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References (54)
-
M. Hillsley, J. Frangos (1994)
Review: Bone tissue engineering: The role of interstitial fluid flowBiotechnology and Bioengineering, 43
-
Julie Glowacki, Julie Glowacki, S. Mizuno, J. Greenberger (1998)
Perfusion enhances functions of bone marrow stromal cells in three-dimensional culture.Cell transplantation, 7 3
-
Elizabeth Cowles, Mary Derome, G. Pastizzo, L. Brailey, Gloria Gronowicz (1998)
Mineralization and the Expression of Matrix Proteins During In Vivo Bone DevelopmentCalcified Tissue International, 62
-
G. Muschler, B. Huber, T. Ullman, Richard Barth, K. Easley, James Otis, J. Lane (1993)
Evaluation of bone‐grafting materials in a new canine segmental spinal fusion modelJournal of Orthopaedic Research, 11
-
A. Reddi (1998)
Role of morphogenetic proteins in skeletal tissue engineering and regenerationNature Biotechnology, 16
-
FM Pavalko, NX Chen, CH Turner, DB Burr, S Atkinson, YF Hsieh, J Qiu, RL Duncan (1998)
Fluid shear‐induced mechanical signaling in MC3T3‐E1 osteoblasts requires cytoskeleton‐integrin interactions, 275
-
S. Ishaug, G. Crane, Michael Miller, A. Yasko, M. Yaszemski, A. Mikos (1997)
Bone formation by three-dimensional stromal osteoblast culture in biodegradable polymer scaffolds.Journal of biomedical materials research, 36 1
-
Q. Qiu, P. Ducheyne, P. Ayyaswamy (1999)
Fabrication, characterization and evaluation of bioceramic hollow microspheres used as microcarriers for 3-D bone tissue formation in rotating bioreactors.Biomaterials, 20 11
-
R Smalt, FT Mitchell, RL Howard, TJ Chambers (1997)
Induction of NO and prostaglandin E2 in osteoblasts by wall‐shear stress but not mechanical strain, 273
-
E. Behravesh, A. Yasko, P. Engel, A. Mikos (1999)
Synthetic biodegradable polymers for orthopaedic applications.Clinical orthopaedics and related research, 367 Suppl
-
C. Toma, S. Ashkar, M. Gray, J. Schaffer, L. Gerstenfeld (1997)
Signal Transduction of Mechanical Stimuli Is Dependent on Microfilament Integrity: Identification of Osteopontin as a Mechanically Induced Gene in OsteoblastsJournal of Bone and Mineral Research, 12
-
Susan Ishaug-Riley, Susan Ishaug-Riley, Genevieve Crane, Ali Gürlek, Michael Miller, A. Yasko, M. Yaszemski, A. Mikos (1997)
Ectopic bone formation by marrow stromal osteoblast transplantation using poly(DL-lactic-co-glycolic acid) foams implanted into the rat mesentery.Journal of biomedical materials research, 36 1
-
J. Folkman, M. Hochberg (1973)
SELF-REGULATION OF GROWTH IN THREE DIMENSIONSThe Journal of Experimental Medicine, 138
-
G. Vunjak‐Novakovic, B. Obradovic, I. Martin, P. Bursać, R. Langer, L. Freed (1998)
Dynamic Cell Seeding of Polymer Scaffolds for Cartilage Tissue EngineeringBiotechnology Progress, 14
-
A. Goldstein, Tiffany Juarez, C. Helmke, M. Gustin, A. Mikos (2001)
Effect of convection on osteoblastic cell growth and function in biodegradable polymer foam scaffolds.Biomaterials, 22 11
-
Stan Gronthos, Paul Simmons (1996)
The biology and application of human bone marrow stromal cell precursors.Journal of hematotherapy, 5 1
-
R. Cherry, E. Papoutsakis (1988)
Physical mechanisms of cell damage in microcarrier cell culture bioreactorsBiotechnology and Bioengineering, 32
-
N. Jaiswal, S. Haynesworth, A. Caplan, S. Bruder (1997)
Osteogenic differentiation of purified, culture‐expanded human mesenchymal stem cells in vitroJournal of Cellular Biochemistry, 64
-
J. Klein-Nulend, M. Helfrich, J. Sterck, H. Macpherson, M. Joldersma, S. Ralston, C. Semeins, E. Burger (1998)
Nitric oxide response to shear stress by human bone cell cultures is endothelial nitric oxide synthase dependent.Biochemical and biophysical research communications, 250 1
-
P. Garnero, M. Grimaux, Brigitte Demiaux, C. Préaudat, P. Seguin, P. Delmas (1992)
Measurement of serum osteocalcin with a human‐specific two‐site immunoradiometric assayJournal of Bone and Mineral Research, 7
-
AJ Grodzinsky, RD Kamm, DA Lauffenburger (2000)
Principles of tissue engineering -
A. Grodzinsky, R. Kamm, D. Lauffenburger (2000)
CHAPTER 17 – QUANTITATIVE ASPECTS OF TISSUE ENGINEERING: BASIC ISSUES IN KINETICS, TRANSPORT, AND MECHANICS -
T. Ogata (2000)
Fluid flow‐induced tyrosine phosphorylation and participation of growth factor signaling pathway in osteoblast‐like cellsJournal of Cellular Biochemistry, 76
