Abstract
We used biomimetic scaffolds, chondral scaffolds, and microfractures to repair experimentally created osteochondral defects in rat knees and then compared the results of each method. We used a total of 56 female Wistar albino rats. The rats were grouped into 4 groups, with 14 rats each: biomimetic scaffold, chondral scaffold, microfracture, and control groups. Cylindrical full-thickness osteochondral defects 2.5 mm in diameter and 2 mm in depth were drilled into the right knees with the rats under general anesthesia. The knees of all rats were operated again after 4 weeks. Biomimetic and chondral scaffolds were classified into two groups. Microfractures 0.5 mm in diameter and 0.8 mm in depth were created in the rats of the microfracture group. The control group received no treatment. All the rats were observed for 6 weeks and then sacrificed, with samples subjected to macroscopic and histopathological examinations. The macroscopic and histopathological results in the biomimetic scaffold group differed significantly from those of the other treatment groups (p<0.05). When we compared the 3 treatment groups, the results of the chondral scaffold group were better than those of the microfracture group. The results of the microfracture group were somewhat better than those of the control group, but the result was not statistically significant (p>0.05). Nanocomposite multilayer biomimetic scaffolds were better than chondral scaffolds and microfractures when used to treat osteochondral defects.
Highlights
Treatment of cartilage injury is one of the most popular topics in the field of orthopedics and traumatology [1,2,3]
The biomimetic scaffold group was found to be better in terms of 5 parameters, which were evaluated according to the modified Fortier scores
The parameters such as cartilage structure, cell abnormality, safranin-O staining, and tidemark integrity were found to be better in the biomimetic scaffold group than those in other groups
Summary
Treatment of cartilage injury is one of the most popular topics in the field of orthopedics and traumatology [1,2,3]. These include bone marrow stimulation techniques (abrasion, drilling, and microfracture), cell-based treatments (autologous chondrocyte transplantation or the use of bone marrow stem cells), defect-filling techniques (osteochondral autografts or allografts), the use of tissue engineering products (scaffolds and matrices), and the use of pharmacological agents [7,8,9]. Nanocomposite multilayer biomimetic scaffolds have been used to repair type 1 collagen, hydroxyapatite, cartilage, and osteochondral defects [9]. Such scaffolds are three-dimensional and imitate osteochondral tissue. Magnesium-hydroxyapatite; this stimulates subchondral bone production [10,11,12] Another treatment option is to use a chondral scaffold (a bioabsorbable joint implant). We aimed to compare the results of biomimetic scaffolds, chondral scaffolds, and microfractures by creating fullthickness osteochondral defects in the knees of rats
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