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Colmorgen, M. and Paul, R. J (1995). Imaging of physiological functions in transparent animals ( Agonus cataphractus , Daphnia magna , Pholcus phalangioides ) by video microscopy and digital image processing. Comp. Biochem. Physiol 111, 583-.

Faber, J. J., Green, T. J. and Thornburg, K. L (1974). Embryonic stroke volume and cardiac output in the chick. Dev. Biol 41, 14-.[Medline]

Fagrell, B., Fronek, A. and Intaglietta, M (1977). A microscope\320television system for studying flow velocity in human skin capillaries. Am. J. Physiol 233, 318-.

Farrell, A. P., Sobin, S. S., Randall, D. J. and Crosby, S (1980). Intralamellar blood flow patterns in fish gills. Am. J. Physiol 239, 428-.

Feder, M. E. and Booth, D. T (1992). Hypoxic boundary layers surrounding skin-breathing aquatic amphibians: occurrence, consequences and organismal responses. J. Exp. Biol 166, 237-.[Abstract/Free Full Text]

Fritsche, R. and Burggren, W. W (1996). Development of cardiovascular responses to hypoxia in larvae of the frog Xenopus laevis. Am. J. Physiol 271, 912-.

Hanger, C. C., Hillier, S. C., Presson, R. G. J., Glenny, R. W. and Wagner, W. W. J (1995). Measuring pulmonary microvessel diameters using video image analysis. J. Appl. Physiol 79, 526-.[Abstract/Free Full Text]

Hou, P. C. L. and Burggren, W. W (1995). Cardiac output and peripheral resistance during larval development in the anuran amphibian Xenopus laevis. Am. J. Physiol 269, 1126-.

Hudetz, A. G (1997). Blood flow in the cerebral capillary network: A review emphasizing observations with intravital microscopy. Microcirculation 4, 233-.[Medline]

Hughes, G. M., Horimoto, M., Kikuchi, Y., Kakiuchi, Y. and Koyama, T (1981). Blood-flow velocity in microvessels of the gill filaments of the goldfish ( Carassius auratus L.). J. Exp. Biol 90, 327-.[Free Full Text]

Keller, B. B., MacLennan, M. J., Tinney, J. P. and Yoshigi, M (1996). In vivo assessment of embryonic cardiovascular dimensions and function in day-10.5 to-14.5 mouse embryos. Circ. Res 79, 247-.[Abstract/Free Full Text]

Koyama, T., Mishina, H. and Asakura, T (1975). A study ofmicrocirculation in web of frog ( Xenopus laevis Daudin) by using laser Doppler microscope. Experientia 31, 1420-.[Medline]

MacFarlane, T. W., Petrowski, S., Rigutto, L. and Roach, M. R (1983). Computer-based video analysis of cerebral arterial geometry using the natural fluorescence of the arterial wall and contrast enhancement techniques. Blood Vessels 20, 161-.[Medline]

Nilsson, G.E., L\232fman, C.O. and Block, M (1995). Extensive erythrocyte deformation in fish gills observed by in vivo microscopy: apparent adaptations for enhancing oxygen uptake. J. Exp. Biol 198, 1151-.[Abstract]

Pelster, B (1994). Adrenergic control of swimbladder perfusion in the European eel Anguilla anguilla. J. Exp. Biol 189, 237-.[Abstract]

Pelster, B. and Bemis, W. E (1992). Structure and function of the external gill filaments of embryonic skates ( Raja erinacea ). Respir. Physiol 89, 1-.[Medline]

Pinder, A. W. and Feder, M. E (1990). Effect of boundary layers on cutaneous gas exchange. J. Exp. Biol 143, 67-.

Schwerte, T., Axelsson, M., Nilsson, S. and Pelster, B (1997). Effects of vagal stimulation on swimbladder blood flow in the European eel Anguilla anguilla. J. Exp. Biol 200, 3133-.[Abstract]

Stensl\277kken, K.-O., Sundin, L. and Nilsson, G. E (1999). Cardiovascular and gill microcirculatory effects of endothelin-1 in Atlantic cod: evidence for pillar cell contraction. J. Exp. Biol 200, 1151-.

Stucker, M., Baier, V., Reuther, T., Hoffmann, K., Kellam, K and Altmeyer, P (1996). Capillary blood cell velocity in human skin capillaries located perpendicularly to the skin surface: measured by a new laser Doppler anemometer. Microvasc. Res 52, 188-.[Medline]

Sundin, L (1995). Serotonergic vasomotor control in fish gills. Braz. J. Med. Biol. Res 28, 1217-.[Medline]

Sundin, L. and Nilsson, G. E (1997). Neurochemical mechanisms behind gill microcirculatory responses to hypoxia in trout: in vivo microscopy study. Am. J. Physiol 272, 576-.

Vesely, I., Menkis, A. and Campbell, G (1990). A computerized system for video analysis of the aortic valve. IEEE Trans. Biomed. Eng 37, 925-.[Medline]

Weinstein, B. M., Schier, A. F., Abdelilah, S., Malicki, J., Solnica-Krezel, L., Stemple, D. L., Stainier, D. Y. R., Zwartkruis, F., Driever, W. and Fishman, M. C (1996). Hematopoietic mutations in the zebrafish. Development 123, 303-.[Abstract]

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