-
D. Mooney, A. Mikos (1999)
Growing new organs.Scientific American, 280 4
-
H. Petite, V. Viateau, W. Bensaïd, A. Meunier, C. Pollak, M. Bourguignon, K. Oudina, L. Sedel, G. Guillemin (2000)
Tissue-engineered bone regenerationNature Biotechnology, 18
-
Aaron Goldstein, Guoming Zhu, Grayson Morris, R. Meszlenyi, Antonios Mikos (1999)
Effect of osteoblastic culture conditions on the structure of poly(DL-lactic-co-glycolic acid) foam scaffolds.Tissue engineering, 5 5
-
J. Dennis, S. Haynesworth, R. Young, A. Caplan (1992)
Osteogenesis in Marrow-Derived Mesenchymal Cell Porous Ceramic Composites Transplanted Subcutaneously: Effect of Fibronectin and Laminin on Cell Retention and Rate of Osteogenic ExpressionCell Transplantation, 1
-
JB Lian, GS Stein (1993)
The developmental stages of osteoblast growth and differentiation exhibit selective responses of genes to growth factors (TGFβ1) and hormones (vitamin D and glucocorticoids), 96
-
R. Carvalho, J. Schaffer, L. Gerstenfeld (1998)
Osteoblasts induce osteopontin expression in response to attachment on fibronectin: Demonstration of a common role for integrin receptors in the signal transduction processes of cell attachment and mechanical stimulationJournal of Cellular Biochemistry, 70
-
J. Lian, G. Stein, J. Stein, A. Wijnen (1998)
Osteocalcin gene promoter: Unlocking the secrets for regulation of osteoblast growth and differentiationJournal of Cellular Biochemistry, 72
-
DL Johnson, TN McAllister, JA Frangos (1996)
Fluid flow stimulates rapid and continuous release of nitric oxide in osteoblasts, 271
-
G. Vunjak‐Novakovic, L. Freed, R. Biron, R. Langer (1996)
Effects of mixing on the composition and morphology of tissue‐engineered cartilageAiche Journal, 42
-
H. Wadsworth (1990)
Handbook of Statistical Methods for Engineers and Scientists -
T. McAllister, J. Frangos (1999)
Steady and Transient Fluid Shear Stress Stimulate NO Release in Osteoblasts Through Distinct Biochemical PathwaysJournal of Bone and Mineral Research, 14
-
J. Lian, G. Stein (1992)
Concepts of osteoblast growth and differentiation: basis for modulation of bone cell development and tissue formation.Critical reviews in oral biology and medicine : an official publication of the American Association of Oral Biologists, 3 3
-
Edward Younger, M. Chapman (1989)
Morbidity at bone graft donor sites.Journal of orthopaedic trauma, 3 3
-
M. Yaszemski, M. Yaszemski, R. Payne, R. Payne, W. Hayes, R. Langer, A. Mikos (1996)
Evolution of bone transplantation: molecular, cellular and tissue strategies to engineer human bone.Biomaterials, 17 2
-
G. Crane, S. Ishaug, A. Mikos (1995)
Bone tissue engineeringNature Medicine, 1
-
G. Vunjak‐Novakovic, I. Martin, B. Obradovic, S. Treppo, A. Grodzinsky, R. Langer, L. Freed (1999)
Bioreactor cultivation conditions modulate the composition and mechanical properties of tissue‐engineered cartilageJournal of Orthopaedic Research, 17
-
S. Mueller, S. Mizuno, L. Gerstenfeld, J. Glowacki (1999)
Medium Perfusion Enhances Osteogenesis by Murine Osteosarcoma Cells in Three‐Dimensional Collagen SpongesJournal of Bone and Mineral Research, 14
-
Ray Schwarz, T. Goodwin, D. Wolf (1992)
Cell culture for three-dimensional modeling in rotating-wall vessels: an application of simulated microgravity.Journal of tissue culture methods : Tissue Culture Association manual of cell, tissue, and organ culture procedures, 14 2
-
D. West, A. Sattar, S. Kumar (1985)
A simplified in situ solubilization procedure for the determination of DNA and cell number in tissue cultured mammalian cells.Analytical biochemistry, 147 2
-
H. Ohgushi, Arnold Caplan (1999)
Stem cell technology and bioceramics: from cell to gene engineering.Journal of biomedical materials research, 48 6
-
Ivan Martin, Ivan Martin, V. Shastri, Robert Padera, Jean Yang, Andrew Mackay, R. Langer, G. Vunjak‐Novakovic, L. Freed (2001)
Selective differentiation of mammalian bone marrow stromal cells cultured on three-dimensional polymer foams.Journal of biomedical materials research, 55 2
-
HM Frost (1969)
Tetracycline‐based histological analysis of bone remodeling, 3
-
S. Peter, Catalina Liang, Daniel Kim, M. Widmer, A. Mikos (1998)
