Exploring North East India's non-mulberry silk based bioinks for three dimensional bioprinting

Konwarh Rocktotpal

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Exploring North East India's non-mulberry silk based bioinks for three dimensional bioprinting

机译：探索东北印度的非桑树丝绸的三维生物印刷

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Three-dimensional bioprinting has catapulted research in the domain of tissue engineering and regenerative medicine to newer heights in recent years. In this milieu, silk-based bioink has garnered tremendous research thrust. Mulberry silkworm silk fibroin has found profound impetus for formulating biocompatible and mechanically robust bioink with high-cell loading potency, used in the fabrication of 3D bio-constructs for prospective clinical applications. Pertinently, North East India's non-mulberry silk varieties 'muga' and 'eri', endowed with specific cell-binding RGD sequence, exhibit special biomaterial-attributes including better mechanical resilience than their mulberry counterparts. The recent exploitation of the former for the formulation of novel bioinks to fabricate 3D constructs for prospective meniscus, cartilage and osteochondral tissue repair merits special mention. Their self-gelling attribute permits the evasion of the use of conventional toxic chemical cross-linkers. With prospective application in the niche of regenerative medicine, these non-mulberry silk varieties seem to have seeded new anticipations vis-a-vis increasing cases of degenerative diseases and associated morbidity.

机译：近年来，三维生物监测在组织工程和再生医学领域进行了弹药研究。在这个Milieu，丝绸的Bioink已经获得了巨大的研究推力。桑蚕蚕丝丝素发现了用于配制生物相容性和机械稳健的生物芯，其具有高细胞载荷效力的生物相容性和机械稳健的生物型，用于制造3D生物构建体的前瞻性临床应用。无论如何，东北印度的非桑树丝品种'Muga'和'Eri'，赋予特定的细胞结合RGD序列，表现出特殊的生物材料属性，包括比桑树对应物更好的机械弹性。最近对前者的开发用于制定新型生物芯片，用于制作前瞻性弯月面，软骨和骨科组织修复的3D构建体验特别提及。它们的自我凝胶属性允许逃避常规有毒化学交联剂的使用。随着再生医学利基的前瞻性应用，这些非桑椹丝品种似乎已经播种了新的预期患者患者的退行性疾病和相关的发病率。

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《Current Science: A Fortnightly Journal of Research》 |2020年第3期|共3页
作者
Konwarh Rocktotpal;
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Addis Ababa Sci &

Technol Univ Dept Biotechnol Addis Ababa 16417 Ethiopia;

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正文语种 eng
中图分类自然科学现状及发展;
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1. 印度东北部曼尼普尔区半常绿热带林地上生物量和净初级生产力 [J] . L. Supriya Devi P.S Yadava 林业研究：英文版 . 2009,第002期
2. Exploring North East India's non-mulberry silk based bioinks for three dimensional bioprinting [J] . Konwarh Rocktotpal Current Science: A Fortnightly Journal of Research . 2020,第3期

机译：探索东北印度的非桑树丝绸的三维生物印刷
3. Silk Fibroin Bioinks for Digital Light Processing (DLP) 3D Bioprinting [J] . Kim Soon Hee, Kim Do Yeon, Lim Tae Hyeon, Advances in Experimental Medicine and Biology . 2020,第1期

机译：用于数字光处理（DLP）3D BioPlinting的丝素蛋白生物蛋白
4. 3D Bioprinting Using Cross-Linker-Free Silk-Gelatin Bioink for Cartilage Tissue Engineering [J] . Singh Yogendra Pratap, Bandyopadhyay Ashutosh, Mandal Biman B. ACS applied materials & interfaces . 2019,第37期

机译：3D Bioplinting使用交叉连接的丝绸明胶生物膜用于软骨组织工程
5. Novel Enzymnatically Cross-linked Silk Fibroin Bioink for Bioprinting of Patient-Specific Memory-Shape Implants for Meniscus Regeneration [C] . Joao B. Costa, Joana Silva-Correia, Rui L. Reis, Society for Biomaterials annual meeting and exposition . 2019

机译：新型酶联交联的丝素蛋白生物墨水用于半月板再生的患者专用记忆体植入物的生物印刷
6. Designing Bioinks for 3D Bioprinting in Gel-Based Support Baths [D] . Lindsay, Christopher D. 2020

机译：在凝胶基支撑浴中设计3D生物印刷的生物型
7. Silk Based Bioinks for Soft Tissue Reconstruction Using 3-Dimensional (3D) Printing with in vitro and in vivo Assessments [O] . María J. Rodriguez, Joseph Brown, Jodie Giordano, -1

机译：丝绸基生物墨水用于通过3维（3D）打印进行体外和体内评估的软组织重建
8. Correction to: Silk Fibroin Bioinks for Digital Light Processing (DLP) 3D Bioprinting [O] . Soon Hee Kim, Do Yeon Kim, Tae Hyeon Lim, 2020

机译：校正：数字光处理丝素蛋白生物 - BioPrinting

Exploring North East India's non-mulberry silk based bioinks for three dimensional bioprinting

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