Literature DB >> 16153086

Synthesis, material properties, and biocompatibility of a novel self-cross-linkable poly(caprolactone fumarate) as an injectable tissue engineering scaffold.

Esmaiel Jabbari1, Shanfeng Wang, Lichun Lu, James A Gruetzmacher, Syed Ameenuddin, Theresa E Hefferan, Bradford L Currier, Anthony J Windebank, Michael J Yaszemski.   

Abstract

A novel self-cross-linkable and biodegradable macromer, poly(caprolactone fumarate) (PCLF), has been developed for guided bone regeneration. This macromer is a copolymer of fumaryl chloride, which contains double bonds for in-situ cross-linking, and poly(epsilon-caprolactone), which has a flexible chain to facilitate self-cross-linkability. PCLF was characterized with Fourier transform infrared spectroscopy, 1H and 13C nuclear magnetic resonance spectroscopy, and gel permeation chromatography. Porous scaffolds were fabricated with sodium chloride particles as the porogen and a chemical initiation system. The PCLF scaffolds were characterized with scanning electron microscopy and micro-computed-tomography. The cytotoxicity and in vivo biocompatibility of PCLF were also assessed. Our results suggest that this novel copolymer, PCLF, is an injectable, self-cross-linkable, and biocompatible macromer that may be potentially used as a scaffold for tissue engineering applications.

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Year:  2005        PMID: 16153086      PMCID: PMC2530909          DOI: 10.1021/bm050206y

Source DB:  PubMed          Journal:  Biomacromolecules        ISSN: 1525-7797            Impact factor:   6.988


  47 in total

1.  Characterization of partially saturated poly(propylene fumarate) for orthopaedic application.

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2.  Initial biocompatibility studies of a novel degradable polymeric bone substitute that hardens in situ.

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Journal:  Bone       Date:  1996-07       Impact factor: 4.398

3.  Norian SRS cement augmentation in hip fracture treatment. Laboratory and initial clinical results.

Authors:  S B Goodman; T W Bauer; D Carter; P P Casteleyn; S A Goldstein; R F Kyle; S Larsson; C J Stankewich; M F Swiontkowski; A F Tencer; D N Yetkinler; R D Poser
Journal:  Clin Orthop Relat Res       Date:  1998-03       Impact factor: 4.176

4.  Resorption of, and bone formation from, new beta-tricalcium phosphate-monocalcium phosphate cements: an in vivo study.

Authors:  K Ohura; M Bohner; P Hardouin; J Lemaître; G Pasquier; B Flautre
Journal:  J Biomed Mater Res       Date:  1996-02

5.  Bioactive bone cement: the effect of amounts of glass powder and histologic changes with time.

Authors:  J Tamura; K Kawanabe; T Yamamuro; T Nakamura; T Kokubo; S Yoshihara; T Shibuya
Journal:  J Biomed Mater Res       Date:  1995-05

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Journal:  Science       Date:  1993-05-14       Impact factor: 47.728

7.  Injectable biodegradable polymer composites based on poly(propylene fumarate) crosslinked with poly(ethylene glycol)-dimethacrylate.

Authors:  S He; M J Yaszemski; A W Yasko; P S Engel; A G Mikos
Journal:  Biomaterials       Date:  2000-12       Impact factor: 12.479

8.  Biomechanical evaluation of fixation of intra-articular fractures of the distal part of the radius in cadavera: Kirschner wires compared with calcium-phosphate bone cement.

Authors:  D N Yetkinler; A L Ladd; R D Poser; B R Constantz; D Carter
Journal:  J Bone Joint Surg Am       Date:  1999-03       Impact factor: 5.284

Review 9.  Use of injectable calcium phosphate cement for fracture fixation: a review.

