References
- Avinash G B, Quirk W S, Nuttall A L. Three-dimensional analysis of contrast-filled microvessel diameters. Microvasc Res 1993; 45: 180–192
- Clough A V, Krenz G S, Owens M, Al-Tinawi A, Dawson C A, Linehan J H. An algorithm for angiographic estimation of blood vessel diameter. J Appl Physiol 1991; 71(5): 2050–2058
- Intaglietta M, Tompkins W R. Microvascular measurements by video image shearing and splitting. Microvasc Res 1973; 5: 309–312
- Intaglietta M, Tompkins W R. On-line measurement of microvascular dimensions by television microscopy. J Appl Physiol 1972; 32(4): 546–551
- Johnson P C. Measurement of microvascular dimensions in vivo. J Appl Physiol 1967; 23(4): 593–596
- Miles F P. Semiautomatic quantitative image analysis of dynamic in vivo cochlear microvessel diameters. Ph.D. Dissertation, The University of Michigan. 1987
- Miles F P, Nuttall A L. In vivo capillary diameters in the stria vascularis and spiral ligament of the guinea pig cochlea. Hearing Res 1988; 33: 191–200
- Miserocchi G, Negrini D, Del Fabbro M, Venturoli D. Pulmonary interstitial pressure in intact in situ lung: transition to interstitial edema. J Appl Physiol 1993; 74(3)1171–1177
- Negrini D. Pulmonary microvascular pressure profile during development of hydrostatic edema. Microcirculation. 1995, In press
- Negrini D, Gonano C, Miserocchi G. Microvascular pressure profile in intact in situ lung. J Appl Physiol 1992; 72(1): 332–339
- Pratt W K. Digital Image Processing. John Wiley & Sons, New York 1991
- Wiederhielm C A. Continuous recording of arteriolar dimensions with a television microscope. J Appl Physiol 1963; 18(5)1041–1042
- Yip C YJ, Aggarwal S J, Diller K R, Bovik C. Simultaneous multiple site arteriolar vasomotion measurement using digital image analysis. Microvasc Res 1991; 41: 73–83