horse; muscle; oxygenation; cytochrome aa3; near infrared spectroscopy
Abstract :
[en] This study examined the ability of near infrared spectroscopy (NIRS) to noninvasively determine changes to muscle oxygenation in the resting horse. Five horses had (NIRS) performed over extremity muscle while under general anaesthesia, first with 8 min limb ischaemia, then systemic hypoxaemia for 5 min. A second group of 6 awake horses had NIRS performed over extremity muscle while being administered hypoxic gas (F(I)O2 0.10) for 5 min, and after return to steady state, limb ischaemia was induced for an additional 5 min. In the anaesthetised horses' ischaemia induced marked and significant muscle deoxygenation of haemoglobin/myoglobin (P<0.01), with corresponding arterial saturation decreasing from 98.9 to 81.9%. Hypoxaemia induced small yet significant muscle deoxygenation (P<0.01) that was 3.2% of the ischaemia deoxygenation signal, with a corresponding decrease in arterial saturation from 98.6 to 90.4%. In the awake horses muscle deoxygenation was not detectable during hypoxia despite reduction of arterial saturation from 97.8 to 86.8%, whereas ischaemia induced rapid and significant deoxygenation of muscle (P<0.05), with corresponding reduction of venous saturation from 78.4 to 75.4%. In neither group of horses was there evidence of cytochrome aa3 reduction, despite complete ischaemia for up to 8 min. NIRS changes in the resting horse muscle clearly differed between ischaemia and hypoxaemia, and can readily show muscle deoxygenation in clinically relevant hypoxaemia in the horse under anaesthesia. Further, as the deoxygenation signal induced by ischaemia was clearly detectable above a background movement artefact, NIRS application to study of muscle oxygenation in the working horse should be explored.
Disciplines :
Anatomy (cytology, histology, embryology...) & physiology Veterinary medicine & animal health
Author, co-author :
Pringle, John; University of Prince Edward Island, Charlottetown PE, Canada C1A 4P3
Roberts, C.; Animal Health Trust, PO Box 5, Newmarket, Suffolk CB8 7DW, UK
Art, Tatiana ; Université de Liège - ULiège > Département de sciences fonctionnelles > Phys. neuro-muscul., de l'effort - Méd. sport. des animaux
Lekeux, Pierre ; Université de Liège - ULiège > Département de sciences fonctionnelles > Physiologie - Doyen de la Faculté de Médecine vétérinaire
Language :
English
Title :
Assessment of muscle oxygenation in the horse by near infrared spectroscopy
Publication date :
2000
Journal title :
Equine Veterinary Journal
ISSN :
0425-1644
eISSN :
2042-3306
Publisher :
Equine Veterinary Journal Ltd, Newmarket Suffolk, United Kingdom
Chance, B., Schoener, B. and Schindler, F. (1964) The intracellular oxidation-reduction state In: Oxygen in the Animal Organism, Eds F. Dickens and E. Neil, Pergammon, London. pp 367-387
Chance, B., Dait, M.T , Zhang, C., Hamaoka, T. and Hagerman, F. (1992) Recovery from exercise-induced desaturation in the quadriceps of elite competitive rowers. Am. J. Physiol. 262 (Cell Physiol. 31), C766-C775.
Cole, F. (1952) Tourniquet pain. Anesthesia Analgesia 31, 63-64.
Copland, V S , Hildebrand, S.V., Hill, T., Wong, P and Brock, N. (1989) Blood pressure response to tourniquet use in anaesthetized horses. J. Am. vet. Ass. 195, 1097-1103.
Cope, M. and Delpy, D.T. (1988) System for long-term measurement of cerebral blood and tissue oxygenation on newborn infants by near infra-red transillumination. Med. Biol. Eng. Comput. 26, 289-294.
Costes, F., Barthelemy, J.C., Feasson, L , Busso, T., Geyssant, A. and Denis, C (1996) Comparison of muscle near infrared spectroscopy and femoral blood gases during steady state exercise in humans J. appl. Physiol. 80, 1345-1350
Davie, A.J., Evans, D.L., Hodgson, D R. and Rose, R.J. (1995) Effects of intravenous dextrose infusion on muscle glycogen resynthesis after intense exercise Equine vet. J., Suppl. 18, 195-198.
