低强度脉冲超声对人工韧带移植物-骨愈合的影响:一项体内外研究。
Effect of Low-Intensity Pulsed Ultrasound on the Graft-Bone Healing of Artificial Ligaments: An In Vitro and In Vivo Study.
机构信息
The Sports Medicine Department of Huashan Hospital, Fudan University, Shanghai, China.
Department of Orthopedics, the General Hospital of Fushun Mining Bureau of Liaoning Province, Fushun, China.
出版信息
Am J Sports Med. 2022 Mar;50(3):801-813. doi: 10.1177/03635465211063158.
BACKGROUND
As many researchers have focused on promoting the graft-bone healing of artificial ligaments, even with numerous chemical coatings, identifying a biosafe, effective, and immediately usable method is still important clinically.
PURPOSE
(1) To determine whether a low-intensity pulsed ultrasound system (LIPUS) promotes in vitro cell viability and osteogenic differentiation and (2) to assess the applicability and effectiveness of LIPUS in promoting the graft-bone healing of artificial ligaments in vivo.
STUDY DESIGN
Controlled laboratory study.
METHODS
Polyethylene terephthalate (PET) sheets and grafts were randomly assigned to control and LIPUS groups. MC3T3-E1 preosteoblasts were cultured on PET sheets. Cell viability and morphology were evaluated using a live/dead viability assay and scanning electron microscopy. Alkaline phosphatase activity, calcium nodule formation, and Western blot were evaluated for osteogenic differentiation. For in vivo experiments, the effect of LIPUS was evaluated via an extra-articular graft-bone healing model in 48 rabbits: the osteointegration and new bone formation were tested by micro-computed tomography and histological staining, and the graft-bone bonding was tested by biomechanical testing.
RESULTS
Cell viability was significantly higher in the LIPUS group as compared with control (living and dead compared between control and LIPUS groups, = .0489 vs = .0489). Better adherence of cells and greater development of extracellular matrix were observed in the LIPUS group. Furthermore, LIPUS promoted alkaline phosphatase activity, calcium nodule formation, and the protein expression of collagen 1 ( = .0002) and osteocalcin ( = .0006) in vitro. Micro-computed tomography revealed higher surrounding bone mass at 4 weeks and newly formed bone mass at 8 weeks in the LIPUS group ( = .0014 and = .0018). Histological analysis showed a narrower interface and direct graft-bone contact in the LIPUS group; the surrounding bone area at 4 weeks and the mass of newly formed bone at 4 and 8 weeks in the LIPUS group were also significantly higher as compared with control (surrounding bone, < .0001; newly formed bone, = .0016 at 4 weeks and = .005 at 8 weeks). The ultimate failure load in the LIPUS group was significantly higher than in the control group ( < .0001 at 4 weeks; = .0008 at 8 weeks).
CONCLUSION
LIPUS promoted the viability and osteogenic differentiation of MC3T3-E1 preosteoblasts in vitro and enhanced the graft-bone healing of PET artificial ligament in vivo.
CLINICAL RELEVANCE
LIPUS is an effective physical stimulation to enhance graft-bone healing after artificial ligament implantation.
背景
许多研究人员专注于促进人工韧带的移植物-骨愈合,尽管有许多化学涂层,但临床上仍需要寻找一种安全、有效且可立即使用的方法。
目的
(1)确定低强度脉冲超声系统(LIPUS)是否促进体外细胞活力和成骨分化;(2)评估 LIPUS 在促进人工韧带的移植物-骨愈合中的适用性和有效性。
研究设计
对照实验室研究。
方法
聚对苯二甲酸乙二醇酯(PET)片和移植物随机分配至对照组和 LIPUS 组。MC3T3-E1 前成骨细胞在 PET 片上培养。通过活/死活力测定和扫描电子显微镜评估细胞活力和形态。通过碱性磷酸酶活性、钙结节形成和 Western blot 评估成骨分化。对于体内实验,通过关节外移植物-骨愈合模型评估 LIPUS 的效果:在 48 只兔子中通过微计算机断层扫描和组织学染色测试骨整合和新骨形成,通过生物力学测试测试移植物-骨结合。
结果
与对照组相比,LIPUS 组的细胞活力明显更高(活细胞与死细胞的比较,=.0489 vs =.0489)。LIPUS 组观察到细胞附着更好,细胞外基质发育更大。此外,LIPUS 在体外促进碱性磷酸酶活性、钙结节形成和胶原蛋白 1(=.0002)和骨钙素(=.0006)的蛋白表达。微计算机断层扫描显示,LIPUS 组在 4 周时周围骨量更高,在 8 周时新形成的骨量更高(=.0014 和 =.0018)。组织学分析显示 LIPUS 组界面更窄,移植物与骨直接接触;LIPUS 组 4 周时周围骨面积和 4 周和 8 周时新形成骨的质量也明显高于对照组(周围骨,<.0001;新形成骨,4 周时=.0016,8 周时=.005)。LIPUS 组的最终失效负荷明显高于对照组(4 周时<.0001;8 周时=.0008)。
结论
LIPUS 促进了 MC3T3-E1 前成骨细胞的体外活力和成骨分化,并增强了 PET 人工韧带在体内的移植物-骨愈合。
临床相关性
LIPUS 是一种有效的物理刺激,可增强人工韧带植入后的移植物-骨愈合。
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