Hematocrit determination in small bowel bore tubes from optical density measurements under white light illumination.
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S Chien | H. H. Lipowsky | S. Chien | S. Usami | R. Pittman | S Usami | H H Lipowsky | R N Pittman | H. Lipowsky | S. Chien | Roland N. Pittman | Shunichi Usami | Herbert H. Lipowsky
[1] W. H. Betts,et al. The axial drift of fresh and acetaldehyde-hardened erythrocytes in 25 mum capillary slits of various lengths. , 1975, Biorheology.
[2] E. Ponder. Hemolysis and related phenomena , 1948 .
[3] V. Twersky. Multiple scattering of waves and optical phenomena. , 1962, Journal of the Optical Society of America.
[4] J. S. Lee,et al. The measurement of hematocrit of blood flowing in glass capillaries by microphotometry. , 1973, Microvascular research.
[5] S Chien,et al. In vivo measurements of "apparent viscosity" and microvessel hematocrit in the mesentery of the cat. , 1980, Microvascular research.
[6] R. Pittman,et al. Measurement of percent oxyhemoglobin in the microvasculature. , 1975, Journal of applied physiology.
[7] P. Johnson. Red cell separation in the mesenteric capillary network. , 1971, The American journal of physiology.
[8] B. Zweifach,et al. Methods for the simultaneous measurement of pressure differentials and flow in single unbranched vessels of the microcirculation for rheological studies. , 1977, Microvascular research.
[9] V. Twersky,et al. Interface Effects in Multiple Scattering by Large, Low-Refracting, Absorbing Particles* , 1970 .
[10] R. Pittman,et al. A new method for the measurement of percent oxyhemoglobin. , 1975, Journal of applied physiology.
[11] B. Zweifach,et al. Application of the "two-slit" photometric technique to the measurement of microvascular volumetric flow rates. , 1978, Microvascular research.
[12] H Wayland,et al. Erythrocyte velocity measurement in microvessels by a two-slit photometric method. , 1967, Journal of applied physiology.
[13] M Intaglietta,et al. Microvascular measurements by video image shearing and splitting. , 1973, Microvascular research.
[14] M. Taylor,et al. The flow of blood in narrow tubes. I. A capillary microphotometer: an apparatus for measuring the optical density of flowing blood. , 1954, Australian Journal of Experimental Biology and Medical Science.
[15] M. Taylor. The flow of blood in narrow tubes. II. The axial stream and its formation, as determined by changes in optical density. , 1955, The Australian journal of experimental biology and medical science.
[16] Ronald A. Laing,et al. Multiple Scattering Analysis of Retinal Blood Oximetry , 1976, IEEE Transactions on Biomedical Engineering.
[17] W. R. Tompkins,et al. Velocity measurement by self‐tracking correlator , 1974 .
[18] J. H. Dial,et al. Influence of flow variations on capillary hematocrit in mesentery. , 1971, The American journal of physiology.
[19] V. Twersky. Absorption and multiple scattering by biological suspensions. , 1970, Journal of the Optical Society of America.
[20] E. Loewinger,et al. ANALYSIS OF A MICROMETHOD FOR TRANSMISSION OXIMETRY OF WHOLE BLOOD. , 1964, Journal of applied physiology.
[21] N. M. Anderson,et al. Light-absorbing and scattering properties of nonhaemolysed blood. , 1967, Physics in medicine and biology.
[22] P. Johnson,et al. Estimation of arteriolar volume flow from dual-slit red cell velocity: an in vivo study. , 1978, Microvascular research.
[23] N. M. Anderson,et al. Reflection and transmission of light by thin films of nonhaemolysed blood. , 1967, Physics in medicine and biology.
[24] G. Cokelet,et al. The Fahraeus effect. , 1971, Microvascular research.