De Blasi, R.A , Quaglia, E., Gasparetto, A and Ferrari, M. (1992) Muscle oxygenation by fast near infrared spectrophotometry (NIRS) in ischemic forearm. Adv expt Med. Biol. 316, 163-172.
Essén-Gustavsson, B., Nyman, G and Wagner, P.D (1995) Muscle and blood metabolic responses to intense exercise during acute hypoxia and hyperoxia Equine vet. J., Suppl. 18, 181-187
Ferrari, M , Williams, M.A , Wilson, D.A , Thakor, N.V., Traystman, R J. and Hanley, D F. (1995) Cat brain cytochrome-c oxidase redox changes induced by hypoxia after blood-fluorocarbon exchange transfusion. Am. J Physiol. 269, H417-H424.
Gunn, H.M. (1991) Growth changes in skeletal muscle histochemistry of thoroughbreds and other horses. In: Equine Exercise Physiology 3. Eds: S.G.B Persson, A Lindholm and L.B. Jeffcott, ICEEP Publications, Davis, California. pp 245-256.
Hampson, N.B. and Piantadosi, C.A. (1988) Near infrared monitoring of human skeletal muscle oxygenation during forearm ischemia. J. appl. Physiol. 64, 2449-2457.
Hutchison, D.T. and McClinton, M.A. (1993) Upper extremity tourniquet tolerance. J. Hand Surg. 18A, 206-210.
Jobsis, F F. (1977) Noninvasive, infrared monitoring of cerebral and myocardial oxygen sufficiency and circulatory parameters. Science 198, 1264-1267
Kolb, E (1963) The metabolism of iron in farm animals under normal and pathologic conditions. In: Advances in Veterinary Science, Academic Press, New York, 8, 50-114
Mancini, D M , Bolinger, L., Li, H., Kendrick, K., Chance, B. and Wilson, J.R. (1994) Validation of near-infrared spectroscopy in humans. J. appl Physiol. 77, 2740-2747.
McCully, K.K., Iotti, S., Kendrick, K., Wang, Z., Posner, J.D., Leigh, J. and Chance, B (1994) Simultaneous in vivo measurements of HbO2 saturation and PCr kinetics after exercise in normal humans. J. appl. Physiol. 77, 5-10
Piantadosi, C A., Hemstreet, T M and Jobsis-Vandervliet, F.F. (1986) Near-infrared spectrophotometric monitoring of oxygen distribution to intact brain and skeletal muscle tissues. Crit. Care Med. 14, 698-706.
Pringle, J , Roberts, C., Kohl, M. and Lekeux, P (1999) Near infrared spectroscopy in large animals; optical pathlength and influence of hair covering and epidermal pigmentation. Vet. J 158, 48-52.
Ronéus, N., Essén-Gustavsson, B., Johnson, C., Drevemo, S and Persson, S. (1995) Lactate response to maximal exercise on the track: relation to muscle characteristics and kinematic variables. Equine vet. J., Suppl. 18, 191-194
Sahlin, K. (1992) Non-invasive measurements of O2 availability in human skeletal muscle with near-infrared spectroscopy. Int. J. sports. Med. 13. (Suppl. 1), S157-S160
Stainsby, W.N., Brechue, W.F., O'Drobinak, D.M. and Barklay, J K (1989) Oxidation/reduction state of cytochrome oxidase during repetitive contractions. J appl Physiol. 67, 2158-2162.
Voet, D. and Voet, J.G (1990) Hemoglobin: Protein function in microcosm. In: Biochemistry, John Wiley and Sons, Toronto. pp 210-213.
White, N A and Saurez, M. (1986) Changes in triceps muscle intracompartmental pressure with repositioning and padding of the lowermost thoracic limb of the horse. Am J. vet. Res 47, 2257-2260.
Wray, S., Cope, M., Delpy, D.T., Wyatt, J S and Reynolds, E.O.R. (1988) Characterization of the near infrared absorption spectra of cytochrome aa3 and haemoglobin for the non-invasive monitoring of cerebral oxygenation. Biochimica Biophysica Acta. 933, 184-192
