The potential of tissue engineering and regenerative medicine

Currently, there has been a major health crisis in terms of the shortage of organs. Advances in medicine has improved quality of life and enabled us to live longer. However, as we age, the organs tend to fail more. Although advances in modern surgical have made it possible for someone to have diseas...

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Main Author: Sha'ban, Munirah
Format: Conference or Workshop Item
Language:English
Published: 2014
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Online Access:http://irep.iium.edu.my/41818/1/MSAB2014_ABSTRACT%2C_INVITED_SPEAKER.pdf
http://irep.iium.edu.my/41818/
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Institution: Universiti Islam Antarabangsa Malaysia
Language: English
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spelling my.iium.irep.418182015-02-23T06:10:35Z http://irep.iium.edu.my/41818/ The potential of tissue engineering and regenerative medicine Sha'ban, Munirah R Medicine (General) Currently, there has been a major health crisis in terms of the shortage of organs. Advances in medicine has improved quality of life and enabled us to live longer. However, as we age, the organs tend to fail more. Although advances in modern surgical have made it possible for someone to have diseased/damaged organs/tissues replaced with healthy living or dead donor, there are not enough transplants to go around. Within the last 15 years, the number of patients requiring an organ has doubled while the actual number of transplants has barely increased. Due to this public health crisis, tissue engineering was born as a means to replace diseased tissue with living tissue that is designed and constructed to meet the needs of each individual patient. This multidisciplinary field has been progressing well as more products have made it to the market. The uses of engineered tissues are now ranging from clinical to non-clinical applications. They are no more considered as end products for regenerative medicine, but have also emerged as model tissues for other research fields like cancer research, drug discovery and biorobotics applications. Cartilage is one of the targets for tissue engineering due to its limitation for self-repair. There is strong evidence that cartilage injuries predispose to osteoarthritis when left untreated. Cartilage was the least complicated tissue to engineer since it contains only one cell type namely chondrocyte. Chondrocytes are present at relatively low concentration, only 5% of volume, and there are no blood vessels or nerves. Due to its avascular nature and low cells density, cartilage can be maintained in vitro at relatively low rates of nutrient and oxygen supply since its metabolic needs are low. However, several issues must be resolved in order to grow in vitro functional cartilage using cells, polymer scaffolds and signaling factors. The success of regeneration of functional cartilage substitutes for depends on various biochemical and biomimetic microenvironment factors that are necessary to facilitate cell differentiation. Like any other technologies, the development of tissue engineering is balanced between opportunities and uncertainties, hope and dejection, and risk and benefits. Keeping a balance between religious and ethical perspectives on the scientific expansion of tissue engineering may help to develop its full potential in transforming the way of medical practice in the future. 2014 Conference or Workshop Item REM application/pdf en http://irep.iium.edu.my/41818/1/MSAB2014_ABSTRACT%2C_INVITED_SPEAKER.pdf Sha'ban, Munirah (2014) The potential of tissue engineering and regenerative medicine. In: The 13th Symposium Malaysian Society of Applied Biology (MSAB 2014), 8-10 June 2014, The Legend Resort, Cherating, Pahang.
institution Universiti Islam Antarabangsa Malaysia
building IIUM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider International Islamic University Malaysia
content_source IIUM Repository (IREP)
url_provider http://irep.iium.edu.my/
language English
topic R Medicine (General)
spellingShingle R Medicine (General)
Sha'ban, Munirah
The potential of tissue engineering and regenerative medicine
description Currently, there has been a major health crisis in terms of the shortage of organs. Advances in medicine has improved quality of life and enabled us to live longer. However, as we age, the organs tend to fail more. Although advances in modern surgical have made it possible for someone to have diseased/damaged organs/tissues replaced with healthy living or dead donor, there are not enough transplants to go around. Within the last 15 years, the number of patients requiring an organ has doubled while the actual number of transplants has barely increased. Due to this public health crisis, tissue engineering was born as a means to replace diseased tissue with living tissue that is designed and constructed to meet the needs of each individual patient. This multidisciplinary field has been progressing well as more products have made it to the market. The uses of engineered tissues are now ranging from clinical to non-clinical applications. They are no more considered as end products for regenerative medicine, but have also emerged as model tissues for other research fields like cancer research, drug discovery and biorobotics applications. Cartilage is one of the targets for tissue engineering due to its limitation for self-repair. There is strong evidence that cartilage injuries predispose to osteoarthritis when left untreated. Cartilage was the least complicated tissue to engineer since it contains only one cell type namely chondrocyte. Chondrocytes are present at relatively low concentration, only 5% of volume, and there are no blood vessels or nerves. Due to its avascular nature and low cells density, cartilage can be maintained in vitro at relatively low rates of nutrient and oxygen supply since its metabolic needs are low. However, several issues must be resolved in order to grow in vitro functional cartilage using cells, polymer scaffolds and signaling factors. The success of regeneration of functional cartilage substitutes for depends on various biochemical and biomimetic microenvironment factors that are necessary to facilitate cell differentiation. Like any other technologies, the development of tissue engineering is balanced between opportunities and uncertainties, hope and dejection, and risk and benefits. Keeping a balance between religious and ethical perspectives on the scientific expansion of tissue engineering may help to develop its full potential in transforming the way of medical practice in the future.
format Conference or Workshop Item
author Sha'ban, Munirah
author_facet Sha'ban, Munirah
author_sort Sha'ban, Munirah
title The potential of tissue engineering and regenerative medicine
title_short The potential of tissue engineering and regenerative medicine
title_full The potential of tissue engineering and regenerative medicine
title_fullStr The potential of tissue engineering and regenerative medicine
title_full_unstemmed The potential of tissue engineering and regenerative medicine
title_sort potential of tissue engineering and regenerative medicine
publishDate 2014
url http://irep.iium.edu.my/41818/1/MSAB2014_ABSTRACT%2C_INVITED_SPEAKER.pdf
http://irep.iium.edu.my/41818/
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