Literature DB >> 24927682

Articular chondrocytes and mesenchymal stem cells seeded on biodegradable scaffolds for the repair of cartilage in a rat osteochondral defect model.

Rebecca L Dahlin1, Lucas A Kinard1, Johnny Lam1, Clark J Needham1, Steven Lu1, F Kurtis Kasper1, Antonios G Mikos2.   

Abstract

This work investigated the ability of co-cultures of articular chondrocytes and mesenchymal stem cells (MSCs) to repair articular cartilage in osteochondral defects. Bovine articular chondrocytes and rat MSCs were seeded in isolation or in co-culture onto electrospun poly(ɛ-caprolactone) (PCL) scaffolds and implanted into an osteochondral defect in the trochlear groove of 12-week old Lewis rats. Additionally, a blank PCL scaffold and untreated defect were investigated. After 12 weeks, the extent of cartilage repair was analyzed through histological analysis, and the extent of bone healing was assessed by quantifying the total volume of mineralized bone in the defect through microcomputed tomography. Histological analysis revealed that the articular chondrocytes and co-cultures led to repair tissue that consisted of more hyaline-like cartilage tissue that was thicker and possessed more intense Safranin O staining. The MSC, blank PCL scaffold, and empty treatment groups generally led to the formation of fibrocartilage repair tissue. Microcomputed tomography revealed that while there was an equivalent amount of mineralized bone formation in the MSC, blank PCL, and empty treatment groups, the defects treated with chondrocytes or co-cultures had negligible mineralized bone formation. Overall, even with a reduced number of chondrocytes, co-cultures led to an equal level of cartilage repair compared to the chondrocyte samples, thus demonstrating the potential for the use of co-cultures of articular chondrocytes and MSCs for the in vivo repair of cartilage defects.
Copyright © 2014 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Articular chondrocyte; Cartilage regeneration; Co-culture; Mesenchymal stem cell; Rat osteochondral defect

Mesh:

Substances:

Year:  2014        PMID: 24927682      PMCID: PMC4109803          DOI: 10.1016/j.biomaterials.2014.05.055

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


  40 in total

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Authors:  Xiang-tao Mo; Shang-chun Guo; Hui-qi Xie; Li Deng; Wei Zhi; Zhou Xiang; Xiu-qun Li; Zhi-ming Yang
Journal:  Bone       Date:  2008-07-29       Impact factor: 4.398

2.  Repair of osteochondral defects with biodegradable hydrogel composites encapsulating marrow mesenchymal stem cells in a rabbit model.

Authors:  Xuan Guo; Hansoo Park; Simon Young; James D Kretlow; Jeroen J van den Beucken; L Scott Baggett; Yasuhiko Tabata; F Kurtis Kasper; Antonios G Mikos; John A Jansen
Journal:  Acta Biomater       Date:  2009-08-04       Impact factor: 8.947

3.  Trophic effects of mesenchymal stem cells increase chondrocyte proliferation and matrix formation.

Authors:  Ling Wu; Jeroen C H Leijten; Nicole Georgi; Janine N Post; Clemens A van Blitterswijk; Marcel Karperien
Journal:  Tissue Eng Part A       Date:  2011-02-28       Impact factor: 3.845

4.  Characterization of subchondral bone repair for marrow-stimulated chondral defects and its relationship to articular cartilage resurfacing.

Authors:  Hongmei Chen; Anik Chevrier; Caroline D Hoemann; Jun Sun; Wei Ouyang; Michael D Buschmann
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Review 5.  Donor site morbidity after articular cartilage repair procedures: a review.

Authors:  Giovanni A Matricali; Greta Ph E Dereymaeker; Frank P Luyten
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6.  Coculture of human mesenchymal stem cells and articular chondrocytes reduces hypertrophy and enhances functional properties of engineered cartilage.

Authors:  Liming Bian; David Y Zhai; Robert L Mauck; Jason A Burdick
Journal:  Tissue Eng Part A       Date:  2011-01-08       Impact factor: 3.845

7.  Autologous chondrocyte implantation using the original periosteum-cover technique versus matrix-associated autologous chondrocyte implantation: a randomized clinical trial.

Authors:  Felix Zeifang; Doris Oberle; Corinna Nierhoff; Wiltrud Richter; Babak Moradi; Holger Schmitt
Journal:  Am J Sports Med       Date:  2009-12-04       Impact factor: 6.202

8.  Osteogenic differentiation of mesenchymal stem cells on pregenerated extracellular matrix scaffolds in the absence of osteogenic cell culture supplements.

