Literature DB >> 10940414

A versatile shear and compression apparatus for mechanical stimulation of tissue culture explants.

E H Frank1, M Jin, A M Loening, M E Levenston, A J Grodzinsky.   

Abstract

We have developed an incubator housed, biaxial-tissue-loading device capable of applying axial deformations as small as 1 microm and sinusoidal rotations as small as 0.01 degrees. Axial resolution is 50 nm for applying sinewaves as low as 10 microm (or 1% based on a 1 mm thickness) or as large as 100 microm. Rotational resolution is 0.0005 degrees. The machine is small enough (30 cm high x 25 cm x 20 cm) to be placed in a standard incubator for long-term tissue culture loading studies. In metabolic studies described here, application of sinusoidal macroscopic shear deformation to articular cartilage explants resulted in a significant increase in the synthesis of proteoglycan and proteins (uptake of (35)S-sulfate and (3)H-proline) over controls held at the same static offset compression.

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Year:  2000        PMID: 10940414     DOI: 10.1016/s0021-9290(00)00100-7

Source DB:  PubMed          Journal:  J Biomech        ISSN: 0021-9290            Impact factor:   2.712


  38 in total

1.  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
Journal:  Tissue Eng Part A       Date:  2009-10       Impact factor: 3.845

2.  Using functional tissue engineering and bioreactors to mechanically stimulate tissue-engineered constructs.

Authors:  David L Butler; Shawn A Hunter; Kumar Chokalingam; Michael J Cordray; Jason Shearn; Natalia Juncosa-Melvin; Sanjit Nirmalanandhan; Abhishek Jain
Journal:  Tissue Eng Part A       Date:  2009-04       Impact factor: 3.845

Review 3.  Physical stimulation of chondrogenic cells in vitro: a review.

Authors:  Sibylle Grad; David Eglin; Mauro Alini; Martin J Stoddart
Journal:  Clin Orthop Relat Res       Date:  2011-10       Impact factor: 4.176

4.  The role of tissue engineering in articular cartilage repair and regeneration.

Authors:  Lijie Zhang; Jerry Hu; Kyriacos A Athanasiou
Journal:  Crit Rev Biomed Eng       Date:  2009

5.  Design of a biaxial mechanical loading bioreactor for tissue engineering.

Authors:  Bahar Bilgen; Danielle Chu; Robert Stefani; Roy K Aaron
Journal:  J Vis Exp       Date:  2013-04-25       Impact factor: 1.355

6.  Quantitative proteomics analysis of cartilage response to mechanical injury and cytokine treatment.

Authors:  Yang Wang; Yang Li; Areej Khabut; Susan Chubinskaya; Alan J Grodzinsky; Patrik Önnerfjord
Journal:  Matrix Biol       Date:  2016-12-15       Impact factor: 11.583

7.  Moderate dynamic compression inhibits pro-catabolic response of cartilage to mechanical injury, tumor necrosis factor-α and interleukin-6, but accentuates degradation above a strain threshold.

Authors:  Y Li; E H Frank; Y Wang; S Chubinskaya; H-H Huang; A J Grodzinsky
Journal:  Osteoarthritis Cartilage       Date:  2013-09-03       Impact factor: 6.576

8.  Co-culture of mechanically injured cartilage with joint capsule tissue alters chondrocyte expression patterns and increases ADAMTS5 production.

Authors:  J H Lee; J B Fitzgerald; M A DiMicco; D M Cheng; C R Flannery; J D Sandy; A H Plaas; A J Grodzinsky
Journal:  Arch Biochem Biophys       Date:  2009-07-14       Impact factor: 4.013

9.  Ultrastructural quantification of cell death after injurious compression of bovine calf articular cartilage.

Authors:  P Patwari; V Gaschen; I E James; E Berger; S M Blake; M W Lark; A J Grodzinsky; E B Hunziker
Journal:  Osteoarthritis Cartilage       Date:  2004-03       Impact factor: 6.576

10.  Transport of anti-IL-6 antigen binding fragments into cartilage and the effects of injury.

Authors:  Sangwon Byun; Yunna L Sinskey; Yihong C S Lu; Tatiana Ort; Karl Kavalkovich; Pitchumani Sivakumar; Ernst B Hunziker; Eliot H Frank; Alan J Grodzinsky
Journal:  Arch Biochem Biophys       Date:  2013-01-18       Impact factor: 4.013
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