Abstract
Experimental studies on animals and humans exposed to hypoxic stress have been reviewed. These data suggest that the influence of hypoxic stress, and the organism's response to it, are greater during growth than during adulthood. The organism's responses include alterations in the quantity and size of the alveolar units of the lungs, enlargement of the right ventricle of the heart, slower somatic growth as measured by birth weight and body size, increased aerobic capacity during maximal work, and greater control of ventilation. It is postulated that the organism is more sensitive to the influence of environmental factors during growth and development than during adulthood. Consequently, adaptive traits acquired during the developmental period have profound, long-term consequences, which are reflected in the physiological and morphological characteristics of the adult organism. It is concluded that the differences between the highland and lowland natives in their physiological performance and morphology are mostly due to adaptations acquired during the developmental period.
Attention is called to the fact that the principle of developmental sensitivity and plasticity does not imply equally adaptive responses in all biological parameters. In other words, what we consider a deficiency in a given variable may actually reflect the indirect influence of the adaptive success of another variable.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
ADAMS, W. C., BERNAUER, E. M., DILL, D. B. and BOMAR, J. B. (1975): Effects of equivalent sea-level and altitude training on VO2 max and running performance. J. appl. Physiol.39 262–266.
ARIAS-STELLA, J. and RECAVARREN, S. (1962): Right ventricular hypertrophy in native children living at high altitude. Amer. J. Pathol.,41 55–59.
ARIAS-STELLA, J. and SALDANA, M. (1962): The muscular pulmonary arteries in people native to high altitude. Med. Thorac.,19 484–492.
BAKER, P. T. (1969): Human adaptation to high altitude. Science,163 1149–1156.
BALKE, B. (1960): Work capacity at altitude. In: Science and Medicine of Exercise and Sports, W. R. Johnson (ed.), Harper and Brothers, New York, 339–347.
BANCHERO, N., SIME, F., PENALOZA, D., CRUZ, J., GAMBOA, R. and MARTICORENA, E. (1966): Pulmonary pressure, cardiac output and arterial oxygen saturation during exercise at high altitude and at sea level. Circulation,33 249–262.
BARTLETT, D. and REMMERS, J. E. (1971): Effects of high altitude exposure on the lungs of young rats. Resp. Physiol.,13 116–125.
BARTLETT, D. Jr. (1972): Postnatal development of the mammalian lung. In: Regulation of Organ and Tissue Growth, R. Goss (ed.), Academic Press, New York, 197–209.
BOYCE, A. J., HAIGHT, J. S. J., RIMMER, D. B. and HARRISON, G. A. (1974): Respiratory Function in Peruvian Quechan Indians. Ann. Hum. Biol.,1 137–148.
BURRI, P. H. and WEIBEL, E. R. (1971): Morphometric estimation of pulmonary diffusion capacity. II. Effect of PO2 on the growing lung. Adaptation of the growing rat lung to hypoxia and hyperhypoxia. Resp. Physiol.,11 247–264.
BUSKIRK, E. R., KOLLIAS, J., AKERS, R. F., PROKOP, E. K. and PICON-REATEGUI, E. (1967): Maximal performance at altitude and on return from altitude in conditioned runners. J. appl. Physiol.,23 259–266.
CONSOLAZIO, C. F., JOHNSON, H. G., MATAUSH, L. O., NELSON, R. A. and ISAAC, G. J. (1967): Respiratory function in normal young adults at 3475 and 4300 meters. U.S. Army Med. Res. and Nutrition Lab., Report No. 300.
CUNNINGHAM, E. L., BRODY, J. S. and JAIN, B. P. (1974): Lung growth induced by hypoxia. J. appl. Physiol.,37 362–366.
DEGRAFF, A. C., GROVER, R. F., JOHNSON, R. L., HAMMOND, J. W. and MILLER, J. M. (1970): Diffusing capacity of the lung in Caucasians native to 3,100 m. J. appl. Physiol.,29 71–76.
DELAQUERRIERE-RICHARDSON, L., FORBES, E. S. and VALDIVIA, E. (1965): Effect of simulated high altitude on the growth rate of albino guinea pigs. J. appl. Physiol.,20 1022–1025.
DILL, D. B., MYHRE, L. G., BROWN, D. K., BURRUS, K. and GEHLSEN, G. (1967): Work capacity in chronic exposures to altitude. J. appl. Physiol.,23 555–560.
DUNNILL, M. S. (1962): Postnatal growth of the lung. Thorax,17 329–333.
ELSNER, R. W., BOLSTAD, A. and FORNO, C. (1964): Maximum oxygen consumption of Peruvian Indians native to high altitude. In: The Physiological Effects of High Altitude, W. H. Weihe (ed.), Pergamon Press, Oxford, 217–221.
FAULKNER, J., KOLLIAS, J., FAVOUR, O., BUSKIRK, E. and BALKE, B. (1968): Maximum aerobic capacity and running performance at altitude. J. appl. Physiol.,24 685–691.
FRISANCHO, A. R. (1969): Human growth and pulmonary function of a high altitude Peruvian Quechua population. Hum. Biol.,41 365–379.
