Literature DB >> 23070779

Synthetic hydrogel scaffold is an effective vehicle for delivery of INFUSE (rhBMP2) to critical-sized calvaria bone defects in rats.

Peter D Mariner1, Justin M Wudel, David E Miller, E Erin Genova, Sven-Olrik Streubel, Kristi S Anseth.   

Abstract

Medtronic's INFUSE Bone Graft provides surgeons with a potent tool for stimulating bone formation. Current delivery vehicles that rely on Absorbable Collagen Sponges (ACS) require excessive quantities of the active ingredient in INFUSE, recombinant human Bone Morphogenic Protein-2 (rhBMP2), to achieve physiologically relevant concentrations of the growth factor, driving up the cost of the product and increasing the likelihood of undesirable side effects in neighboring tissues. We demonstrate that a simple light-mediated, thiol-ene chemistry can be used to create an effective polymer delivery vehicle for rhBMP2, eliminating the use of xenographic materials and reducing the dose of rhBMP2 required to achieve therapeutic effects. Comprised entirely of synthetic components, this system entraps rhBMP2 within a biocompatible hydrogel scaffold that is degraded by naturally occurring remodeling enzymes, clearing the way for new tissue formation. When tested side-by-side with ACS in a critical-sized bone defect model in rats, this polymeric delivery system significantly increased bone formation over ACS controls.
Copyright © 2012 Orthopaedic Research Society.

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Year:  2012        PMID: 23070779      PMCID: PMC3565235          DOI: 10.1002/jor.22243

Source DB:  PubMed          Journal:  J Orthop Res        ISSN: 0736-0266            Impact factor:   3.494


  14 in total

Review 1.  Recombinant bone morphogenic protein-2 in orthopaedic surgery: a review.

Authors:  Mauricio A Valdes; Nikhil A Thakur; Surena Namdari; Deborah M Ciombor; Mark Palumbo
Journal:  Arch Orthop Trauma Surg       Date:  2009-03-12       Impact factor: 3.067

2.  Biomimetic peptide surfaces that regulate adhesion, spreading, cytoskeletal organization, and mineralization of the matrix deposited by osteoblast-like cells.

Authors:  A Rezania; K E Healy
Journal:  Biotechnol Prog       Date:  1999 Jan-Feb

Review 3.  PEGylated proteins: evaluation of their safety in the absence of definitive metabolism studies.

Authors:  Rob Webster; Eric Didier; Philip Harris; Ned Siegel; Jeanne Stadler; Lorraine Tilbury; Dennis Smith
Journal:  Drug Metab Dispos       Date:  2006-10-04       Impact factor: 3.922

4.  Repair of bone defects using synthetic mimetics of collagenous extracellular matrices.

Authors:  Matthias P Lutolf; Franz E Weber; Hugo G Schmoekel; Jason C Schense; Thomas Kohler; Ralph Müller; Jeffrey A Hubbell
Journal:  Nat Biotechnol       Date:  2003-04-21       Impact factor: 54.908

Review 5.  The importance of drug delivery to optimize the effects of bone morphogenetic proteins during periodontal regeneration.

Authors:  G N King
Journal:  Curr Pharm Biotechnol       Date:  2001-06       Impact factor: 2.837

6.  Administration of human recombinant bone morphogenetic protein-2 for spine fusion may be associated with transient postoperative renal insufficiency.

Authors:  Jonathan M Latzman; Li Kong; Chuanju Liu; Uzma Samadani
Journal:  Spine (Phila Pa 1976)       Date:  2010-04-01       Impact factor: 3.468

7.  Cytokine-mediated inflammatory reaction following posterior cervical decompression and fusion associated with recombinant human bone morphogenetic protein-2: a case study.

Authors:  Brett N Robin; Christopher D Chaput; Suzanne Zeitouni; Mark D Rahm; Vasilios A Zerris; H Wayne Sampson
Journal:  Spine (Phila Pa 1976)       Date:  2010-11-01       Impact factor: 3.468

8.  Enhanced proteolytic degradation of molecularly engineered PEG hydrogels in response to MMP-1 and MMP-2.

Authors:  J Patterson; J A Hubbell
Journal:  Biomaterials       Date:  2010-07-27       Impact factor: 12.479

Review 9.  A comprehensive clinical review of recombinant human bone morphogenetic protein-2 (INFUSE Bone Graft).

