Abstract
The present study was planned to evaluate the efficacy of tendon derived hydrogel and hyaluronic acid in repair of experimentally induced superficial digital flexor tendon defect in rams, ultrasonographically with detection of vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) in blood. Thirty six adult rams were divided randomly into three equal groups: First group (control group) rams were subjected to partial removal of the superficial digital flexor tendon (SDFT), second group (tendon derived hydrogel group): rams were subjected to the same procedure as mentioned in first group except that the tendon defect was filled with tendon derived hydrogel directly, while third group (hyaluronic acid group): same procedure as in first group but the tendon defect was filled with hyaluronic acid directly. Clinically there was no pain, no infection, no signs of rejection and all wounds had healed completely in all rams, normal body temperature, except for the swelling which appeared in the first group in one ram at 30 days post operatively and two rams in third group at 60 days post operatively, all animals were able to stand and showed normal gait. Ultrasonographic results at 120th day post operation in first group showed, hypoechoic to hyperechoic regions at the site of the defect. At the same period for the second group the sonogram showed, well-aligned echoic tendon structure, while in the third group at the same period there were hypoechoic areas at the site of the defect. The results of bFGF and VEGF detection showed significant differences between the periods in first group at P≤0.05, while in second and third groups there were significant differences at P≤0.01for bFGF. The results of detection VEGF showed, significant differences in the mean values among the periods at P≤0.01in first group, also second group there was significant differences at P≤0.01. And in third group there was a significant difference at P≤0.05. Also there were significant differences among all groups P≤0.01in at 60th day postoperatively. In conclusion the tendon derived hydrogel matrix and the hyaluronic acid have a regenerative effect in repair of tendons injuries, but the superiority is for tendon derived hydrogel matrix.
Highlights
Tendon Injuries can be either intrinsic in the form of strain or extrinsic in the form of percutaneous injuries
The aim of this study is to evaluate tendon derived hydrogel and hyaluronic acid in repair of experimentally induced superficial digital flexor tendon defect in rams ultrasonographically and with detection of vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) in blood
The detection results of bFGF mean values showed nonsignificant differences at zero time among the three groups
Summary
Tendon Injuries can be either intrinsic in the form of strain or extrinsic in the form of percutaneous injuries. The emerging field of Tissue Engineering and Regenerative Medicine is increasingly being employed to design strategies for the repair of tendon tissue. These strategies are focused on the activation and enhancement of the body’s own repair system by using a combinatory approach that may include the application of cells, stimulatory factors, genes, and scaffolds [2].The published researches describe the production of decellularized scaffolds from non-homologous anatomical sites such as using of small intestine submucosa [3,4], Bovine Urinary Bladder Sub-mucosa [5], and pericardium and platelet-rich fibrin matrix (PRFM) [6]. Several attempts had been made to prepare Tendon derived hydrogel for augmentation of tendon repair [8,9]
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