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  • ???硬腦(脊)膜補片

    可縫可貼 · 適用于硬腦(脊)膜缺損時的外科修補術

    可縫可貼

    ???易展開、具有良好的貼附能力。

    防止腦脊液漏

    ???結合合成材料的力學優勢和天然材料的貼附能力,在植入初期合成材料發揮機械力學優勢封閉缺損部位,天然材料形成良好的貼合封閉,防止腦脊液漏。

    防止腦脊液漏

    ???結合合成材料的力學優勢和天然材料的貼附能力,在植入初期合成材料發揮機械力學優勢封閉缺損部位,天然材料形成良好的貼合封閉,防止腦脊液漏。

    參考文獻

    [1]  Hoshiba, et al,. Langmuir, 34(13), 4043–4051, 2018.

    [2]  Sanders JE, et al,. Biomaterials. Mar;26(7):813-8, 2005.

    [3]  Kunxue Deng, Yaya Yang, et al. A Novel Biomimetic Composite Substitute of PLLA/Gelatin Nanofiber Membrane For Dura Repairing. Neurological Research, 2017 July 12.

    [4]  Zhidong Shi, Tao Xu, Yuyu Yuan,Kunxue Deng, et al. New Absorbable Synthetic Substitute With Biomimetic Design for Dural Tissue Repair. Artif Organs. 2015 Nov 2. doi: 10.1111/aor.12568. 

    [5]  Novel Regenerative Nanofibrous Bio-device for Dural Defect Repair. Congress of Neurological Surgeons Annual Meeting, Washington DC, USA, 2011. 

    [6]  In-vitro and clinical study on a novel synthetic absorbable biomimetic dural substitute. European Society for Pediatric Neurosurgery(ESPN) Congress, Rome, Italy, 2014. 

    [7]  Electrospum Fibrous Mats with High Porosity as Potential Scaffolds for Skin Tissue Engineering. Biomacromolecules, 2008,9(7):1795-1801. 

    [8]  Development of Novel Nanofibrous Dural Substitute for Dural Repair. The 14th World Federation of Neurological Societies Interim Meeting, Pernambuco, Brazil, 2011. 

    [9]  Francesco Zenga , et al. Nanofibrous Synthetic Dural Patch for Skull Base Defects: Preliminary Experience for Reconstruction after Extended Endonasal Approaches. Journal of Neurological Surgery Reports 2016;77:e50–e55. 

    [10]  Kunxue Deng, Xun Ye, Yaya Yang, Man Liu, et al. Evaluation of efficacy and biocompatibility of a new absorbable synthetic substitute as a dural   onlay graft in a large animal model. Neurological Research 2016.

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