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KMID : 0359420200380040217
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Korean Journal of Sports Medicine
2020 Volume.38 No. 4 p.217 ~ p.224
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Biological Enhancement of Healing with Kartogenin Injection at the Tendon-to-Bone Interface in a Rat Rotator Cuff Tear Model
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Kim Dong-Hyun
Min Seung-Gi
Kim Hun-Min
Choi Jin-Hyun
Lee Hyun-Joo
Park Kyeong-Hyeon
Yoon Jong-Pil
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Abstract
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Purpose: The purpose of this study was to investigate the effects of kartogenin (KGN) on the tendon-bone interface in a rat rotator cuff tear model.
Methods: Twenty male rats were divided into two equal groups; group 1 (repair only) and group 2 (KGN single injection). A rat rotator cuff rupture model was prepared, and KGN (500 ¥ìM) was injected into the repair site. The specimens were collected after 8 weeks, and biomechanical and histological analyses were performed. We assessed the healing quality of the tendon-to-bone repair site using six aspects of tendon tissue. The histological findings were classified semiquantitatively into four grades (grade 0, the poorest appearance; grade 1, poorer; grade 2, better; and grade 3, marked regeneration).
Results: Group 2 showed a higher mean ultimate load to failure than the control group (group 1: 25.78¡¾31.38 N, group 2: 55.64¡¾36.02 N; p=0.011). On histological analysis, group 2 exhibited a significantly greater total score (group 1: 7.20¡¾2.14, group 2: 9.50¡¾1.84; p=0.019), collagen fiber continuity (group 1: 1.20¡¾0.42, group 2: 1.70¡¾0.48; p=0.024), and collagen fiber density (group 1: 1.50¡¾0.52, group 2: 2.20¡¾0.63; p=0.080). Metachromasia were more intense in group 2 than in the control group.
Conclusion: A single injection of KGN reinforces biomechanical strength and the formation of collagen and fibrocartilage at the tendon-to-bone interface in a rat rotator cuff tear model.
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KEYWORD
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Collagen, Fibrocartilage, Kartogenin, Rotator cuff injuries
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