1Sato T, Niwa M, Himeno A, et al. Quantitative receptor autoradiographic analysis for angiotensin Ⅱ receptors in bovine retinal microvessels: quantitation with radioluminography[ J].Cell Mol Neurobiol, 1993, 13(3): 233- 245.
2Yuan Y, Granger HJ, Zawieja DC, et al. Flow modulates coronary venular permeability by a nitric oxide - related mechanism[J]. Am J Physiol, 1992, 263(2 Pt 2): H641 - H646.
3Yuan Y, Granger HJ, Zawieja DC, et al. Histamine increases venular permeability via a phospholipase C - NO synthase -guanylate cyclase cascade[J]. Am J Physiol, 1993, 264(5 Pt 2): H1734 - H1739.
4Yuan Y, Chilian WM, Granger HJ, et al. Permeability to albumin in isolated coronary venules[J]. Am J Physiol, 1993,265(2 Pt 2): H543- H552.
5Huang QB, Yuan Y. Interaction of PKC and NOS in signal transduction of microvascular hyperpenneability [ J ]. Am J Physiol, 1997, 273(5 Pt 2): H2442- H2451.
6Huang QB, Wu HM, Meininger C, et al. Neutrophil - dependent augmentation of PAF- induced vasoconstriction and albumin flux in coronary arterioles[J]. Am J Physiol, 1998,275(4 Pt 2): H1138- H1147.
7Wu HM, Huang QB, Yuan Y, et al. VEGF induces NO -dependent hyperpermeability in coronary venules [ J ]. Am J Physiol, 1996, 271(6 Pt 2): H2735 - H2739.
8Wu HM, Yuan Y, Zawieja DC, et al. Role of phospholipase C, protein kinase C, and calcium in VEGF- induced venular hyperpermeability[ J ]. Am J Physiol, 1999, 276 (2 Pt 2 ):H535 - H542.
9Bates DO. The chronic effect of vascular endothelial growth factor on individually perfused frog mesenteric microvessels [J]. J Physiol, 1998, 513( Pt 1) :225 - 233.
10Bates DO, Heald RI, Curry FE, et al. Vascular endothelial growth factor increases Rana vascular permeability and compliance by different signalling pathways [ J ]. J Physiol, 2001,533(Pt 1): 263- 272.