FRISANCHO, A. R. (1970): Developmental responses to high altitude hypoxia. Amer. J. phys. Anthrop.,32 401–408.
FRISANCHO, A. R. (1975): Functional adaptation to high altitude hypoxia. Science,187 313–319.
FRISANCHO, A. R. (1976): Growth and morphology at high altitude. Part II: Adult morphology. In: Man in the Andes, P. T. Baker and M. A. Little (ed.), Dowden, Hutchinson and Sons, Inc., Stroudsburg, Pennsylvania, 200–207.
FRISANCHO, A. R. and BAKER, P. T. (1970): Altitude and growth: a study of the patterns of physical growth of a high altitude Peruvian Quechua population. Amer. J. phys. Anthrop.,32 279–292.
FRISANCHO, A. R., VELASQUEZ, T. and SANCHEZ, J. (1973): Influences of developmental adaptation on lung function at high altitude. Hum. Biol.,45 583–594.
FRISANCHO, A. R., VELASQUEZ, T. and SANCHEZ, J. (1975): Possible adaptive significance of small body size in the attainment of aerobic capacity among high altitude Quechua natives. In: Biosocial Interrelations in Population Adaptation, E. Watts, F. E. Johnston and G. Lasker (ed.), Mouton Publishers, 55–64.
FRISANCHO, A. R., MARTINEZ, C., VELASQUEZ, T., SANCHEZ, J. and MONTOYE, H. (1973): Influence of developmental adaptation on aerobic capacity at high altitude. J. appl. Physiol.,34 176–180.
GRAHN, D. and KRATHCMAN, J. (1963): Variation in neonatal death rate and birth weight in the United States and possible relations to environmental radiation, geology and altitude. Amer. J. Hum. Genet.,15 329–352.
GROVER, R. F., REEVES, J. T., WILL, D. H. and BLOUNT, S. G. (1963): Pulmonary vasoconstruction in steers at high altitude. J. appl. Physiol.,18 567–570.
GROVER, R. F., REEVES, J. T., GROVER, E. B. and LEATHERS, J. E. (1967): Muscular exercise in young men native to 3,100 m altitude. J. appl. Physiol.,22 555–564.
GULERIA, J. S., PAUDE, J. N., SETHI, P. K. and RAY, S. B. (1971): Pulmonary diffusing capacity at high altitude. J. appl. Physiol.,31 536–543.
HAAS, J. D. (1973): Altitudinal Variation and Infant Growth and Development in Peru. Ph.D. Thesis, Pennsylvania State University, University Park.
HARRIS, C. and HANSEN, J. E. (1966): Electrocardiographic changes during exposure to high altitude. Amer. J. Cardiol.,18 183–190.
HOFF, C. (1974): Altitudinal variations in the physical growth and development of Peruvian Quechua. Homo.,24 87–99.
HURTADO, A. (1932): Respiratory adaptation in the Indian natives of the Peruvian Andes. Studies at high altitude. J. phys. Anthrop.,17 137.
HURTADO, A. (1964): Animals in high altitudes: resident man. In: Adaptation to the Environment. D. B. Dill, E. F. Adolph and C. G. Wilber (ed.), Handbook of Physiology, Section 4, Wash. D.C., Amer. Physiol. Soc., 843–860.
JOHNSON, R. L., TAYLOR, H. F., DEGRAFF, A. C. (1965): Functional significance of a low pulmonary diffusing capacity for carbon monoxide. J. clin. Invest.,44 789–800.
KELLEY, F. C. and PACE, N. (1968): Etiological considerations in neonatal mortality among rats at moderate high altitude (3,800 m). Amer. J. Physiol.,214 1168–1175.
KOLLIAS, J., BUSKIRK, E. R., AKERS, R. F., PROKOP, E. K., BAKER, P. T. and PICON-REATEGUI, E. (1968): Work capacity of long-time residents and newcomers to altitude. J. appl. Physiol.,24 792–799.
KRUGER, H. and ARIAS-STELLA, J. (1970): The placenta and the newborn infant at high altitudes. Amer. J. Obstet. Gynec.,106 586–591.
LAHIRI, P. (1966): Muscular exercise in the Himalayan high-altitude residents. Fed. Proc.,25 1392–1396.
LAHIRI, S., DELANEY, R. G., BRODY, J. S., SIMPSER, M., VELASQUEZ, T., MOTOYAMA, E. K. and POLGAR, C. (1976): Relative role of environmental and genetic factors in respiratory adaptation to high altitude. Nature (Lond.),261 133–135.
LICHTY, J. A., TING, R. Y., BRUMS, P. D. and DYAR, E. (1957): Studies of babies born at high altitudes. I. Relation of altitude to birth weight. II. Measurement of birth weight, body length and head size. III. Arterial oxygen saturation and hematocrit values at birth. Amer. J. Dis. Child.,93 666–677.
MARTICORENA, E., PENALOZA, D., SEVERINO, J. and HELLRIEGEL, K. (1962): Insidencia de la persistencia del conduto arterioso en las grandes alturas. Memorias del IV Congreso Mundial de Cardiologia, Mexico,I-A 155–159.
