Literature DB >> 16989736

Use of spider silk fibres as an innovative material in a biocompatible artificial nerve conduit.

Christina Allmeling1, Andreas Jokuszies, Kerstin Reimers, Susanne Kall, Peter M Vogt.   

Abstract

Defects of peripheral nerves still represent a challenge for surgical nerve reconstruction. Recent studies concentrated on replacement by artificial nerve conduits from different synthetic or biological materials. In our study, we describe for the first time the use of spider silk fibres as a new material in nerve tissue engineering. Schwann cells (SC) were cultivated on spider silk fibres. Cells adhered quickly on the fibres compared to polydioxanone monofilaments (PDS). SC survival and proliferation was normal in Live/Dead assays. The silk fibres were ensheathed completely with cells. We developed composite nerve grafts of acellularized veins, spider silk fibres and SC diluted in matrigel. These artificial nerve grafts could be cultivated in vitro for one week. Histological analysis showed that the cells were vital and formed distinct columns along the silk fibres. In conclusion, our results show that artificial nerve grafts can be constructed successfully from spider silk, acellularized veins and SC mixed with matrigel.

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Year:  2006        PMID: 16989736      PMCID: PMC3933158          DOI: 10.1111/j.1582-4934.2006.tb00436.x

Source DB:  PubMed          Journal:  J Cell Mol Med        ISSN: 1582-1838            Impact factor:   5.310


  31 in total

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Authors:  M B Hinman; J A Jones; R V Lewis
Journal:  Trends Biotechnol       Date:  2000-09       Impact factor: 19.536

2.  Use of tubes in peripheral nerve repair.

Authors:  L B Dahlin; G Lundborg
Journal:  Neurosurg Clin N Am       Date:  2001-04       Impact factor: 2.509

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4.  Fabricating autologous tissue to engineer artificial nerve.

Authors:  Biao Cheng; Zhengrong Chen
Journal:  Microsurgery       Date:  2002       Impact factor: 2.425

5.  The interaction of Schwann cells with chitosan membranes and fibers in vitro.

Authors:  Ying Yuan; Peiyun Zhang; Yuming Yang; Xiaodong Wang; Xiaosong Gu
Journal:  Biomaterials       Date:  2004-08       Impact factor: 12.479

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Journal:  Rev Neurol (Paris)       Date:  1996-05       Impact factor: 2.607

Review 7.  Expression and functional roles of neural cell surface molecules and extracellular matrix components during development and regeneration of peripheral nerves.

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Journal:  J Neurocytol       Date:  1994-01

Review 8.  Silk-based biomaterials.

Authors:  Gregory H Altman; Frank Diaz; Caroline Jakuba; Tara Calabro; Rebecca L Horan; Jingsong Chen; Helen Lu; John Richmond; David L Kaplan
Journal:  Biomaterials       Date:  2003-02       Impact factor: 12.479

9.  Comparison of different biogenic matrices seeded with cultured Schwann cells for bridging peripheral nerve defects.

Authors:  H Fansa; G Keilhoff
Journal:  Neurol Res       Date:  2004-03       Impact factor: 2.448

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Authors:  C Ide
Journal:  Neurosci Res       Date:  1996-06       Impact factor: 3.304
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  30 in total

Review 1.  Spider silk proteins: recent advances in recombinant production, structure-function relationships and biomedical applications.

Authors:  Anna Rising; Mona Widhe; Jan Johansson; My Hedhammar
Journal:  Cell Mol Life Sci       Date:  2010-07-29       Impact factor: 9.261

2.  Silk-Its Mysteries, How It Is Made, and How It Is Used.

Authors:  Davoud Ebrahimi; Olena Tokareva; Nae Gyune Rim; Joyce Y Wong; David L Kaplan; Markus J Buehler
Journal:  ACS Biomater Sci Eng       Date:  2015-08-24

3.  Spider silk fibres in artificial nerve constructs promote peripheral nerve regeneration.

Authors:  C Allmeling; A Jokuszies; K Reimers; S Kall; C Y Choi; G Brandes; C Kasper; T Scheper; M Guggenheim; P M Vogt
Journal:  Cell Prolif       Date:  2008-04-02       Impact factor: 6.831

4.  Natural and Genetically Engineered Proteins for Tissue Engineering.

Authors:  Sílvia Gomes; Isabel B Leonor; João F Mano; Rui L Reis; David L Kaplan
Journal:  Prog Polym Sci       Date:  2012-01-01       Impact factor: 29.190

5.  Silk fibroin conduits: a cellular and functional assessment of peripheral nerve repair.

Authors:  Amir Mahan Ghaznavi; Lauren E Kokai; Michael L Lovett; David L Kaplan; Kacey G Marra
Journal:  Ann Plast Surg       Date:  2011-03       Impact factor: 1.539

6.  Biological responses to spider silk-antibiotic fusion protein.

Authors:  Sílvia Gomes; Jabier Gallego-Llamas; Isabel B Leonor; João F Mano; Rui L Reis; David L Kaplan
Journal:  J Tissue Eng Regen Med       Date:  2011-06-29       Impact factor: 3.963

7.  Predictive modelling-based design and experiments for synthesis and spinning of bioinspired silk fibres.

Authors:  Shangchao Lin; Seunghwa Ryu; Olena Tokareva; Greta Gronau; Matthew M Jacobsen; Wenwen Huang; Daniel J Rizzo; David Li; Cristian Staii; Nicola M Pugno; Joyce Y Wong; David L Kaplan; Markus J Buehler
Journal:  Nat Commun       Date:  2015-05-28       Impact factor: 14.919

8.  Silk micrococoons for protein stabilisation and molecular encapsulation.

Authors:  Ulyana Shimanovich; Francesco S Ruggeri; Erwin De Genst; Jozef Adamcik; Teresa P Barros; David Porter; Thomas Müller; Raffaele Mezzenga; Christopher M Dobson; Fritz Vollrath; Chris Holland; Tuomas P J Knowles
Journal:  Nat Commun       Date:  2017-07-19       Impact factor: 14.919

9.  Engineered disulfides improve mechanical properties of recombinant spider silk.

Authors:  S Grip; J Johansson; M Hedhammar
Journal:  Protein Sci       Date:  2009-05       Impact factor: 6.725

10.  Purification and cytotoxicity of tag-free bioengineered spider silk proteins.

Authors:  Hanna Dams-Kozlowska; Agnieszka Majer; Paulina Tomasiewicz; Jolanta Lozinska; David L Kaplan; Andrzej Mackiewicz
Journal:  J Biomed Mater Res A       Date:  2012-08-03       Impact factor: 4.396
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