Title :
Study of the Vascular Endothelial Cell Shape Change during Freezing
Author :
Zhang, Aili ; Xu, Lisa X. ; Sandison, George A. ; Cheng, Shuxia
Author_Institution :
Sch. of Life Sci. & Biotechnol., Shanghai Jiao Tong Univ.
Abstract :
Microvascular injury is recognized as a major tissue damage mechanism of ablative cryosurgery. Details of this injury mechanism are not completely understood. ECMatrixtrade 625 was used to mimic the tumor environment and to allow the endothelial cells cultured in vitro to form the tube-like structure of the vasculature. Influences of water dehydration and chilling effects on the endothelial cell and the integrity of the structure during freezing were studied. It was found that the initial cell shape change was mainly controlled by water dehydration, which is dependent on the cooling rate. As the cooling prolonged and temperature lowered, further cell shape change could be induced by chilling effects on intracellular proteins, and focal adhesions to the basement membrane, resulting in the final cell rounding and detachment of endothelial cells in vivo
Keywords :
biothermics; cellular biophysics; cooling; freezing; physiological models; tumours; ECMatrixtrade 625; ablative cryosurgery; chilling effects; cooling; focal adhesions; freezing; intracellular proteins; microvascular injury; tissue damage; tumor; vascular endothelial cell shape; water dehydration; Adhesives; Cells (biology); Cooling; In vitro; Injuries; Neoplasms; Proteins; Shape control; Temperature control; Tissue damage; Endothelial cell; chilling effects; dehydration; freezing; shape change;
Conference_Titel :
Engineering in Medicine and Biology Society, 2005. IEEE-EMBS 2005. 27th Annual International Conference of the
Conference_Location :
Shanghai
Print_ISBN :
0-7803-8741-4
DOI :
10.1109/IEMBS.2005.1616063
