Part 1: scaffolds and surfaces.
Citation:
Lyons F, Partap S, O'Brien FJ. `Part 1: scaffolds and surfaces? in Technology and Health Care, 16, (4), 2008, pp 305 - 317Download Item:
5.1_ScaffoldsSurfaces_final.doc (published (author's copy) peer-reviewed) 590Kb
Abstract:
Every day thousands of clinical procedures are performed to replace or repair tissues in the human body
that have been damaged through disease or trauma. Current therapies are focused on the replacement of
the damaged tissue by using donor graft tissues (autografts, allografts or xenografts). Problems associated
with this approach include shortage of donors or donor sites, the volume of donor tissue that can be safely
harvested, donor site pain and morbidity, the possibility of harmful immune responses, transmission of
disease and rejection of grafts [22]. Rather than replace damaged tissues with grafts, tissue engineering,
or regenerative medicine, aims to regenerate damaged tissues by developing biological substitutes that
restore, maintain or improve tissue function [2,5].
In native tissues, cells are held within an extracellular matrix (ECM) which guides development and
directs regeneration of the tissue, serves to organise cells in space and provides them with environmental
signals to direct cellular behaviour. The goal of tissue engineering is to synthesise substitutes that mimic
the natural ECM to help guide the growth of newfunctional tissue in vitro or in vivo. At a simplistic level,
biological tissues consist of cells, signalling mechanisms and extracellular matrix. Tissue engineering
technologies are based on this biological triad and involve the successful interaction between three
components: (1) the scaffold that holds the cells together to create the tissue?s physical form, (2) the cells
that create the tissue and, (3) the biological signalling molecules, such as growth factors, that direct the
cells to express the desired tissue phenotype (Fig. 1). Tissue engineering is a multidisciplinary field that
harnesses expertise and knowledge from the medical profession, materials scientists, engineers, chemists
and biologists.
Author's Homepage:
http://people.tcd.ie/fobrienDescription:
PUBLISHED
Author: O'BRIEN, FERGAL
Publisher:
ElsevierType of material:
Journal ArticleSeries/Report no:
Technology and Health Care16
4
Availability:
Full text availableKeywords:
tissue engineering, tissue culture, polymers, ceramicsISSN:
0928-7329Licences: