TY - GEN
T1 - Tissue engineering
AU - Hubbell, Jeffrey A.
AU - Langer, Robert
PY - 1995
Y1 - 1995
N2 - The groundwork for developing biological substitutes for damaged tissue is being prepared by the new, rapidly evolving field of tissue engineering. This field, at the intersection of engineering and biology, is one of chemical engineering's promising frontiers. It draws on the chemical engineer's expert knowledge of fluid dynamics, mass transport, process modeling, materials design, and chemistry. Working with physicians and other biological specialists, chemical engineers are designing biocompatible casings for cell transplants, polymer composites for patching wounds, scaffolds that guide and encourage cells to form tissue, bioreactors for large-scale production of therapeutic cells, and experimental and mathematical models to predict cell behavior.
AB - The groundwork for developing biological substitutes for damaged tissue is being prepared by the new, rapidly evolving field of tissue engineering. This field, at the intersection of engineering and biology, is one of chemical engineering's promising frontiers. It draws on the chemical engineer's expert knowledge of fluid dynamics, mass transport, process modeling, materials design, and chemistry. Working with physicians and other biological specialists, chemical engineers are designing biocompatible casings for cell transplants, polymer composites for patching wounds, scaffolds that guide and encourage cells to form tissue, bioreactors for large-scale production of therapeutic cells, and experimental and mathematical models to predict cell behavior.
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U2 - 10.1021/cen-v073n011.p042
DO - 10.1021/cen-v073n011.p042
M3 - Article
AN - SCOPUS:0029270276
SN - 0009-2347
VL - 73
SP - 42
EP - 54
JO - Chemical and Engineering News
JF - Chemical and Engineering News
ER -