The development of an in vitroloading device for vascular tensile stress
10.3969/j.issn.2095-4344.2015.38.025
- VernacularTitle:血管张应力体外加载装置的研制
- Author:
Yanan LEI
;
Hao DING
;
Hailian LAN
;
Qian YANG
;
Zhilin LIU
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2015;(38):6205-6210
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:After years of development, various in vitro loading devices for vascular tension stress have been created both at home and abroad, mainly including rectangular base stretching method, circular base deformation method and four-point bending beam load method. Although the circular base deformation method can wel reflect the real situations in vivo such as the expansion of the alveoli and vascular pulsation, the strain on the membrane is actinomorphic. The four-point bending beam load method can just bring limited strain range and load time, along with a difficult strain regulation.
OBJECTIVE: To develop anin vitro loading device for vascular tension stress using the rectangular base stretching method.
METHODS:Thisin vitro loading device for vascular tension stress developed according to mechatronics design consisted of power supply module, control module, drive module and data acquisition module. The device could achieve the tensile control on silicon diaphragm by high-precision control of the motor rotation angle and rotational speed.
RESULTS AND CONCLUSION: Through tests and experiments, the device could meet the required range of parameters and simulatein vitro human tensile stress environment, which is preliminarily considered to develop successfuly, achieving that: (1) two work patterns: stress mode and strain mode so as to solve the standardization of silicone substrate as loading device; (2) tensile stress can be adjusted in a range of 0-5×105 Pa; (3) tensile strain can be adjusted in 0-40% range; (4) stretching frequency can be in the regulation of 0-80 times/min and the stretching time can be controled.
