Stem cell sheet interpositioned between the tendon and bone would be better for healing than stem cell sheet overlaid above the tendon-to-bone junction in rotator cuff repair of rats

Although stem cells might enhance natural enthesis healing in surgical rotator cuff repair, not much attention has been given to the delivery and location of delivering stem cells. The purpose of this study to know where to locate those stem cells during repair. Animal model of chronic rotator cuff...

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Bibliographic Details
Published in:PloS one 2022-03, Vol.17 (3), p.e0266030
Main Authors: Choi, Jae Hee, Shim, In Kyong, Shin, Myung Jin, Lee, Yu Na, Koh, Kyoung Hwan
Format: Article
Language:English
Subjects:
Animal models
Animals
Antibodies
Biology and Life Sciences
Biomechanical Phenomena
Biomechanics
Bone growth
Bone healing
Collagen (type III)
Complications and side effects
Disease Models, Animal
Flow cytometry
Fluorescence
Gene expression
Green fluorescent protein
Healing
Histology
Humerus
In vivo methods and tests
Life sciences
Medical schools
Medicine
Medicine and Health Sciences
Mesenchymal stem cells
Methods
Patient outcomes
Polymerase chain reaction
Rats
Regeneration
Rotator cuff
Rotator Cuff - surgery
Rotator Cuff Injuries - pathology
Rotator Cuff Injuries - surgery
Rotator cuff repair
Stem cell transplantation
Stem Cells
Tendons - pathology
Transplantation
Transplants & implants
Wound Healing
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Summary:Although stem cells might enhance natural enthesis healing in surgical rotator cuff repair, not much attention has been given to the delivery and location of delivering stem cells. The purpose of this study to know where to locate those stem cells during repair. Animal model of chronic rotator cuff tear was created in 24 rats. Adipose-derived stem cells were engineered as a sheet and transplanted 1) between a torn tendon and humerus (interposition group) or 2) over a repaired tendon-to-bone junction (overlay group) at the time of surgical repair. Tracking of stem cells with overexpression of green fluorescent protein (GFP) were carried out at the time of sacrifice in additional 4 shoulders in each group. Histological and Biomechanical evaluation was performed to compare the differences in tendon-to-bone healing. Histology showed increased fibrocartilage, a clear boundary at the mineralized fibrocartilage, abundant collagen type III, and higher total scores, especially in the interposition group. GFP-overexpression was observed at the transplanted site at 2 weeks after repair. Although two groups where stem cell sheets applied showed higher load to failure than the repair-only group, the load to failure was not different between the interposition and overlay group. In the chronic rotator cuff repair model, stem cell sheets enhanced regeneration of the tendon-to-bone junction. This regeneration was effective when the stem cell sheet was interpositioned at the tendon-to-bone interface. Basic Science Study; In Vivo Animal Model; Histology and Biomechanics.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0266030