Several techniques were used to improve 0.3~0.5 mm microvascular anastomosis. These included (1) non-isolation of adventitia, (2) modified two—point anastomosis, (3) clamping only the inflow in veins anastomosis, (4) atraumatic measurement of vascular patency, (5) post operative stimulation by electromagnetic fields, which accelerated the healing of the vessels. The chance of patency following anastomosis in experimental group was significantly much greater than that in the control one (plt;0.001). We have have also used these techniques in 11 patients with fingers replantion or smaller lymphatic anastomosis. All of the operations were successful.
lfty white Leghorn hens were used,and 10 were randomly grouped as control,the other 40received the operation.A half of the profundus tendons of the second and third fore-toes of both sideswere cut.After the oporation,no Way immobiliZation was used.The oporated toes on one side wererandomly chosen as the treatment group,another side the oporated toes on the other side were served asthe control group. The toes having the injured tendons in the tratment group were irradiated for twentyminut...
Objective To examine an effect of the locally-used platelet derived growth factor-BB (PDGF-BB) on the healing of the medial collateral ligament (MCL) in the knee joints of rats. Methods Forty-eight rats were equally randomly divided into 2 groups: the experimental group (group A) and the control group(group B). MCL of all the rats were ruptured to establish the wound models. In group A, 5 μg of PDGF-BB was locally injected in the wound of each rat and then the wound was sutured; but in group B, the wound was only sutured. After 2 weeks, histological evaluations were performed to determine whether PDGF-BB could promote the healing of MCL. Results There were significantly more fibroblasts formed during the ligament healing process in group A than in group B (213.44±15.32 vs. 180.42±12.78, Plt;0.01). The fibroblasts were more mature andmore regularlyarranged in group A than in group B. The type, content, and crosslink of the collagen were improved to a greater extent in group A than in group B (Plt;0.01). Conclusion PDGF can promote the healing of the injured ligament.
Objective To study the effect of decorin in the suppression of postoperative flexor tendon adhesion. Methods Eighteen Japanese large ear white rabbits underwent complete transection of the Ⅱ digit flexor digitorum profundus tendon in zone Ⅱ and defects immediately were repaired using the modified Kessler technique with -0 nonabsorbable monofilament suture. The site of the right repaired tendon was then injected with 100 μl of decorin(0.25mg/ml) as test toe, the site of the left repaired tendon with 100 μl of PBS as control toe. Inevery group, rabbits were killed and the feet were prepared for biomechanical testing, macroscopic examination and histological inspection. Results In every group, biomechanical testing demonstrates that the sliding distances and the rangs of motion significantly increased in the test toe compared with the control toe(Plt;0.05); macroscopic examination demonstrated that the tendon adhesions of the test toe were significantly reduced when compared with the control toe. In the tese toe, hematoxylin and eosin staining revealed that the hyperplasia of fibroblast was significantly delayed and the collagen fibrils arranged regularly and hadthe normal diameters. Conclusion Decorin can significantly reduce the flexor tendon adhesion formation, adjust collagen fibrillogenesis and promote the tendon healing.
It is in urgent need clinically to look for an ideal substance for the coverage of burn wounds owing to shortage of autografts or allografts. After the cadaveric skin was extracted with acetic acid, salted out with NaCl and freeze-dried to prepare a porous collagen membrane. The membrane was seeded with allo-epidermal cells and allo-fibroblasts on its two sides, respectively, and then was cultured to achieve an artificial composite allograft. The artificial composite allograft was then transplanted onto ten severly burned wounds. One-year follow-up showed satisfactory results and the histological examination confirmed that the composite allograft could improve the adherence and growth of the epidermal cells and was helpful for blood vessels and healing of non-inflammatory connective tissues in the wounds.
