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KMID : 1377020160130040396
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Tissue Engineering and Regenerative Medicine
2016 Volume.13 No. 4 p.396 ~ p.402
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Effects of uniaxial cyclic stretch loading on morphology of adipose derived stem cells
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Mohsen Rabbani
Morteza Teymoori
Mohsen Janmaleki
Mohammad Tafazzoli-Shadpour
Seyedkamaladdin Rezvaninejad
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Abstract
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Adipose derived stem cells (ADSC) are good candidates for the replacement of bone marrow derived mesenchymal stem cells due to their abundance, multipotency property, and easier accessibility. In order to explore the behavior of these cells in response to mechanical stimulation, in this study we have investigated the effects of uniaxial dynamic mechanical loading on ADSC¡¯s morphology. Stem cells derived from the fat tissue of human and after an overnight culture were seeded on a silicone rubber strips. Afterwards, cells were subjected to a uniaxial dynamic loading in three different groups. Cell images were evaluated considering different morphological parameters. Fractal dimension decreased significantly after loading while in control groups there were a significant increase (p<0.05), approving that cyclic strain would lead to more aligned and organized cells. Cell orientation also increased significantly (p<0.05). Moreover cells¡¯ orientation angle, 24 hour after loading does not change compared to the observations immediately after loading, which attests to the practicality of the cyclic strain in functional tissue engineering. Cell width decreased and cell length increased which led to a significant increase in cell shape index (p<0.05). Results confirmed that uniaxial dynamic loading affects cell morphological parameters comparing their values before and after loading. In addition, the number of cycles are also an important factor since different number of cycles lead to different amounts of certain morphological parameters. Conclusively, cyclic strain can be a practical method in the field of functional tissue engineering.
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KEYWORD
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Adipose derived stem cell, Cyclic uniaxial mechanical loading, Cell morphology, Tissue engineering
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