1. Biologically Regulated Marrow Stimulation by Blocking TGF-β1 With Losartan Oral Administration Results in Hyaline-like Cartilage Repair: A Rabbit Osteochondral Defect Model.
- Author
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Utsunomiya, Hajime, Gao, Xueqin, Deng, Zhenhan, Cheng, Haizi, Nakama, Gilberto, Scibetta, Alex C., Ravuri, Sudheer K., Goldman, Julia L., Lowe, Walter R., Rodkey, William G., Alliston, Tamara, Philippon, Marc J., and Huard, Johnny
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ANALYSIS of variance , *ANIMAL experimentation , *BIOLOGICAL models , *BONE marrow , *CELLULAR signal transduction , *COMPARATIVE studies , *COMPUTED tomography , *EUTHANASIA , *FISHER exact test , *HISTOLOGICAL techniques , *ORAL drug administration , *RABBITS , *RESEARCH funding , *STATISTICS , *SYNOVIAL membranes , *T-test (Statistics) , *TRANSFORMING growth factors-beta , *WOUND healing , *ARTICULAR cartilage injuries , *STATISTICAL power analysis , *DATA analysis , *EFFECT sizes (Statistics) , *FIBROSIS , *TREATMENT effectiveness , *LOSARTAN , *DATA analysis software , *DESCRIPTIVE statistics - Abstract
Background: Microfracture or bone marrow stimulation (BMS) is often the first choice for clinical treatment of cartilage injuries; however, fibrocartilage, not pure hyaline cartilage, has been reported because of the development of fibrosis in the repair tissue. Transforming growth factor β1 (TGF-β1), which can promote fibrosis, can be inhibited by losartan and potentially be used to reduce fibrocartilage. Hypothesis: Blocking TGF-β1 would improve cartilage healing in a rabbit knee BMS model via decreasing the amount of fibrocartilage and increasing hyaline-like cartilage formation. Study Design: Controlled laboratory study. Methods: An osteochondral defect was made in the patellar groove of 48 New Zealand White rabbits. The rabbits were divided into 3 groups: a defect group (defect only), a BMS group (osteochondral defect + BMS), and a BMS + losartan group (osteochondral defect + BMS + losartan). For the rabbits in the BMS + losartan group, losartan was administrated orally from the day after surgery through the day of euthanasia. Rabbits were sacrificed 6 or 12 weeks postoperatively. Macroscopic appearance, microcomputed tomography, histological assessment, and TGF-β1 signaling pathway were evaluated at 6 and 12 weeks postoperatively. Results: The macroscopic assessment of the repair revealed that the BMS + losartan group was superior to the other groups tested. Microcomputed tomography showed superior healing of the bony defect in the BMS + losartan group in comparison with the other groups. Histologically, fibrosis in the repair tissue of the BMS + losartan group was significantly reduced when compared with the other groups. Results obtained with the modified O'Driscoll International Cartilage Repair Society grading system yielded significantly superior scores in the BMS + losartan group as compared with both the defect group and the BMS group (F value: 15.8, P <.001, P =.012, respectively). TGF-β1 signaling and TGF-β-activated kinase 1 of the BMS + losartan group were significantly suppressed in the synovial tissues. Conclusion: By blocking TGF-β1 with losartan, the repair cartilage tissue after BMS was superior to the other groups and consisted primarily of hyaline cartilage. These results should be easily translated to the clinic because losartan is a Food and Drug Administration–approved drug and it can be combined with the BMS technique for optimal repair of chondral defects. Clinical Relevance: Biologically regulated marrow stimulation by blocking TGF-β1 (oral intake of losartan) provides superior repair via decreasing fibrocartilage formation and resulting in hyaline-like cartilage as compared with outcomes from BMS only. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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