Literature DB >> 20166230

Reinforcing silk scaffolds with silk particles.

Rangam Rajkhowa1, Eun Seok Gil, Jonathan Kluge, Keiji Numata, Lijing Wang, Xungai Wang, David L Kaplan.   

Abstract

Silk fibroin is a useful protein polymer for biomaterials and tissue engineering. In this work, porogen leached scaffolds prepared from aqueous and HFIP silk solutions were reinforced through the addition of silk particles. This led to about 40 times increase in the specific compressive modulus and the yield strength of HFIP-based scaffolds. This increase in mechanical properties resulted from the high interfacial cohesion between the silk matrix and the reinforcing silk particles, due to partial solubility of the silk particles in HFIP. The porosity of scaffolds was reduced from approximately 90% (control) to approximately 75% for the HFIP systems containing 200% particle reinforcement, while maintaining pore interconnectivity. The presence of the particles slowed the enzymatic degradation of silk scaffolds.

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Year:  2010        PMID: 20166230      PMCID: PMC4112559          DOI: 10.1002/mabi.200900358

Source DB:  PubMed          Journal:  Macromol Biosci        ISSN: 1616-5187            Impact factor:   4.979


  40 in total

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Authors:  Yasushi Tamada
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4.  Porous silk scaffolds can be used for tissue engineering annulus fibrosus.

Authors:  G Chang; H-J Kim; D Kaplan; G Vunjak-Novakovic; R A Kandel
Journal:  Eur Spine J       Date:  2007-04-20       Impact factor: 3.134

5.  Non-bioengineered silk fibroin protein 3D scaffolds for potential biotechnological and tissue engineering applications.

Authors:  Biman B Mandal; Subhas C Kundu
Journal:  Macromol Biosci       Date:  2008-09-09       Impact factor: 4.979

6.  Protein secondary structure and orientation in silk as revealed by Raman spectromicroscopy.

Authors:  Thierry Lefèvre; Marie-Eve Rousseau; Michel Pézolet
Journal:  Biophys J       Date:  2007-02-02       Impact factor: 4.033

7.  An engineered spider silk protein forms microspheres.

Authors:  Ute K Slotta; Sebastian Rammensee; Stanislav Gorb; Thomas Scheibel
Journal:  Angew Chem Int Ed Engl       Date:  2008       Impact factor: 15.336

8.  Three-dimensional macroporous calcium phosphate bioceramics with nested chitosan sponges for load-bearing bone implants.

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9.  Engineering tumors with 3D scaffolds.

Authors:  Claudia Fischbach; Ruth Chen; Takuya Matsumoto; Tobias Schmelzle; Joan S Brugge; Peter J Polverini; David J Mooney
Journal:  Nat Methods       Date:  2007-09-02       Impact factor: 28.547

10.  The inflammatory responses to silk films in vitro and in vivo.

Authors:  Lorenz Meinel; Sandra Hofmann; Vassilis Karageorgiou; Carl Kirker-Head; John McCool; Gloria Gronowicz; Ludwig Zichner; Robert Langer; Gordana Vunjak-Novakovic; David L Kaplan
Journal:  Biomaterials       Date:  2005-01       Impact factor: 12.479
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  19 in total

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Authors:  Danyu Yao; Haifeng Liu; Yubo Fan
Journal:  Exp Biol Med (Maywood)       Date:  2015-10-06

2.  High-strength silk protein scaffolds for bone repair.

Authors:  Biman B Mandal; Ariela Grinberg; Eun Seok Gil; Bruce Panilaitis; David L Kaplan
Journal:  Proc Natl Acad Sci U S A       Date:  2012-05-02       Impact factor: 11.205

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Journal:  Small       Date:  2013-05-08       Impact factor: 13.281

4.  Intervertebral disk tissue engineering using biphasic silk composite scaffolds.

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Journal:  Tissue Eng Part A       Date:  2011-10-26       Impact factor: 3.845

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Authors:  Danielle N Rockwood; Eun Seok Gil; Sang-Hyug Park; Jonathan A Kluge; Warren Grayson; Sarindr Bhumiratana; Rangam Rajkhowa; Xungai Wang; Sung Jun Kim; Gordana Vunjak-Novakovic; David L Kaplan
Journal:  Acta Biomater       Date:  2010-07-23       Impact factor: 8.947

6.  Mechanical improvements to reinforced porous silk scaffolds.

Authors:  Eun Seok Gil; Jonathan A Kluge; Danielle N Rockwood; Rangam Rajkhowa; Lijing Wang; Xungai Wang; David L Kaplan
Journal:  J Biomed Mater Res A       Date:  2011-07-25       Impact factor: 4.396

7.  Regenerated silk materials for functionalized silk orthopedic devices by mimicking natural processing.

Authors:  Chunmei Li; Blake Hotz; Shengjie Ling; Jin Guo; Dylan S Haas; Benedetto Marelli; Fiorenzo Omenetto; Samuel J Lin; David L Kaplan
Journal:  Biomaterials       Date:  2016-09-20       Impact factor: 12.479

8.  Structure and biodegradation mechanism of milled Bombyx mori silk particles.

Authors:  Rangam Rajkhowa; Xiao Hu; Takuya Tsuzuki; David L Kaplan; Xungai Wang
Journal:  Biomacromolecules       Date:  2012-07-12       Impact factor: 6.988

Review 9.  Tissue engineering-based therapeutic strategies for vocal fold repair and regeneration.

Authors:  Linqing Li; Jeanna M Stiadle; Hang K Lau; Aidan B Zerdoum; Xinqiao Jia; Susan L Thibeault; Kristi L Kiick
Journal:  Biomaterials       Date:  2016-09-02       Impact factor: 12.479

10.  Nanoscale Control of Silks for Nanofibrous Scaffold Formation with Improved Porous Structure.

Authors:  Shasha Lin; Guozhong Lu; Shanshan Liu; Shumeng Bai; Xi Liu; Qiang Lu; Baoqi Zuo; David L Kaplan; Hesun Zhu
Journal:  J Mater Chem B       Date:  2014-05-07       Impact factor: 6.331
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