Authors:  William F McKay; Steven M Peckham; Jeffrey M Badura
Journal:  Int Orthop       Date:  2007-07-17       Impact factor: 3.075

10.  Poly(ethylene glycol) hydrogels formed by thiol-ene photopolymerization for enzyme-responsive protein delivery.

Authors:  Alex A Aimetti; Alexandra J Machen; Kristi S Anseth
Journal:  Biomaterials       Date:  2009-08-12       Impact factor: 12.479
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  23 in total

1.  Enhancement of the Regenerative Potential of Anorganic Bovine Bone Graft Utilizing a Polyglutamate-Modified BMP2 Peptide with Improved Binding to Calcium-Containing Materials.

Authors:  Jennifer L Bain; Paul P Bonvallet; Ramzi V Abou-Arraj; Peter Schupbach; Michael S Reddy; Susan L Bellis
Journal:  Tissue Eng Part A       Date:  2015-09       Impact factor: 3.845

Review 2.  Achieving Controlled Biomolecule-Biomaterial Conjugation.

Authors:  Christopher D Spicer; E Thomas Pashuck; Molly M Stevens
Journal:  Chem Rev       Date:  2018-07-24       Impact factor: 60.622

Review 3.  Skeletal tissue regeneration: where can hydrogels play a role?

Authors:  Liliana S Moreira Teixeira; Jennifer Patterson; Frank P Luyten
Journal:  Int Orthop       Date:  2014-06-27       Impact factor: 3.075

4.  Evaluation of rhBMP-2 and bone marrow derived stromal cell mediated bone regeneration using transgenic fluorescent protein reporter mice.

Authors:  Shalini V Gohil; Douglas J Adams; Peter Maye; David W Rowe; Lakshmi S Nair
Journal:  J Biomed Mater Res A       Date:  2014-03-03       Impact factor: 4.396

Review 5.  Treatment of critical-sized bone defects: clinical and tissue engineering perspectives.

Authors:  Erika Roddy; Malcolm R DeBaun; Adam Daoud-Gray; Yunzhi P Yang; Michael J Gardner
Journal:  Eur J Orthop Surg Traumatol       Date:  2017-10-28

Review 6.  Biomaterial strategies for engineering implants for enhanced osseointegration and bone repair.

Authors:  Rachit Agarwal; Andrés J García
Journal:  Adv Drug Deliv Rev       Date:  2015-04-08       Impact factor: 15.470

7.  Poly(ethylene glycol) diacrylate/hyaluronic acid semi-interpenetrating network compositions for 3-D cell spreading and migration.

Authors:  Ho-Joon Lee; Atanu Sen; Sooneon Bae; Jeoung Soo Lee; Ken Webb
Journal:  Acta Biomater       Date:  2014-12-15       Impact factor: 8.947

8.  Dimethyloxaloylglycine increases the bone healing capacity of adipose-derived stem cells by promoting osteogenic differentiation and angiogenic potential.

Authors:  Hao Ding; You-Shui Gao; Yang Wang; Chen Hu; Yuan Sun; Changqing Zhang
Journal:  Stem Cells Dev       Date:  2014-01-24       Impact factor: 3.272

9.  In vitro and in vivo evaluation of self-mineralization and biocompatibility of injectable, dual-gelling hydrogels for bone tissue engineering.

Authors:  Tiffany N Vo; Adam K Ekenseair; Patrick P Spicer; Brendan M Watson; Stephanie N Tzouanas; Terrence T Roh; Antonios G Mikos
Journal:  J Control Release       Date:  2014-12-05       Impact factor: 9.776

10.  Novel osteoinductive photo-cross-linkable chitosan-lactide-fibrinogen hydrogels enhance bone regeneration in critical size segmental bone defects.

Authors:  Sungwoo Kim; Katherine Bedigrew; Teja Guda; William J Maloney; Sangwon Park; Joseph C Wenke; Yunzhi Peter Yang
Journal:  Acta Biomater       Date:  2014-08-28       Impact factor: 8.947
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