Title :
The VT model: a deterministic model of angiogenesis and biofractals based on physiological rules
Author :
Gottlieb, Marc E.
Author_Institution :
Dept. of Surg., Albany Med. Coll., NY, USA
Abstract :
A vascular tree (VT) model is developed that recreates vascular embryology and anatomy. It is a nonlinear deterministic process defined via topology and set theory. The accuracy of the model is due to its foundations in natural physiology. Real and VT angiogenesis are closed-loop control systems, with vessels growing reactively in response to inputs generated by tissue growth. This system creates efficient distribution networks. Critical mathematical features of real vessels, such as density and r-net concepts, are reproduced. VT structures, like real vessels, are fractal, and the VT model explains how a fractal anatomy can arise from a nonlinear physiology. It is argued that the VT model is a suitable analog of the circulation for bioengineering or physiological studies, and it may be a generalized model for the study of biofractals
Keywords :
fractals; physiological models; anatomy; angiogenesis; bioengineering; biofractals; closed-loop control systems; critical mathematical features; density; deterministic model; efficient distribution networks; nonlinear deterministic process; nonlinear physiology; physiological rules; r-net concepts; set theory; tissue growth; topology; vascular embryology; vascular tree model; Anatomy; Biological system modeling; Biomedical imaging; Blood vessels; Cells (biology); Educational institutions; Fractals; Mathematical model; Physiology; Surgery;
Conference_Titel :
Bioengineering Conference, 1991., Proceedings of the 1991 IEEE Seventeenth Annual Northeast
Conference_Location :
Hartford, CT
Print_ISBN :
0-7803-0030-0
DOI :
10.1109/NEBC.1991.154570