Objective To investigate the effects of carboxymethylchitosan- carboxymethylcellulose (CMCH-CMC) film on the adhesion and heal ing of colonic anastomosis. Methods Sixty-four healthy adult male SD rats was randomly divided into control group and experimental group (n=32). The model of colonic anastomosis was made according to Buckenmaier’ smethod in all rats. The experimental group was treated by wrapping anastomosis with CMCH-CMC film (3 cm × 2 cm) and the control group was not treated. At 7 days and 14 days after operation, the adhesion formation of colonic anastomosis was observed, the tensile strength of the anstomosis was assessed and compared with 6 normal rats, and the hydroxyprol ine (HP) content of the anastomotsis was detected. Results There were 3 deaths in the experimental group and 2 deaths in the control group. The adhesive scores of the experimental group on the 7th and 14th postoperative day [(0.50 ± 0.16) points and (0.45 ± 0.14) points, (Plt; 0.05)] were significantly lower than those of the control group [(1.67 ± 0.15) points and (2.29 ± 0.18) points, (P lt; 0.05)], (Plt; 0.01). Tensile strength were more marked on the 14th postoperative day than on the 7th postoperative day in the control group (Plt; 0.05), but there was no significant difference between the 7th day and the 14th day in the experimental group. The tensile strength of thecontrol group and the experimental group on the 14th postoperative day [(178.36 ± 20.10) and (172.74 ± 22.18) mmHg] were respectively higher than those on the 7th postoperative day [(138.67 ± 16.65) and (130.81 ± 18.38) mmHg] (Plt; 0.01). The tensile strength of the control group and the experimental group on the 7th postoperative day were respectively significantly lower than that of the normal rats (P lt; 0.01). The level of HP in the anastomosis was significantly higher on the 7th postoperative day in the experimental group [(84.47 ± 11.87) μg/mg dried weight] than that of the control group [(55.47 ± 12.89) μg/mg dried weight), (Plt; 0.05)], but there was no significant difference between the experimental group and the control group on the 14th postoperative day [(146.07 ± 14.81) μg/mg dried weight, (137.14 ± 16.81) μg/mg dried weight, (P gt; 0.05)]. Conclusion The CMCH-CMC film can decrease adhesion the formation of colonic anastomosis, but does not interfere with the heal ing of colonic anastomosis.
One of the most difficult problems on tendon surgery is adhesion formation during the process of tendon healing, which causes functional interference. This pathophysiologic pcocess is closely related to the ways of tendon nourishment and types of tendon healing. In order to understand whether the sutured tendon couldheal without blood circulation, the process and types of tendon healing in the synovial fluid were studied by in vivo culture modle. Flexor digitorum profundus (FDP) segments from the front paw of 50 New Zedland white rabbits were cut inthe middle and sutured with microsurgical technique, and then, preserved in thesynovial cavitied of both knees of the rabbits. After 1, 2, 4, 6 weeks, the specimens from the synovial cavities were studied by gross observation, light microscope, scanning and transmission electron microscope, and biochemical determination. The results showed that the tendon which was nourished by synovial fluid not only could survive, but also could heal. Healing of the tendon was completed by activation and proliferation of both peritendon cells and cells in the tendon.The healing could be devided into 3 periods: malnutrition period (less than 1 week), reparative period (2-4 week) and rebuilding period (more than 4 week).
The comparative study of local application of magnetic piece dressings of different intensities (Gs) on the effect of survival of 48 skin flaps (2×5cm in size) and the healing of the incisional wornds was reported. Twelve Japanese long ear white rabbits were used for this study. It was noted that the magnetic field intensity of 200or 400 Gs showed remarkable increase of the area of survival of the skin flaps and enhancement of the healing of the incisional wounds.
Objective To introduce the research advance of the ligament injury and ligament healing.Methods Recent original articlesrelated to such aspects of ligament were reviewed extensively.Results The ligament properties would be influenced when the situations of the biochemistry and biomechanics had changed. Injuries to ligaments induce a healing response that is characterized by scar formation. Graft could not recovery the ultrastructure, anatomy and biomechanics of the normal ligament.Conclusion The healing ligament is weaker than normal one, and the graft could not reconstruct normal ligament at present.
In order to investigate the effect of repair of paratendon in tendon healing, two different ways were performed to repair the transected extensor tendons of chick’s toe. End to end suture of the extensor tenon was performed in group 1 while the paratendon was also repaired simultaneously in addition to suture of the tendon in group 2. Gross observation and histological examination were undertaken in the 3rd and 6th week after operation. The result showed, in group 1, extensive adhesion and irregular proliferation of fibroblasts was found in the 3rd week, severe adhesion and irregular arrangement of fibroblasts with less collagen fiber was found in the 6th week; while in group 2, smooth and regular "fusiform structure" was formed, slight adhesion and regular proliferation of fibroblasts were found in the 3rd week, adhesion disappeared and the structure of paratendon and tondon recovered in the 6th week. It was concluded that repair of extensor tendon and paratendon simultaneously could promote the intrinsic tendon healing and prevent tendon adhesion.