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Abstract

Ovine bone marrow mesenchymal cells (BMMCs) were seeded on to non-woven filamentous plasma-treated polyester scaffolds and cultured in a chondrogenic medium for 4 weeks. Thereafter a pulsatile hydrostatic pressure (PHP) was applied to these cell-scaffolds constructs at an amplitude of 0.1 MPa and frequency of 0.25 Hz, for 30 min a day, over a period of 10 days. Samples (n=6) were removed 24 h after PHP stimulation at days 1, 4, 7, and 10 for biochemical analysis. Similar analyses were conducted, at the same time points, on control samples that were not subjected to a PHP. The results showed that the glycosaminoglycan (GAG) content did not significantly increase until after the application of a PHP for 7 days. The GAG content was 1.5 and 2.7 times higher in the PHP group than in the control group at days 7 and 10 respectively (p < 0.01). The deoxyribonucleic acid (DNA) content was 1.5 times greater in the PHP group than in the control group at day 10 (p < 0.01). GAG synthesis amounts, expressed as the total GAG contents per microgram of DNA, were 1.6 and 1.8 times higher in the PHP group than in the control group at days 7 and 10 respectively (p < 0.01). The total collagen content in the medium did not change until after PHP application for 10 days, when it was 1.9 times higher than the control (p < 0.05). The results suggest that a light PHP applied at a low frequency has a cumulative stimulatory effect on the BMMCs' metabolic activities including cell proliferation and synthesis of the extracellular matrix.

Keywords

hydrostatic pressure extracellular matrix bone marrow mesenchymal cells scaffolds chondrogenesis

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References

Carter

D. R.

Wong

The role of mechanical loading histories in the development of diarthrodial joints

J. Orthop. Res., 1988, 6 (6), 804–816.

Parkkinen

J. J.

Ikonen

Lammi

M. J.

Laakkonen

Tammi

Helminen

H. J.

Effects of cyclic hydrostatic pressure on proteo-glycan synthesis in cultured chondrocytes and articular cartilage explants

Arch. Biochemistry Biophysics, 1993, 300 (1), 458–465.

Buschmann

M. D.

Kim

Y. J.

Wong

Frank

Hunziker

E. B.

Grodzinsky

A. J.

Stimulation of aggrecan synthesis in cartilage explants by cyclic loading is localized to regions of high interstitial fluid flow

Arch. Biochemistry Biophysics, 1999, 366 (1), 1–7.

Mizuno

Tateishi

Ushida

Glowacki

Hydrostatic fluid pressure enhances matrix synthesis and accumulation by bovine chondrocytes in three-dimensional culture

J. Cellular Physiology, 2002, 193 (3), 319–327.

Ikenoue

Trindade

M. C. D.

Lee

M. S.

Lin

E. Y.

Schurman

D. J.

Goodman

S. B.

Smith

R. L.

Mechanoregulation of human articular chondrocyte aggrecan and type II collagen expression by intermittent hydrostatic pressure

in vitro. J. Orthop. Res., 2003, 21 (1), 110–116.

Angele

Yoo

J. U.

Smith

Mansour

Jepsen

K. J.

Nerlich

Johnstone

Cyclic hydrostatic pressure enhances the chondrogenic pheno-type of human mesenchymal progenitor cells differentiated

in vitro. J. Orthop. Res., 2003, 21 (3), 451–457.

Steadman

J. R.

Rodkey

W. G.

Rodrigo

J. J.

Microfracture: Surgical technique and rehabilitation to treat chondral defects

Clin. Orthop. Related Res., 2001, 391 (Suppl.), 362–369.

Kisiday

Jin

Kurz

Hung

Semino

Zhang

Grodzinsky

A. J.

Self-assembling peptide hydrogel fosters chondrocyte extracellular matrix production and cell division: Implications for cartilage tissue repair

Proc. Natn. Acad. Sci. USA, 2002, 99 (15), 9996–10001.

Luo

Seedhom

Toyada

Goldsmith

Lorrison

In situ engineered cartilage approach, a preclinical in vivo study

Osteoarthritis Cartilage, 2003, 11 (Suppl.), 26–27.

10.

Rowland

J. R.

Tsukazaki

Kikuchi

Fujikawa

Kearney

Lomas

Wood

Seedhom

B. B.

Radiofrequency-generated glow discharge treatment: Potential benefits for polyester ligaments

J. Orthop. Sci., 2003, 8 (2), 198–206.

11.

Toyoda

Seedhom

B. B.

Yao

J. Q.

Kirkham

Brookes

Bonass

W. A.

Hydrostatic pressure modulates proteoglycan metabolism in chondrocytes seeded in agarose

Arthritis Rheum., 2003, 48 (10), 2865–2872.

12.

Farndale

R. W.

Buttle

D. J.

Barrett

A. J.

Improved quantitation and discrimination of sulphated glycosaminoglycans by use of dimethyl-methylene blue

Biochimica Biophysica Acta, 1986, 883 (2), 173–177.

13.

Butler

D. L.

Goldstein

S. A.

Guilak

Functional tissue engineering: The role of biomechanics

J. Biomech. Engng, 2000, 122 (6), 570–575.

14.

Hall

A. C.

Urban

J. P.

Gehl

K. A.

The effects of hydrostatic pressure on matrix synthesis in articular cartilage

J. Orthop. Res., 1991, 9 (1), 1–10.

15.

Smith

R. L.

Lin

Trindade

M. C.

Shida

Kajiyama

Hoffman

A. R.

van der Meulen

M. C.

Goodman

S. B.

Schurman

D. J.

Carter

D. R.

Time-dependent effects of intermittent hydrostatic pressure on articular chondrocyte type II collagen and aggrecan mRNA expression

J. Rehabil. Res. Dev., 2000, 37 (2), 153–161.

16.

Lee

M. S.

Ikenoue

Trindade

M. C.

Wong

Goodman

S. B.

Schurman

D. J.

Smith

R. L.

Protective effects of intermittent hydrostatic pressure on osteoarthritic chondrocytes activated by bacterial endotoxin

in vitro. J. Orthop. Res., 2003, 21 (1), 117–122.

17.

Seedhom

B. B.

Hargreaves

D. J.

Transmission of the load in the knee joint with special reference to the role of the menisci. Part II: Experimental results, discussion and conclusions

Engng Medicine, 1979, 8, 220–228.

18.

Yao

J. Q.

Seedhom

B. B.

A new technique for measuring contact areas in human joints - the 3S technique

Proc. Instn Mech. Engrs, Part H: J. Engineering in Medicine, 1991, 205 (H2), 69–72.

19.

Yao

J. Q.

Seedhom

B. B.

Mechanical conditioning of articular cartilage to prevalent stresses

Br. J. Rheumatology, 1993, 32 (11), 956–965.

20.

Harkness

R. D.

Marko

A. M.

Muir

H. M.

Neuberger

The metabolism of collagen and other proteins of the skin of rabbits

Biochem. J., 1954, 56 (4), 558–569.

21.

Hansen

Schunke

Domm

Ioannidis

Hassenpflug

Gehrke

Kurz

Combination of reduced oxygen tension and intermittent hydrostatic pressure: A useful tool in articular cartilage tissue engineering

J. Biomechanics, 2001, 24 (7), 941–949.

Light and low-frequency pulsatile hydrostatic pressure enhances extracellular matrix formation by bone marrow mesenchymal cells: An in-vitro study with special reference to cartilage repair

Abstract

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