MAZESS, R. B. (1969): Exercise Performance of Indian and White high altitude residents. Hum. Biol.,41 494–518.
MAZESS, R. B. (1975): Human Adaptation to High Altitude. In: Physiological Anthropology. A. Damon (ed.), Oxford University Press, London.
MCCLUNG, J. P. (1967): Placental and birth weights in two Peruvian populations-altitude effect. Amer. J. phys. Anthrop.,27 248.
MCCLUNG, J. P. (1969): Effects of high altitude on human birth; observations on mothers, placentas and the newborn in two Peruvian populations. Harvard University Press, Cambridge, Mass.
NELSON, M. L. and SREBNIK, H. H. (1970): Comparison of the reproductive performance of rats at high altitude (3,800 m) and at sea level. Int. J. Biometeor.,14 187–193.
PAWSON, I. G. (1974): The growth and development of high altitude children with special emphasis on populations of Tibetan origin in Nepal. Ph.D. thesis. Pennsylvania State University, University Park.
PENALOZA, D., SIME, F., BANCHERO, N., GAMBOA, R., CRUZ, J. and MARTICORENA, E. (1963): Pulmonary hypertension in healthy men born and living at high altitudes. Amer. J. Cardiol.,11 150.
PENALOZA, D., ARIAS-STELLA, J., SIME, F., RECAVARREN, S. and MARTICORENA, E. (1964): The heart and pulmonary circulation in children at high altitudes. Pediatrics,34 568–582.
PETROPOULOS, E. A. (1971): Rat placental growth and metabolism at high altitude (3,800 m). Anat. Rec.,169 401–402.
PETROPOULOS, E. A. and TIMIRAS, P. S. (1974): Biological Effects of High Altitude as related to increased solar radiation, temperature fluctuations and reduced partial pressure of oxygen. In: Progress in Biometeorology, Division A, vol. 1. The Effect of Weather and Climate on Man and his Living Environment, Swets & Zeitlinger, Amsterdam, 295–328.
RAHN, H. and HAMMOND, D. (1952): The vital capacity at reduced barometric pressure. J. appl. Physiol.,4 715–719.
REMMERS, J. E. and MITHOEFER, J. C. (1969): The carbon monoxide diffusing capacity in permanent residents at high altitudes. Resp. Physiol.,6 233–244.
ROTTA, A., CANEPA, A., HURTADO, A., VELASQUEZ, T. and CHAVEZ, R. (1956): Pulmonary circulation at sea level and at high altitudes. J. appl. Physiol.,9 328–332.
SANCHEZ, R. A. (1963): Estudio microscopio de 100 placentas en el Hospital Esperanza de Cerro de Pasco. Tesis de Bachillerato Universidad Nacional Mayor de San Marcos, Facultad de Medicina, Lima, Peru.
SIME, F., BANCHERO, N., PENALOZA, D., GAMBOA, R., CRUZ, J. and MARTICORENA, E. (1963): Pulmonary hypertension in children born and living at high altitude. Amer. J. Cardiol.,11 143–149.
SOBREVILLA, L. A., ROMERO, J., MONCLOA, F., DONAYRE, J. and GUERRA-GARCIA, R. (1967): Endocrine studies at high altitude. III. Urinary gonadotropins in subjects native to and living at 14,000 feet and during acute exposure of men living at sea level to high altitudes. Acta. endocr. (Kbh.),56 369–375.
SOBREVILLA, L. A. and SALAZAR, F. (1968): High altitude hyperuricemia. Proc. Soc. exp. Biol. (N.Y.),129 890–895.
SOBREVILLA, L. A. (1971): Analisis Matematico de la Relacion Ponderal Placenta: Recien Nacido en la Altura. In: Estudios sobre la Gestacion y el Recien Nacido en la Altura, R. Guerra-Garcia (ed.), Instituto de Investigaciones de la Altura, Universidad Peruana Cayetano Heredia, Peru, vol. 17.
U. S. Dept. of Health, Education and Welfare (1965): Weight at Birth and Survival of the Newborn. Publ. Hlth. Service Publ. 1000, series 23, 3, Washington, D.C.
VELASQUEZ, T. M. (1964): Response to physical activity during adaptation to altitude. In: The Physiological Effects of High Altitude, W. H. Weihe (ed.), Pergamon Press, Oxford, 289–299.
VELASQUEZ, T. and FLORENTINI, E. (1966): Maxima capacidad de difucion del pulmon en nativos de la altura. Archivos Instituto Biologia Andina,1 179–187.
WEIHE, W. H. (1965): Influence of altitude and cold on pregnancy and lactation of rats fed on two different diets. Int. J. Biometeor.,9 43–52.
WEINSTEIN, R. S. and HAAS, J. D. (1975): Maternal adaptation and infant birth weight and mortality at high altitude. Abstract. Amer. J. phys. Anthrop.,42 337.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Frisancho, A.R. Developmental adaptation to high altitude hypoxia. Int J Biometeorol 21, 135–146 (1977). https://doi.org/10.1007/BF01553707
Issue Date:
DOI: https://doi.org/10.1007/BF01553707