Literature DB >> 18851955

Dynamic compression can inhibit chondrogenesis of mesenchymal stem cells.

S D Thorpe1, C T Buckley1, T Vinardell1, F J O'Brien2, V A Campbell3, D J Kelly4.   

Abstract

The objective of this study was to investigate the influence of dynamic compressive loading on chondrogenesis of mesenchymal stem cells (MSCs) in the presence of TGF-beta3. Isolated porcine MSCs were suspended in 2% agarose and subjected to intermittent dynamic compression (10% strain) for a period of 42 days in a dynamic compression bioreactor. After 42 days in culture, the free-swelling specimens exhibited more intense alcian blue staining for proteoglycans, while immunohistochemical analysis revealed increased collagen type II immunoreactivity. Glycosaminoglycan (GAG) content increased with time for both free-swelling and dynamically loaded constructs, and by day 42 it was significantly higher in both the core (2.5+/-0.21%w/w vs. 0.94+/-0.03%w/w) and annulus (1.09+/-0.09%w/w vs. 0.59+/-0.08%w/w) of free-swelling constructs compared to dynamically loaded constructs. This result suggests that further optimization is required in controlling the biomechanical and/or the biochemical environment if such stimuli are to have beneficial effects in generating functional cartilaginous tissue.

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Year:  2008        PMID: 18851955     DOI: 10.1016/j.bbrc.2008.09.154

Source DB:  PubMed          Journal:  Biochem Biophys Res Commun        ISSN: 0006-291X            Impact factor:   3.575


  29 in total

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2.  Dynamic compression stimulates proteoglycan synthesis by mesenchymal stem cells in the absence of chondrogenic cytokines.

Authors:  John D Kisiday; David D Frisbie; C Wayne McIlwraith; Alan J Grodzinsky
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3.  Time-dependent processes in stem cell-based tissue engineering of articular cartilage.

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Review 4.  The effects of dynamic loading on the intervertebral disc.

Authors:  Samantha C W Chan; Stephen J Ferguson; Benjamin Gantenbein-Ritter
Journal:  Eur Spine J       Date:  2011-05-04       Impact factor: 3.134

5.  Long-term dynamic loading improves the mechanical properties of chondrogenic mesenchymal stem cell-laden hydrogel.

Authors:  Alice H Huang; Megan J Farrell; Minwook Kim; Robert L Mauck
Journal:  Eur Cell Mater       Date:  2010-02-26       Impact factor: 3.942

6.  Physical Stimulations for Bone and Cartilage Regeneration.

Authors:  Xiaobin Huang; Ritopa Das; Avi Patel; Thanh Duc Nguyen
Journal:  Regen Eng Transl Med       Date:  2018-06-25

Review 7.  Mechanical regulation of mesenchymal stem cell differentiation.

Authors:  Andrew J Steward; Daniel J Kelly
Journal:  J Anat       Date:  2014-11-09       Impact factor: 2.610

8.  Mechanical loading inhibits hypertrophy in chondrogenically differentiating hMSCs within a biomimetic hydrogel.

Authors:  E A Aisenbrey; S J Bryant
Journal:  J Mater Chem B       Date:  2016-03-15       Impact factor: 6.331

9.  Dynamic compressive loading enhances cartilage matrix synthesis and distribution and suppresses hypertrophy in hMSC-laden hyaluronic acid hydrogels.

Authors:  Liming Bian; David Y Zhai; Emily C Zhang; Robert L Mauck; Jason A Burdick
Journal:  Tissue Eng Part A       Date:  2011-12-02       Impact factor: 3.845

10.  Functional properties of bone marrow-derived MSC-based engineered cartilage are unstable with very long-term in vitro culture.

Authors:  Megan J Farrell; Matthew B Fisher; Alice H Huang; John I Shin; Kimberly M Farrell; Robert L Mauck
Journal:  J Biomech       Date:  2013-10-22       Impact factor: 2.712
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