Title :
Hydrodynamics of aqueous humor outflow
Author :
Johnson, M. ; Overby, D. ; Ruberti, J. ; Freddo, T.F. ; Gong, H.
Author_Institution :
MIT, Cambridge, MA, USA
Abstract :
We present a hydrodynamic model of the aqueous outflow pathway that can, for the first time, account for the generation of outflow resistance based upon anatomical measurements. The hydraulic conductivity of the extracellular matrix in the juxtacanalicular connective tissue (JCT) is determined by combining advanced morphometric techniques with electron microscopy images taken using quick-freeze/deep-etch to preserve ultrastructural detail. A hydrodynamic interaction between pores of the endothelium of Schlemm´s canal, breaks in the basement membrane, and this morphometrically-determined hydraulic conductivity lead to predictions that are consistent with experimentally-measured outflow resistances
Keywords :
biological fluid dynamics; biological specimen preparation; biothermics; diseases; eye; physiological models; transmission electron microscopy; Schlemm´s canal; anatomical measurements; aqueous humor outflow; aqueous outflow pathway; basement membrane; electron microscopy images; endothelium; extracellular matrix; hydrodynamic interaction; hydrodynamic model; juxtacanalicular connective tissue; morphometric techniques; morphometrically-determined hydraulic conductivity; outflow resistance; pores; quick-freeze/deep-etch; ultrastructural detail; Biomedical imaging; Biomembranes; Conductivity; Electrical resistance measurement; Electron microscopy; Extracellular; Hydrodynamics; Immune system; Irrigation; Time measurement;
Conference_Titel :
[Engineering in Medicine and Biology, 1999. 21st Annual Conference and the 1999 Annual Fall Meetring of the Biomedical Engineering Society] BMES/EMBS Conference, 1999. Proceedings of the First Joint
Conference_Location :
Atlanta, GA
Print_ISBN :
0-7803-5674-8
DOI :
10.1109/IEMBS.1999.804485
