Regenerative potential of tissue-engineered nasal chondrocytes in goat articular cartilage defects

Cartilage Regeneration in the Head and Neck Area: Combination of Ear or Nasal Chondrocytes and Mesenchymal Stem Cells Improves Cartilage Production

Pleumeekers, M.M.
Nimeskern, L.M.
Koevoet, W.L.M.
Karperien, H.B.J.
Stok, K.S.
Osch, G.J.V.M. van

January 2015

Background: Cartilage tissue engineering can offer promising solutions for restoring cartilage defec...

Mesenchymal stem cell-loaded porous tantalum integrated with biomimetic 3D collagen-based scaffold to repair large osteochondral defects in goats

Xiaowei Wei
Baoyi Liu
Ge Liu
Fan Yang
Fang Cao
Xiaojie Dou
Weiting Yu
Benjie Wang
Guoshuang Zheng
Liangliang Cheng
Zhijie Ma
Yu Zhang
Jiahui Yang
Zihua Wang
Junlei Li
Daping Cui
Wei Wang
Hui Xie
Lu Li
Feng Zhang
William C. Lineaweaver
Dewei Zhao

March 2019

Abstract Background The body is unable to repair and regenerate large area bone defects. Moreover, t...

Evaluation of a co-culture of rapidly isolated chondrocytes and stem cells seeded on tri-layered collagen-based scaffolds in a caprine osteochondral defect model

Tanya J Levingstone (7933388)
Eamon Sheehy (7895390)
Conor Moran (7896596)
Grainne M Cunniffe (14844069)
Pedro J Diaz Payno (14844071)
Robert Thomas Brady (7898273)
Henrique V Almeida (11938268)
Simon F Carroll (14844072)
John O'Byrne (7895684)
Daniel Kelly (12596524)
Pieter AJ. Brama (14844075)
Fergal O'Brien (7895480)

March 2023

Cartilage has poor regenerative capacity and thus damage to the joint surfaces presents a major clin...

Regenerative potential of tissue-engineered nasal chondrocytes in goat articular cartilage defects

Mumme, Marcus
Steinitz, Amir
Nuss, Katja M
Klein, Karina
Feliciano, Sandra
Kronen, Peter W
Jakob, Marcel
von Rechenberg, Brigitte
Martin, Ivan
Barbero, Andrea
Pelttari, Karoliina

January 2016

Nasal chondrocytes (NC) were previously demonstrated to remain viable and to participate in the repa...

Cartilage tissue engineering by expanded goat articular chondrocytes

Miot, S
Scandiucci de Freitas, P
Wirz, D
Daniels, A U
Sims, T J
Hollander, A P
Mainil-Varlet, P
Heberer, M
Martin, I

January 2006

In this study we investigated whether expanded goat chondrocytes have the capacity to generate carti...

Repair of cartilage lesions using biological implants. A comparative histological and biomechanical study in goats

B. F. Shahgaldi
A. A. Amis
F. W. Heatley
J. Mcdowell
G. Bentley
A. A. Amis
Senior Lecturer

January 1991

We report the experimental use of three different biological implants to restore articular surface d...

Influence of in vitro maturation of engineered cartilage on the outcome of osteochondral repair in a goat model

Miot, S.
Brehm, W.
Dickinson, S.
Sims, T.
Wixmerten, A.
Longinotti, C.
Hollander, A. P.
Mainil-Varlet, P.
Martin, I.

January 2012

This study was designed to determine if the maturation stage of engineered cartilage implanted in a ...

Nasal chondrocyte-based engineered autologous cartilage tissue for repair of articular cartilage defects: an observational first-in-human trial

Mumme, Marcus
Barbero, Andrea
Miot, Sylvie
Wixmerten, Anke
Feliciano, Sandra
Wolf, Francine
Asnaghi, Adelaide M.
Baumhoer, Daniel
Bieri, Oliver
Kretzschmar, Martin
Pagenstert, Geert
Haug, Martin
Schaefer, Dirk J.
Martin, Ivan
Jakob, Marcel

January 2016

Background: Articular cartilage injuries have poor repair capacity, leading to progressive joint dam...

