Ratcheting behavior of adult and juvenile cartilage under rolling load / 中国组织工程研究
Chinese Journal of Tissue Engineering Research
;
(53): 2133-2139, 2021.
Article
in Chinese
| WPRIM
| ID: wpr-848026
ABSTRACT
BACKGROUND:
Domestic and foreign scholars have done a lot of researches on the stress of articular cartilage under different mechanical environments and cyclic compressive loads, but they mainly studied the effect of cartilage under the cyclic compressive load. Studies on the effects of age factor on the mechanical properties of cartilage and studies regarding the properties of cartilage in complex stress environments are not exhaustive.OBJECTIVE:
To investigate the effects of different rolling load conditions on the ratcheting behavior of adult and juvenile articular cartilage.METHODS:
Adult cartilage and juvenile cartilage were used as experimental objects, and the load was applied by a rolling load device under different experimental conditions (compression 10%, 20%, 30%; rolling rate 1.66, 3.44, 6.68 mm/s; defect width 1, 2,4 mm). At the same time, non-contact digital technology was used to collect the sample during the loading process, and the cyclical pressure was studied by analyzing and processing the image. The ratcheting behavior of adult and juvenile articular cartilage was studied under rolling load. RESULTS ANDCONCLUSION:
Under rolling load, the ratcheting strain of adult cartilage and juvenile cartilage showed a rapid increase followed by a slow increase tendency with the rolling load. With the increase of compression, the ratcheting strain of adult cartilage and juvenile cartilage increased. At the same amount of compression, the ratcheting strain of juvenile cartilage was greater than that of adult cartilage, and their ratcheting strain gradually decreased from the surface layer to the deep layer along the depth of cartilage. As the rolling rate increased, the ratcheting strain of adult cartilage and juvenile cartilage decreased. The ratcheting strain values and trends of 1 mm microdefect articular cartilage were similar to those of intact articular cartilage. Under the condition of 2,4 mm defect, the ratcheting strain value of the defected cartilage was higher than that of the intact cartilage.
Full text:
Available
Index:
WPRIM (Western Pacific)
Language:
Chinese
Journal:
Chinese Journal of Tissue Engineering Research
Year:
2021
Type:
Article
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