Literature DB >> 23849345

Injectable laminin-functionalized hydrogel for nucleus pulposus regeneration.

Aubrey T Francisco1, Robert J Mancino, Robby D Bowles, Jonathan M Brunger, David M Tainter, Yi-Te Chen, William J Richardson, Farshid Guilak, Lori A Setton.   

Abstract

Cell delivery to the pathological intervertebral disc (IVD) has significant therapeutic potential for enhancing IVD regeneration. The development of injectable biomaterials that retain delivered cells, promote cell survival, and maintain or promote an NP cell phenotype in vivo remains a significant challenge. Previous studies have demonstrated NP cell - laminin interactions in the nucleus pulposus (NP) region of the IVD that promote cell attachment and biosynthesis. These findings suggest that incorporating laminin ligands into carriers for cell delivery may be beneficial for promoting NP cell survival and phenotype. Here, an injectable, laminin-111 functionalized poly(ethylene glycol) (PEG-LM111) hydrogel was developed as a biomaterial carrier for cell delivery to the IVD. We evaluated the mechanical properties of the PEG-LM111 hydrogel, and its ability to retain delivered cells in the IVD space. Gelation occurred in approximately 20 min without an initiator, with dynamic shear moduli in the range of 0.9-1.4 kPa. Primary NP cell retention in cultured IVD explants was significantly higher over 14 days when cells were delivered within a PEG-LM111 carrier, as compared to cells in liquid suspension. Together, these results suggest this injectable laminin-functionalized biomaterial may be an easy to use carrier for delivering cells to the IVD.
Copyright © 2013 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Injectable; Intervertebral disc; Laminin; Nucleus pulposus; Organ culture; Polyethylene glycol

Mesh:

Substances:

Year:  2013        PMID: 23849345      PMCID: PMC3771102          DOI: 10.1016/j.biomaterials.2013.06.038

Source DB:  PubMed          Journal:  Biomaterials        ISSN: 0142-9612            Impact factor:   12.479


  59 in total

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3.  Matrix protein gene expression in intervertebral disc cells subjected to altered osmolarity.

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Review 4.  The role of disc cell heterogeneity in determining disc biochemistry: a speculation.

Authors:  T R Oegema
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9.  Transplantation of mesenchymal stem cells embedded in Atelocollagen gel to the intervertebral disc: a potential therapeutic model for disc degeneration.

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  43 in total

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2.  Regenerative medicine: Rebuilding the backbone.

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3.  Screening of hyaluronic acid-poly(ethylene glycol) composite hydrogels to support intervertebral disc cell biosynthesis using artificial neural network analysis.

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Review 4.  The role of laminins in cartilaginous tissues: from development to regeneration.

Authors:  Y Sun; T L Wang; W S Toh; M Pei
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5.  N-Cadherin-Mediated Signaling Regulates Cell Phenotype for Nucleus Pulposus Cells of the Intervertebral Disc.

Authors:  Priscilla Y Hwang; Liufang Jing; Keith W Michael; William J Richardson; Jun Chen; Lori A Setton
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Review 6.  Biomaterial-Guided Gene Delivery for Musculoskeletal Tissue Repair.

Authors:  Justin L Madrigal; Roberta Stilhano; Eduardo A Silva
Journal:  Tissue Eng Part B Rev       Date:  2017-03-10       Impact factor: 6.389

7.  Nanofibrous spongy microspheres to deliver rabbit mesenchymal stem cells and anti-miR-199a to regenerate nucleus pulposus and prevent calcification.

Authors:  Ganjun Feng; Zhanpeng Zhang; Ming Dang; Kunal J Rambhia; Peter X Ma
Journal:  Biomaterials       Date:  2020-06-21       Impact factor: 12.479

8.  Photocrosslinkable laminin-functionalized polyethylene glycol hydrogel for intervertebral disc regeneration.

Authors:  Aubrey T Francisco; Priscilla Y Hwang; Claire G Jeong; Liufang Jing; Jun Chen; Lori A Setton
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9.  Regulation of human nucleus pulposus cells by peptide-coupled substrates.

Authors:  Devin T Bridgen; Bailey V Fearing; Liufang Jing; Johannah Sanchez-Adams; Megan C Cohan; Farshid Guilak; Jun Chen; Lori A Setton
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10.  Dentin regeneration by stem cells of apical papilla on injectable nanofibrous microspheres and stimulated by controlled BMP-2 release.

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