In Vitro Neo-Cartilage Formation on a Three-Dimensional Composite Polymeric Cryogel Matrix

Sumrita Bhat; Lars Lidgren; Ashok Kumar

doi:10.1002/mabi.201200484

In Vitro Neo-Cartilage Formation on a Three-Dimensional Composite Polymeric Cryogel Matrix

Sumrita Bhat, Lars Lidgren, Ashok Kumar

Research output: Contribution to journal › Article › peer-review

Abstract

Limited blood supply and the avascular nature of articular cartilage restricts its self repair capacity, frequently leading to osteoarthritis. This work focuses on scaffolds for tissue repair from natural polymers, for example gelatin, chitosan, and agarose in the form of composite. A novel way of fabrication, known as cryogelation, is presented, in which matrices are synthesized at sub-zero temperature. Cell seeded scaffolds incubated under appropriate conditions result in the accumulation of matrix components on the surface of the gel in the form of neo-cartilage. Neo-cartilage exhibits similarity to native cartilage with respect to its physical, mechanical and biochemical properties. Based on the similarities of neo-cartilage to the native cartilage, it can provide a new approach for the treatment of localised joint injuries.

Original language	English
Pages (from-to)	827-837
Journal	Macromolecular Bioscience
Volume	13
Issue number	7
DOIs	https://doi.org/10.1002/mabi.201200484
Publication status	Published - 2013

Subject classification (UKÄ)

Bio Materials

Free keywords

chondrocytes
cryogel scaffolds
extra-cellular matrix
neo-cartilage
osteoarthritis

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10.1002/mabi.201200484

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title = "In Vitro Neo-Cartilage Formation on a Three-Dimensional Composite Polymeric Cryogel Matrix",

abstract = "Limited blood supply and the avascular nature of articular cartilage restricts its self repair capacity, frequently leading to osteoarthritis. This work focuses on scaffolds for tissue repair from natural polymers, for example gelatin, chitosan, and agarose in the form of composite. A novel way of fabrication, known as cryogelation, is presented, in which matrices are synthesized at sub-zero temperature. Cell seeded scaffolds incubated under appropriate conditions result in the accumulation of matrix components on the surface of the gel in the form of neo-cartilage. Neo-cartilage exhibits similarity to native cartilage with respect to its physical, mechanical and biochemical properties. Based on the similarities of neo-cartilage to the native cartilage, it can provide a new approach for the treatment of localised joint injuries.",

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author = "Sumrita Bhat and Lars Lidgren and Ashok Kumar",

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AU - Lidgren, Lars

AU - Kumar, Ashok

PY - 2013

Y1 - 2013

N2 - Limited blood supply and the avascular nature of articular cartilage restricts its self repair capacity, frequently leading to osteoarthritis. This work focuses on scaffolds for tissue repair from natural polymers, for example gelatin, chitosan, and agarose in the form of composite. A novel way of fabrication, known as cryogelation, is presented, in which matrices are synthesized at sub-zero temperature. Cell seeded scaffolds incubated under appropriate conditions result in the accumulation of matrix components on the surface of the gel in the form of neo-cartilage. Neo-cartilage exhibits similarity to native cartilage with respect to its physical, mechanical and biochemical properties. Based on the similarities of neo-cartilage to the native cartilage, it can provide a new approach for the treatment of localised joint injuries.

AB - Limited blood supply and the avascular nature of articular cartilage restricts its self repair capacity, frequently leading to osteoarthritis. This work focuses on scaffolds for tissue repair from natural polymers, for example gelatin, chitosan, and agarose in the form of composite. A novel way of fabrication, known as cryogelation, is presented, in which matrices are synthesized at sub-zero temperature. Cell seeded scaffolds incubated under appropriate conditions result in the accumulation of matrix components on the surface of the gel in the form of neo-cartilage. Neo-cartilage exhibits similarity to native cartilage with respect to its physical, mechanical and biochemical properties. Based on the similarities of neo-cartilage to the native cartilage, it can provide a new approach for the treatment of localised joint injuries.

KW - chondrocytes

KW - cryogel scaffolds

KW - extra-cellular matrix

KW - neo-cartilage

KW - osteoarthritis

U2 - 10.1002/mabi.201200484

DO - 10.1002/mabi.201200484

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SN - 1616-5195

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SP - 827

EP - 837

JO - Macromolecular Bioscience

JF - Macromolecular Bioscience

IS - 7

ER -

In Vitro Neo-Cartilage Formation on a Three-Dimensional Composite Polymeric Cryogel Matrix

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Subject classification (UKÄ)

Free keywords

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