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基于液压技术的煤矿用支架结构优化设计 被引量:2
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作者 张志飞 袁成健 燕全超 《内蒙古煤炭经济》 2023年第23期58-60,共3页
液压技术在煤矿行业中的应用十分重要,尤其在煤矿使用支架结构的设计当中。支架结构是煤矿行业承载巨大压力和保障安全的关键组成部分,应用液压技术时可以提供稳定的支撑力和灵活的调节能力,在保障煤矿工作安全性的同时提高生产效率。... 液压技术在煤矿行业中的应用十分重要,尤其在煤矿使用支架结构的设计当中。支架结构是煤矿行业承载巨大压力和保障安全的关键组成部分,应用液压技术时可以提供稳定的支撑力和灵活的调节能力,在保障煤矿工作安全性的同时提高生产效率。本文针对在液压技术的基础上煤矿用支架结构进行优化设计进行探讨。 展开更多
关键词 液压技术 煤矿 用支架结构 优化设计
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Whole meniscus regeneration using polymer scaffolds oaded with fibrochondrocytes
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作者 LU Hua-ding CAI Dao-zhang +2 位作者 WU Gang WANG Kun SHI De-hai 《Chinese Journal of Traumatology》 CAS 2011年第4期195-204,共10页
Objective: To study the feasibility of regenerating a whole menisci using poly-(3- hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) scaffolds loaded with meniscal cells in rabbits undergoing total meniscectomy, and t... Objective: To study the feasibility of regenerating a whole menisci using poly-(3- hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) scaffolds loaded with meniscal cells in rabbits undergoing total meniscectomy, and to explore its protective effect on carti- lage degeneration. Methods: A solvent casting and particulate leaching technique was employed to fabricate biodegradable PHBV scaffolds into a meniscal shape. The proliferated meniscal cells were seeded onto the polymer scaffolds, transplanted into rabbit knee joints whose lateral menisci had been removed. Eight to 18 weeks after transplantation, the rege- nerated neomenisci were evaluated by gross and histologi- cal observations. Cartilage Mankin score. degeneration was assessed by Results: Eighteen weeks after transplantation, the implants formed neomenisci. Hematoxylin and eosin (HE) staining of the neomenisci sections revealed regeneration of fibrocartilage. Type I collagen in the neomenisci was also proved similar to normal meniscal tissue by immunohis-tochemical analysis and Sirius scarlet trinitrophenol staining. Articular cartilage degeneration was observed 8 weeks af- ter implantation. It was less severe as compared with that in total meniscectomy controls and no further degeneration was observed at 18 weeks. At that time, the regenerated neomenisci strongly resembled normal meniscal fibrocarti- lage in gross and histological appearance, and its mechani- cal property was also close to that of normal meniscus. Conclusions: The present study demonstrates the feasibility of tissue-engineering a whole meniscal structure in total meniscectomy rabbit models using biodegradable PHBV scaffolds together with cultured allogeneic meniscal cells. Cartilage degeneration is decreased. But long-term in vivo investigations on the histological structure and cartilage degeneration of the neomenisci regenerated by this method are still necessary to determine the clinical potential of this tissue engineering avenue. 展开更多
关键词 Menisci tibial Polyesters Tissue engineering
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