We were able to safely place the acetabular cup at the anatomical position without femoral shortening by bringing the femoral head to the normal level preoperatively; thus, we could restore nearly normal limb length. We believe that our twelve-year results are similar to those of total hip arthroplasty in patients without dysplasia.
Although the flexor digitorum profundus (FDP) tendon’s gliding resistance is low, the lubrication mechanism that enables this is unclear. The principal lubricants in joints, such as hyaluronic acid, phospholipids, and lubricin, a lubricating glycoprotein, are known to be present in the canine tendon. In this study, we assessed the effect of these lubricants in the tendon by measuring gliding resistance before and after their removal. Canine FDP tendons were treated with hyaluronidase, phospholipase, lipid solvent, and/or trypsin. The gliding resistance of FDP tendons significantly increased after all treatments (p < 0.05). The largest effect on gliding resistance was observed after trypsin digestion. Scanning electron microscopy and immunostaining for hyaluronic acid and lubricin were used to qualitatively assess the tendon surface after treatments. The trypsin digestion produced the most irregular surface, with many exposed collagen fibers. The results of this study suggest that phospholipids, hyaluronic acid, and protein components are all involved in maintaining the low gliding resistance of the FDP tendon.
The aim of this study was to explore the potential for a better recovery outcome for the Achilles tendon at an early healing stage when a mixed biomaterial-tenocyte injection is used. The experimental animals underwent single limb Achilles tendon transection followed by suturing repair. A solution of either hyaluronic acid with or without tenocytes or normal saline was randomly chosen to be injected around the injury site after surgery. To obtain the comprehensive recovery condition of the rats on different management protocols, the animals were evaluated histologically, mechanically, and functionally. A significant difference in the recovery condition was found in the injured tendon injected with the hyaluronic acid solution with tenocytes compared with the other groups. Tendon stiffness and the locomotion abilities of the rats with healing Achilles tendons were improved in the hyaluronic acid with tenocyte transplantation group. The acceleration of the inflammatory phase in rats with the hyaluronic acid with tenocyte injections might be the major reason for the better functional outcomes.
Purpose Morphine is a commonly prescribed analgesic for wound pain. Previous studies have shown that morphine enhances accumulation of collagen in cultured fibroblasts. Because fibroblasts are important for the remodeling of connective tissue in incisional wound, this study investigates the biological effects of morphine on cutaneous collagen content and wound tensile strength. Methods A full-thickness incisional wound (2 cm in length) was created on the dorsum of mice followed by treatment with placebo or morphine (5 and 20 mg/kg/day, i.p.). Fourteen days later, tensile strength of the healed incisional wound was measured using a tensiometer. Protein expression of transforming growth factor (TGF)-b1 and matrix metalloproteinases (MMP)-2 in the incisional wound tissue was analyzed. Degree of tissue remodeling and levels of collagen were determined by histological examination and a dye-binding collagen assay, respectively. Results Morphine enhanced the breaking strength of incisional wound 14 days after treatment (92 ± 10, 102 ± 10 and 134 ± 12 mg for control, morphine 5 mg/ kg/day and morphine 20 mg/kg/day, respectively; P = 0.03, n = 6-7). Protein expression of TGF-b1 and MMP-2 was significantly enhanced in mice treated with morphine.
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