Characterisation of subchondral bone repair following transplantation of bioreactor-manufactured autologous osteochondral graft in a sheep model

Kostešić, Petar
Vukasović Barišić, Andreja
Erjavec, Igor
Pušić, M
Hudetz, Damir
Matičić, Dražen
Vnuk, D
Vučković, Mirta
Ivković, Alan

March 2022

To date, no single approach to the treatment of osteochondral defects has resulted in satisfactory l...

Enhanced cell-induced articular cartilage regeneration by chondrons; the influence of joint damage and harvest site

Vonk, L.A.
de Windt, T.S.
Kragten, A.H.M.
Beekhuizen, M.
Mastbergen, S.C.
Dhert, W.J.A.
Lafeber, F.P.J.G.
Creemers, L.B.
Saris, D.B.F.

November 2014

SummaryObjectiveInteractions between chondrocytes and their native pericellular matrix provide optim...

Characterisation of subchondral bone repair following transplantation of bioreactor-manufactured autologous osteochondral graft in a sheep model

Kostešić, Petar
Vukasović Barišić, Andreja
Erjavec, Igor
Pušić, M
Hudetz, Damir
Matičić, Dražen
Vnuk, D
Vučković, Mirta
Ivković, Alan

March 2022

To date, no single approach to the treatment of osteochondral defects has resulted in satisfactory l...

Enhanced cell-induced articular cartilage regeneration by chondrons; the influence of joint damage and harvest site

Vonk, L.A.
de Windt, T.S.
Kragten, A.H.M.
Beekhuizen, M.
Mastbergen, S.C.
Dhert, W.J.A.
Lafeber, F.P.J.G.
Creemers, L.B.
Saris, Daniël B.F.

January 2014

Objective Interactions between chondrocytes and their native pericellular matrix provide optimal cir...

Cartilage Regeneration in the Head and Neck Area: Combination of Ear or Nasal Chondrocytes and Mesenchymal Stem Cells Improves Cartilage Production

Pleumeekers, Mieke M.
Nimeskern, Luc
Koevoet, Wendy L.M.
Karperien, Marcel
Stok, Kathryn S.
van Osch, Gerjo J.V.M.

January 2015

Background: Cartilage tissue engineering can offer promising solutions for restoring cartilage defec...

Generation and characterization of osteochondral grafts with human nasal chondrocytes

Barandun, Marina
Iselin, Lukas Daniel
Santini, Francesco
Pansini, Michele
Scotti, Celeste
Baumhoer, Daniel
Bieri, Oliver
Studler, Ueli
Wirz, Dieter
Haug, Martin
Jakob, Marcel
Schaefer, Dirk Johannes
Martin, Ivan
Barbero, Andrea

January 2015

We investigated whether nasal chondrocytes (NC) can be used to generate composite constructs with pr...

Cartilage Regeneration in the Head and Neck Area: Combination of Ear or Nasal Chondrocytes and Mesenchymal Stem Cells Improves Cartilage Production

Pleumeekers, Mieke
Nimeskern, L
Koevoet, Wendy
Karperien, M
Stok, KS
van Osch, Gerjo

January 2015

Background: Cartilage tissue engineering can offer promising solutions for restoring cartilage defec...

Cartilage Regeneration in the Head and Neck Area: Combination of Ear or Nasal Chondrocytes and Mesenchymal Stem Cells Improves Cartilage Production

Pleumeekers, M.M.
Nimeskern, L.M.
Koevoet, W.L.M.
Karperien, H.B.J.
Stok, K.S.
Osch, G.J.V.M. van

January 2015

Background: Cartilage tissue engineering can offer promising solutions for restoring cartilage defec...

Mesenchymal stem cell-loaded porous tantalum integrated with biomimetic 3D collagen-based scaffold to repair large osteochondral defects in goats

Xiaowei Wei
Baoyi Liu
Ge Liu
Fan Yang
Fang Cao
Xiaojie Dou
Weiting Yu
Benjie Wang
Guoshuang Zheng
Liangliang Cheng
Zhijie Ma
Yu Zhang
Jiahui Yang
Zihua Wang
Junlei Li
Daping Cui
Wei Wang
Hui Xie
Lu Li
Feng Zhang
William C. Lineaweaver
Dewei Zhao

March 2019

Abstract Background The body is unable to repair and regenerate large area bone defects. Moreover, t...

