组织工程
再生医学
材料科学
超细纤维
脚手架
细胞外基质
细胞生物学
伤口愈合
去细胞化
作者
Yas Maghdouri-White,Nardos Sori,Stella Petrova,Hilary Wriggers,Nathan Kemper,Amrita Dasgupta,Kelly Coughenour,Seth Polk,Nick Thayer,Rodriguez Dvm Mario,Bill Simon Dpm,Anna Bulysheva,Kevin Bonner,Steven Arnoczky Dvm,Samuel B. Adams,Michael Francis
标识
DOI:10.1088/1748-605x/abb875
摘要
Approximately 800, 000 surgical repairs are performed annually in the U.S. for debilitating injuries to ligaments and tendons of the foot, ankle, knee, wrist, elbow and shoulder, presenting a significant healthcare burden. To overcome current treatment shortcomings and advance the treatment of tendon and ligament injuries, we have developed a novel electrospun Tissue ENgineered Device (TEND), comprised of type I collagen and poly(D,L-lactide) (PDLLA) solubilized in a benign solvent, dimethyl sulfoxide (DMSO). TEND fiber alignment, diameter and porosity were engineered to enhance cell infiltration leading to promote tissue integration and functional remodeling while providing biomechanical stability. TEND rapidly adsorbs blood and platelet-rich-plasma (PRP), and gradually releases growth factors over two weeks. TEND further supported cellular alignment and upregulation of tenogenic genes from clinically relevant human stem cells within three days of culture. TEND implanted in a rabbit Achilles tendon injury model showed new in situ tissue generation, maturation, and remodeling of dense, regularly oriented connective tissue in vivo. In all, TEND's organized microfibers, biological fluid and cell compatibility, strength and biocompatiblility make significant progress towards clinically translating electrospun collagen-based medical devices for improving the clinical outcomes of tendon injuries.
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