Authors:  Richard A Thibault; L Scott Baggett; Antonios G Mikos; F Kurtis Kasper
Journal:  Tissue Eng Part A       Date:  2010-02       Impact factor: 3.845

9.  Human articular chondrocytes secrete parathyroid hormone-related protein and inhibit hypertrophy of mesenchymal stem cells in coculture during chondrogenesis.

Authors:  J Fischer; A Dickhut; M Rickert; W Richter
Journal:  Arthritis Rheum       Date:  2010-09

Review 10.  Treatment of articular cartilage lesions of the knee.

Authors:  Mazen Falah; Gabreil Nierenberg; Michael Soudry; Morris Hayden; Gershon Volpin
Journal:  Int Orthop       Date:  2010-02-18       Impact factor: 3.075
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  37 in total

Review 1.  Concise review: tailoring bioengineered scaffolds for stem cell applications in tissue engineering and regenerative medicine.

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Journal:  Stem Cells Transl Med       Date:  2015-01-09       Impact factor: 6.940

2.  Preconditioned or IL4-Secreting Mesenchymal Stem Cells Enhanced Osteogenesis at Different Stages.

Authors:  Tzuhua Lin; Yusuke Kohno; Jhih-Fong Huang; Monica Romero-Lopez; Masahiro Maruyama; Masaya Ueno; Jukka Pajarinen; Karthik Nathan; Zhenyu Yao; Fan Yang; Joy Y Wu; Stuart B Goodman
Journal:  Tissue Eng Part A       Date:  2019-03-27       Impact factor: 3.845

3.  Culture Conditions that Support Expansion and Chondrogenesis of Middle-Aged Rat Mesenchymal Stem Cells.

Authors:  John D Kisiday; John A Schwartz; Suwimol Tangtrongsup; Laurie R Goodrich; Daniel A Grande
Journal:  Cartilage       Date:  2018-07-28       Impact factor: 4.634

Review 4.  Discarded Wharton jelly of the human umbilical cord: a viable source for mesenchymal stromal cells.

Authors:  Nate Watson; Ryan Divers; Roshan Kedar; Ankur Mehindru; Anuj Mehindru; Mia C Borlongan; Cesar V Borlongan
Journal:  Cytotherapy       Date:  2014-10-18       Impact factor: 5.414

5.  Comparison of Fixation Techniques of 3D-Woven Poly(ϵ-Caprolactone) Scaffolds for Cartilage Repair in a Weightbearing Porcine Large Animal Model.

Authors:  James M Friedman; Mackenzie L Sennett; Marcelo B Bonadio; Kerry O Orji; Alexander L Neuwirth; Niobra Keah; James L Carey; Franklin T Moutos; Bradley T Estes; Farshid Guilak; Henning Madry; Robert L Mauck; George R Dodge
Journal:  Cartilage       Date:  2017-04-11       Impact factor: 4.634

6.  Enhancing cartilage repair with optimized supramolecular hydrogel-based scaffold and pulsed electromagnetic field.

Authors:  Yucong Li; Linlong Li; Ye Li; Lu Feng; Bin Wang; Ming Wang; Haixing Wang; Meiling Zhu; Yongkang Yang; Erik I Waldorff; Nianli Zhang; Ingmar Viohl; Sien Lin; Liming Bian; Wayne Yuk-Wai Lee; Gang Li
Journal:  Bioact Mater       Date:  2022-10-12

7.  Acid ceramidase treatment enhances the outcome of autologous chondrocyte implantation in a rat osteochondral defect model.

Authors:  M E Frohbergh; J M Guevara; R P Grelsamer; M F Barbe; X He; C M Simonaro; E H Schuchman
Journal:  Osteoarthritis Cartilage       Date:  2015-10-30       Impact factor: 6.576

8.  Co-culture of chondrons and mesenchymal stromal cells reduces the loss of collagen VI and improves extracellular matrix production.

Authors:  H A Owida; T De Las Heras Ruiz; A Dhillon; Y Yang; N J Kuiper
Journal:  Histochem Cell Biol       Date:  2017-08-19       Impact factor: 4.304

Review 9.  Crosstalk Between Mesenchymal Stromal Cells and Chondrocytes: The Hidden Therapeutic Potential for Cartilage Regeneration.

Authors:  Teresa Z Brose; Eva J Kubosch; Hagen Schmal; Martin J Stoddart; Angela R Armiento
Journal:  Stem Cell Rev Rep       Date:  2021-05-05       Impact factor: 5.739

10.  Development of a cellularly degradable PEG hydrogel to promote articular cartilage extracellular matrix deposition.

Authors:  Balaji V Sridhar; John L Brock; Jason S Silver; Jennifer L Leight; Mark A Randolph; Kristi S Anseth
Journal:  Adv Healthc Mater       Date:  2015-01-21       Impact factor: 9.933
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