Evaluation of a co-culture of rapidly isolated chondrocytes and stem cells seeded on tri-layered collagen-based scaffolds in a caprine osteochondral defect model

Tanya J Levingstone (7933388)
Eamon Sheehy (7895390)
Conor Moran (7896596)
Grainne M Cunniffe (14844069)
Pedro J Diaz Payno (14844071)
Robert Thomas Brady (7898273)
Henrique V Almeida (11938268)
Simon F Carroll (14844072)
John O'Byrne (7895684)
Daniel Kelly (12596524)
Pieter AJ. Brama (14844075)
Fergal O'Brien (7895480)

March 2023

Cartilage has poor regenerative capacity and thus damage to the joint surfaces presents a major clin...

Regenerative potential of tissue-engineered nasal chondrocytes in goat articular cartilage defects

Mumme, Marcus
Steinitz, Amir
Nuss, Katja M
Klein, Karina
Feliciano, Sandra
Kronen, Peter W
Jakob, Marcel
von Rechenberg, Brigitte
Martin, Ivan
Barbero, Andrea
Pelttari, Karoliina

January 2016

Nasal chondrocytes (NC) were previously demonstrated to remain viable and to participate in the repa...

Cartilage tissue engineering by expanded goat articular chondrocytes

Miot, S
Scandiucci de Freitas, P
Wirz, D
Daniels, A U
Sims, T J
Hollander, A P
Mainil-Varlet, P
Heberer, M
Martin, I

January 2006

In this study we investigated whether expanded goat chondrocytes have the capacity to generate carti...

Repair of cartilage lesions using biological implants. A comparative histological and biomechanical study in goats

B. F. Shahgaldi
A. A. Amis
F. W. Heatley
J. Mcdowell
G. Bentley
A. A. Amis
Senior Lecturer

January 1991

We report the experimental use of three different biological implants to restore articular surface d...

Influence of in vitro maturation of engineered cartilage on the outcome of osteochondral repair in a goat model

Miot, S.
Brehm, W.
Dickinson, S.
Sims, T.
Wixmerten, A.
Longinotti, C.
Hollander, A. P.
Mainil-Varlet, P.
Martin, I.

January 2012

This study was designed to determine if the maturation stage of engineered cartilage implanted in a ...

Nasal chondrocyte-based engineered autologous cartilage tissue for repair of articular cartilage defects: an observational first-in-human trial

Mumme, Marcus
Barbero, Andrea
Miot, Sylvie
Wixmerten, Anke
Feliciano, Sandra
Wolf, Francine
Asnaghi, Adelaide M.
Baumhoer, Daniel
Bieri, Oliver
Kretzschmar, Martin
Pagenstert, Geert
Haug, Martin
Schaefer, Dirk J.
Martin, Ivan
Jakob, Marcel

January 2016

Background: Articular cartilage injuries have poor repair capacity, leading to progressive joint dam...

Characterisation of subchondral bone repair following transplantation of bioreactor-manufactured autologous osteochondral graft in a sheep model

Kostešić, Petar
Vukasović Barišić, Andreja
Erjavec, Igor
Pušić, M
Hudetz, Damir
Matičić, Dražen
Vnuk, D
Vučković, Mirta
Ivković, Alan

March 2022

To date, no single approach to the treatment of osteochondral defects has resulted in satisfactory l...

Enhanced cell-induced articular cartilage regeneration by chondrons; the influence of joint damage and harvest site

Vonk, L.A.
de Windt, T.S.
Kragten, A.H.M.
Beekhuizen, M.
Mastbergen, S.C.
Dhert, W.J.A.
Lafeber, F.P.J.G.
Creemers, L.B.
Saris, D.B.F.

November 2014

SummaryObjectiveInteractions between chondrocytes and their native pericellular matrix provide optim...

Characterisation of subchondral bone repair following transplantation of bioreactor-manufactured autologous osteochondral graft in a sheep model

Kostešić, Petar
Vukasović Barišić, Andreja
Erjavec, Igor
Pušić, M
Hudetz, Damir
Matičić, Dražen
Vnuk, D
Vučković, Mirta
Ivković, Alan

March 2022

To date, no single approach to the treatment of osteochondral defects has resulted in satisfactory l...