Authors:  Sune Larsson; Thomas W Bauer
Journal:  Clin Orthop Relat Res       Date:  2002-02       Impact factor: 4.176

10.  Recombinant human bone morphogenetic protein-2 and collagen for bone regeneration.

Authors:  J O Hollinger; J M Schmitt; D C Buck; R Shannon; S P Joh; H D Zegzula; J Wozney
Journal:  J Biomed Mater Res       Date:  1998
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  29 in total

1.  Solute transport in cyclically deformed porous tissue scaffolds with controlled pore cross-sectional geometries.

Authors:  Jorn Op Den Buijs; Lichun Lu; Steven M Jorgensen; Dan Dragomir-Daescu; Michael J Yaszemski; Erik L Ritman
Journal:  Tissue Eng Part A       Date:  2009-08       Impact factor: 3.845

2.  Achieving interconnected pore architecture in injectable PolyHIPEs for bone tissue engineering.

Authors:  Jennifer L Robinson; Robert S Moglia; Melissa C Stuebben; Madison A P McEnery; Elizabeth Cosgriff-Hernandez
Journal:  Tissue Eng Part A       Date:  2014-01-29       Impact factor: 3.845

3.  Reformulating polycaprolactone fumarate to eliminate toxic diethylene glycol: effects of polymeric branching and autoclave sterilization on material properties.

Authors:  M Brett Runge; Huan Wang; Robert J Spinner; Anthony J Windebank; Michael J Yaszemski
Journal:  Acta Biomater       Date:  2011-09-01       Impact factor: 8.947

4.  Injectable PolyMIPE Scaffolds for Soft Tissue Regeneration.

Authors:  Robert S Moglia; Jennifer L Robinson; Andrea D Muschenborn; Tyler J Touchet; Duncan J Maitland; Elizabeth Cosgriff-Hernandez
Journal:  Polymer (Guildf)       Date:  2014-01-14       Impact factor: 4.430

5.  The development of electrically conductive polycaprolactone fumarate-polypyrrole composite materials for nerve regeneration.

Authors:  M Brett Runge; Mahrokh Dadsetan; Jonas Baltrusaitis; Andrew M Knight; Terry Ruesink; Eric A Lazcano; Lichun Lu; Anthony J Windebank; Michael J Yaszemski
Journal:  Biomaterials       Date:  2010-05-21       Impact factor: 12.479

6.  Positively Charged Oligo[Poly(Ethylene Glycol) Fumarate] Scaffold Implantation Results in a Permissive Lesion Environment after Spinal Cord Injury in Rat.

Authors:  Jeffrey S Hakim; Melika Esmaeili Rad; Peter J Grahn; Bingkun K Chen; Andrew M Knight; Ann M Schmeichel; Nasro A Isaq; Mahrokh Dadsetan; Michael J Yaszemski; Anthony J Windebank
Journal:  Tissue Eng Part A       Date:  2015-07       Impact factor: 3.845

7.  Injectable polyHIPEs as high-porosity bone grafts.

Authors:  Robert S Moglia; Jennifer L Holm; Nicholas A Sears; Caitlin J Wilson; Dawn M Harrison; Elizabeth Cosgriff-Hernandez
Journal:  Biomacromolecules       Date:  2011-09-08       Impact factor: 6.988

8.  Photo-crosslinked poly(epsilon-caprolactone fumarate) networks for guided peripheral nerve regeneration: material properties and preliminary biological evaluations.

Authors:  Shanfeng Wang; Michael J Yaszemski; Andrew M Knight; James A Gruetzmacher; Anthony J Windebank; Lichun Lu
Journal:  Acta Biomater       Date:  2009-01-07       Impact factor: 8.947

9.  Potential of hydrogels based on poly(ethylene glycol) and sebacic acid as orthopedic tissue engineering scaffolds.

Authors:  Jinku Kim; Theresa E Hefferan; Michael J Yaszemski; Lichun Lu
Journal:  Tissue Eng Part A       Date:  2009-08       Impact factor: 3.845

10.  Three-dimensional porous biodegradable polymeric scaffolds fabricated with biodegradable hydrogel porogens.

Authors:  Jinku Kim; Michael J Yaszemski; Lichun Lu
Journal:  Tissue Eng Part C Methods       Date:  2009-12       Impact factor: 3.056
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