S. Effect of a single air dive on pulmonary diffusing capacity in professional divers. J Appl Physiol . 1993; 74 55-61
11 Froeb H F. Ventilatory response of scuba divers to CO₂ inhalations. J Appl Physiol . 1960; 16 8-10
12 Kerem D, Daskalovic Y I, Arielli R, Shupak A. CO₂ retention during hyperbaric exercise breathing 40/60 nitrox. Undersea & Hyperbaric Med. 1995; 22,4 339-346
13 Kerem D, Melamed Y, Moran A. Alveolar PCO₂ during rest and exercise in divers and non-divers breathing O₂ at 1 ATA. Undersea Biomed Res. 1980; 7 17-26
14 Knudson R J, Lebowitz M D, Holberg C J, Burrows B. Changes in normal expiratory flow-volume curve with growth and aging. Am Rev Respir Dis. 1983; 127 725-734
15 Lally D A, Zechman F W, Tracy R A. Ventilatory responses to exercise in divers and non-divers. Respir Physiol. 1974; 20 117-129
16 Maio D A, Farhi L E. Effect of gas density on mechanics of breathing. J Appl Physiol. 1967; 23 687-693
17 Mercier J, Ramonatxo M, Vago P, Prefaut C. Optimisation de la méthode d'hypercapnie progressive par la détermination du seuil de sensibilité. C R Soc Biol. 1986; 180 574-579
18 Quanjer H, Tammeling G J, Cotes J E, Pedersen O F, Peslin R, Yernault J C. Lung volumes and forced ventilatory flows. Eur Respir J. 1993; 6 5-40
19 Read D JC. A clinical method for assessing the ventilatory response to carbon dioxide. Austr Ann Med. 1967; 16 20-32
20 Reuter M, Tetzlaff K, Steffens J C, Gluer C C, Faeseke K P, Bettinghausen E, Heller M. Functional and high resolution computed tomographic studies of divers lungs. Scand J Work Environ Health. 1999; 25 67-74
21 Seely J E, Guzman C A, Becklake M R. Heart and lung function at rest and during exercise in adolescence. J Appl Physiol. 1974; 36 34-40
22 Skogstad M, Thorsen E, Haldorsen T. Lung function over the first 3 years of a professional diving career. Occup Environ Med. 2000; 57 390-395
23 Skogstad M, Haldorsen T, Kjuuss H. Pulmonary and auditory function among experienced construction divers: a cross sectional study. Aviat Space Environ Med. 1999; 70 644-649
24 Tetzlaff K, Staschen C M, Koch A, Heine L, Kampen J, Neubauer B. Respiratory pattern after wet and dry chamber dives to 0.6 MPa ambient pressure in healthy males. Respir Physiol. 1999; 118 219-226
25 Tetzlaff K, Neubauer B, Reuter M, Friege L. Atopy, airway reactivity and compressed air diving in males. Respiration. 1998b; 65 270-274
26 Tetzlaff K, Friege L, Reuter M, Mutzbauer T, Neubauer B. Expiratory flow limitation in compressed air divers and oxygen divers. Eur Respir J. 1998a; 12 895-899
27 Tetzlaff K, Staschen C M, Struck N, Mutzbauer T S. Respiratory effects of a single dive to 50 meters in sport divers with asymptomatic respiratory atopy. Int J Sports Med. 2001; 22 85-89
28 Thorsen E, Risberg J, Segadal K, Hope A. Effects of venous gas microemboli on pulmonary gas transfer function. Undersea & Hyperb Med. 1995; 22 347-353
29 Thorsen E, Segadal K, Kambestad B K. Mechanisms of reduced pulmonary function after a saturation dive. Eur Respir J. 1994; 7 4-10
30 Thorsen E, Segadal K, Kambestad B, Gulsvik A. Divers' lung function: a small airways disease?. Brit J Ind Med. 1990; 47 519-523
31 Thorsen E, Segadal K, Myrseth E, Passche A, Gulsvik A. Pulmonary mechanical function and diffusion capacity after deep saturation dives. Brit J Indust Med. 1990; 47 242-247
32 Thorsen E, Kambestad B K. Persistent small-airways dysfunction after exposure to hyperoxia. J Appl Physiol. 1995; 78,4 1421-1424
33 Thorsen E, Segadal K, Kambestad B, Gulsvik A. Pulmonary function one and four years after a deep saturation dive. Scand J Work Environ Health. 1993; 19 115-120
34 Thorsen E, Ronnestad I, Segadal K, Hope A. Respiratory effects of warm and dry air at increased ambient pressure. Undersea Biomed Res. 1992; 19 73-83
35 Wilson S H, Cooke N T, Edwards R HT, Spiro S G. Predicted normal values for maximal respiratory pressures in caucasian adults and children. Thorax. 1984; 39 535-538
36 Zapletal A, Motoyama E K, Van de Woestijine K P, Hunt V R, Bouhuys A. Maximum expiratory flow-volume curves and airway conductance in children and adolescents. J Appl Physiol. 1969; 26 308-316
37 Zapletal A, Paul T, Samanek M. Normalni hodnoty statickych plinich objenu a ventilace u deti a mladistvych. Cs Pediatr. 1976; 31 532-539

M. Bedu

Laboratoire d’Explorations Fonctionnelles Respiratoires et Sportives · Hôpital Gabriel-Montpied

30 place Henri-Dunant · 63000 Clermont-Ferrand Cedex · France ·

Phone: +33 4 7375 1664

Fax: +33 4 7375 1661

Email: mbedu@chu-clermontferrand.fr