Enhanced cell-induced articular cartilage regeneration by chondrons; the influence of joint damage and harvest site

Vonk, L.A.
de Windt, T.S.
Kragten, A.H.M.
Beekhuizen, M.
Mastbergen, S.C.
Dhert, W.J.A.
Lafeber, F.P.J.G.
Creemers, L.B.
Saris, Daniël B.F.

January 2014

Objective Interactions between chondrocytes and their native pericellular matrix provide optimal cir...

Cartilage Regeneration in the Head and Neck Area: Combination of Ear or Nasal Chondrocytes and Mesenchymal Stem Cells Improves Cartilage Production

Pleumeekers, Mieke M.
Nimeskern, Luc
Koevoet, Wendy L.M.
Karperien, Marcel
Stok, Kathryn S.
van Osch, Gerjo J.V.M.

January 2015

Background: Cartilage tissue engineering can offer promising solutions for restoring cartilage defec...

Generation and characterization of osteochondral grafts with human nasal chondrocytes

Barandun, Marina
Iselin, Lukas Daniel
Santini, Francesco
Pansini, Michele
Scotti, Celeste
Baumhoer, Daniel
Bieri, Oliver
Studler, Ueli
Wirz, Dieter
Haug, Martin
Jakob, Marcel
Schaefer, Dirk Johannes
Martin, Ivan
Barbero, Andrea

January 2015

We investigated whether nasal chondrocytes (NC) can be used to generate composite constructs with pr...

Cartilage Regeneration in the Head and Neck Area: Combination of Ear or Nasal Chondrocytes and Mesenchymal Stem Cells Improves Cartilage Production

Pleumeekers, Mieke
Nimeskern, L
Koevoet, Wendy
Karperien, M
Stok, KS
van Osch, Gerjo

January 2015

Background: Cartilage tissue engineering can offer promising solutions for restoring cartilage defec...

Cartilage Regeneration in the Head and Neck Area: Combination of Ear or Nasal Chondrocytes and Mesenchymal Stem Cells Improves Cartilage Production

Pleumeekers, M.M.
Nimeskern, L.M.
Koevoet, W.L.M.
Karperien, H.B.J.
Stok, K.S.
Osch, G.J.V.M. van

January 2015

Background: Cartilage tissue engineering can offer promising solutions for restoring cartilage defec...

Mesenchymal stem cell-loaded porous tantalum integrated with biomimetic 3D collagen-based scaffold to repair large osteochondral defects in goats

Xiaowei Wei
Baoyi Liu
Ge Liu
Fan Yang
Fang Cao
Xiaojie Dou
Weiting Yu
Benjie Wang
Guoshuang Zheng
Liangliang Cheng
Zhijie Ma
Yu Zhang
Jiahui Yang
Zihua Wang
Junlei Li
Daping Cui
Wei Wang
Hui Xie
Lu Li
Feng Zhang
William C. Lineaweaver
Dewei Zhao

March 2019

Abstract Background The body is unable to repair and regenerate large area bone defects. Moreover, t...

Evaluation of a co-culture of rapidly isolated chondrocytes and stem cells seeded on tri-layered collagen-based scaffolds in a caprine osteochondral defect model

Tanya J Levingstone (7933388)
Eamon Sheehy (7895390)
Conor Moran (7896596)
Grainne M Cunniffe (14844069)
Pedro J Diaz Payno (14844071)
Robert Thomas Brady (7898273)
Henrique V Almeida (11938268)
Simon F Carroll (14844072)
John O'Byrne (7895684)
Daniel Kelly (12596524)
Pieter AJ. Brama (14844075)
Fergal O'Brien (7895480)

March 2023

Cartilage has poor regenerative capacity and thus damage to the joint surfaces presents a major clin...

Regenerative potential of tissue-engineered nasal chondrocytes in goat articular cartilage defects

Abstract

Extracted data

Regenerative potential of tissue-engineered nasal chondrocytes in goat articular cartilage defects

Abstract

Extracted data

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