Osteoblastic phenotype of rat marrow stromal cells cultured in the presence of dexamethasone, β‐glycerolphosphate, and L‐ascorbic acidJournal of Cellular Biochemistry, 71
-
E. Botchwey, S. Pollack, E. Levine, C. Laurencin (2001)
Bone tissue engineering in a rotating bioreactor using a microcarrier matrix system.Journal of biomedical materials research, 55 2
-
L. Cooper, T. Masuda, P. Yliheikkilä, D. Felton (1998)
Generalizations regarding the process and phenomenon of osseointegration. Part II. In vitro studies.The International journal of oral & maxillofacial implants, 13 2
-
Chantal Holy, Molly Shoichet, John Davies (2000)
Engineering three-dimensional bone tissue in vitro using biodegradable scaffolds: investigating initial cell-seeding density and culture period.Journal of biomedical materials research, 51 3
-
C. Maniatopoulos, J. Sodek, Dr. Melcher (1988)
Bone formation in vitro by stromal cells obtained from bone marrow of young adult ratsCell and Tissue Research, 254
-
J. Aubin (1999)
Osteoprogenitor cell frequency in rat bone marrow stromal populations: Role for heterotypic cell–cell interactions in osteoblast differentiationJournal of Cellular Biochemistry, 72
-
M. Richards, B. Huibregtse, A. Caplan, J. Goulet, S. Goldstein (1999)
Marrow‐derived progenitor cell injections enhance new bone formation during distractionJournal of Orthopaedic Research, 17
-
P Fante, MS Kindy, S Mohaparta, J Klein, G Colombo, HH Malluche (1992)
Dose‐dependent effects of aluminium on osteocalcin synthesis in osteoblast‐like ROS 17/2 cells in culture, 263(E26)
-
A. Mikos, Michelle Lyman, L. Freed, R. Langer (1994)
Wetting of poly(L-lactic acid) and poly(DL-lactic-co-glycolic acid) foams for tissue culture.Biomaterials, 15 1
- Publisher
- Wiley
- Copyright
- Copyright © 2002 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 1549-3296
- eISSN
- 1552-4965
- DOI
- 10.1002/jbm.10150
- pmid
- 12124795
- Publisher site
- See Article on Publisher Site
Abstract
The aim of this study is to investigate the effect of the cell culture conditions of three‐dimensional polymer scaffolds seeded with rat marrow stromal cells (MSCs) cultured in different bioreactors concerning the ability of these cells to proliferate, differentiate towards the osteoblastic lineage, and generate mineralized extracellular matrix. MSCs harvested from male Sprague–Dawley rats were culture expanded, seeded on three‐dimensional porous 75:25 poly(D,L‐lactic‐co‐glycolic acid) biodegradable scaffolds, and cultured for 21 days under static conditions or in two model bioreactors (a spinner flask and a rotating wall vessel) that enhance mixing of the media and provide better nutrient transport to the seeded cells. The spinner flask culture demonstrated a 60% enhanced proliferation at the end of the first week when compared to static culture. On day 14, all cell/polymer constructs exhibited their maximum alkaline phosphatase activity (AP). Cell/polymer constructs cultured in the spinner flask had 2.4 times higher AP activity than constructs cultured under static conditions on day 14. The total osteocalcin (OC) secretion in the spinner flask culture was 3.5 times higher than the static culture, with a peak OC secretion occurring on day 18. No considerable AP activity and OC secretion were detected in the rotating wall vessel culture throughout the 21‐day culture period. The spinner flask culture had the highest calcium content at day 14. On day 21, the calcium deposition in the spinner flask culture was 6.6 times higher than the static cultured constructs and over 30 times higher than the rotating wall vessel culture. Histological sections showed concentration of cells and mineralization at the exterior of the foams at day 21. This phenomenon may arise from the potential existence of nutrient concentration gradients at the interior of the scaffolds. The better mixing provided in the spinner flask, external to the outer surface of the scaffolds, may explain the accelerated proliferation and differentiation of marrow stromal osteoblasts, and the localization of the enhanced mineralization on the external surface of the scaffolds. © 2002 Wiley Periodicals, Inc. J Biomed Mater Res 62: 136–148, 2002
Journal
Journal of Biomedical Materials Research Part A – Wiley
Published: Oct 1, 2002
Keywords: ; ; ; ; ;