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  • Girard, H. (1973). Adrenergic sensitivity of circulation in the chick embryo. American Journal of Physiology 224, 461469.
  • Giussani, D. A., Spencer, J. A. D. & Hanson, M. A. (1994). Fetal cardiovascular reflex responses to hypoxaemia. Fetal and Maternal Medicine Review 6, 1737.
  • Giussani, D. A., Riquelme, R. A., Moraga, F. A., McGarrigle, H. H., Gaete, C. R., Sanhueza, E. M., Hanson, M. A. & Llanos A. J. (1996). Chemoreflex and endocrine components of cardiovascular responses to acute hypoxemia in the llama fetus. American Journal of Physiology 271, R7383.
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  • Hamburger, V. & Hamilton, H. L. (1951). A series of normal stages in the development of the chick embryo. Journal of Morphology 88, 4992.
  • Hanson, M. A. (1988). The importance of baro- and chemoreflexes in the control of the fetal cardiovascular system. Journal of Developmental Physiology 10, 491511.
  • Hu, N. & Clark, E. B. (1989). Hemodynamics of the stage 12 to stage 29 chick embryo. Circulation Research 65, 16651670.
  • Iwamoto, H. S., Kaufman, T., Keil, L. C. & Rudolph, A. M. (1989). Responses to acute hypoxemia in fetal sheep at 0.6-0.7 gestation. American Journal of Physiology 256, H613620.
  • Jackson, B. T., Piasecki, G. J. & Novy, M. J. (1987). Fetal responses to altered maternal oxygenation in rhesus monkey. American Journal of Physiology 252, R94101.
  • Jensen, A., Roman, C. & Rudolph, A. M. (1991). Effects of reducing uterine blood flow on fetal blood flow distribution and oxygen delivery. Journal of Developmental Physiology 15, 309323.
  • Kurth, C. D. & Wagerle, L. C. (1992). Cerebrovascular reactivity to adenosine analogues on 0.6-0.7 gestation and near-term fetal sheep. American Journal of Physiology 262, H13381342.
  • Metcalfe, J. & Stock, M. K. (1993). Current topic: oxygen exchange in the chorioallantoic membrane, avian homologue of the mammalian placenta. Placenta 14, 605613.
  • Mulder, A. L. M., van Golde, J. C., Prinzen, F. W. & Blanco, C. E. (1997). Cardiac output distribution in the chick embryo stage 36 to 45. Cardiovascular Research 34, 525528.DOI: 10.1016/S0008-6363(97)00065-5
  • Peeters, L. L. H., Sheldon, R. E., Jones, M. D. J., Makowski, E. L. & Meschia, G. (1979). Blood flow to fetal organs as a function of arterial oxygen content. American Journal of Obstetrics and Gynecology 135, 637646.
  • Richardson, B., Korkola, S., Asano, H., Challis, J., Polk, D. & Fraser, M. (1996). Regional blood flow and the endocrine response to sustained hypoxemia in the preterm ovine fetus. Pediatric Research 40, 337343.
  • Romijn, C. & Roos, J. (1938). The air space of the hen's egg and its changes during the period of incubation. The Journal of Physiology 94, 365379.
  • Rurak, D. W. (1978). Plasma vasopressin levels during hypoxaemia and the cardiovascular effects of exogenous vasopressin in foetal and adult sheep. The Journal of Physiology 277, 341357.
  • Tazawa, H. (1981a). Adverse effect of failure to turn the avian egg on the embryo oxygen exchange. Respiratory Physiology 41, 137142.DOI: 10.1016/0034-5687(80)90047-X
  • Tazawa, H. (1981b). Effect of O2 and CO2 in N2, He and SF6 on chick embryo blood pressure and heart rate. Journal of Applied Physiology 51, 10171022.
  • van Bel, F., Sola, A., Roman, C. & Rudolph, A. M. (1995). Role of nitric oxide in the regulation of the cerebral circulation in the lamb fetus during normoxemia and hypoxemia. Biology of the Neonate 68, 200210.
  • van Golde, J., Mulder, T. & Blanco, C. E. (1996a). Changes in mean chorioallantoic blood flow and heart rate elicited by hypoxia in the developing chick embryo. Pediatric Research 39, 69A.
  • van Golde, J., Mulder, T., van Straaten, H. & Blanco, C. E. (1996b). The chorioallantoic artery blood flow of the chick embryo from stage 34 to 43. Pediatric Research 40, 867871.
  • van Oosterhout, M. F. M., Willigers, H. M. M., Reneman, R. S. & Prinzen, F. W. (1995). Fluorescent microspheres to measure organ perfusion: validation of a simplified sample processing technique. American Journal of Physiology 269, H725733.