TY - JOUR
T1 - A dual flow bioreactor with controlled mechanical stimulation for cartilage tissue engineering
AU - Spitters, Tim
AU - Leijten, Jeroen Christianus Hermanus
AU - Deus, F.D.
AU - Costa, I.B.F.
AU - van Apeldoorn, Aart A.
AU - van Blitterswijk, Clemens
AU - Karperien, Hermanus Bernardus Johannes
PY - 2013/2/15
Y1 - 2013/2/15
N2 - In cartilage tissue engineering bioreactors can create a controlled environment to study chondrocyte behavior under mechanical stimulation or produce chondrogenic grafts of clinically relevant size. Here we present a novel bioreactor, which combines mechanical stimulation with a two compartment system through which nutrients can be supplied solely by diffusion from opposite sides of a tissue engineered construct. This design is based on the hypothesis that creating gradients of nutrients, growth factors and growth factor antagonists can aid in the generation of zonal tissue engineered cartilage. Computational modeling predicted that the design facilitates the creation of a biologically relevant glucose gradient. This was confirmed by quantitative glucose measurements in cartilage explants. In this system it is not only possible to create gradients of nutrients, but also of anabolic or catabolic factors. Therefore, the bioreactor design allows control over nutrient supply and mechanical stimulation useful for in vitro generation of cartilage constructs that can be used for the resurfacing of articulated joints or as a model for studying OA disease progression.
AB - In cartilage tissue engineering bioreactors can create a controlled environment to study chondrocyte behavior under mechanical stimulation or produce chondrogenic grafts of clinically relevant size. Here we present a novel bioreactor, which combines mechanical stimulation with a two compartment system through which nutrients can be supplied solely by diffusion from opposite sides of a tissue engineered construct. This design is based on the hypothesis that creating gradients of nutrients, growth factors and growth factor antagonists can aid in the generation of zonal tissue engineered cartilage. Computational modeling predicted that the design facilitates the creation of a biologically relevant glucose gradient. This was confirmed by quantitative glucose measurements in cartilage explants. In this system it is not only possible to create gradients of nutrients, but also of anabolic or catabolic factors. Therefore, the bioreactor design allows control over nutrient supply and mechanical stimulation useful for in vitro generation of cartilage constructs that can be used for the resurfacing of articulated joints or as a model for studying OA disease progression.
KW - IR-84238
KW - METIS-294469
U2 - 10.1089/ten.TEC.2012.0435
DO - 10.1089/ten.TEC.2012.0435
M3 - Article
SN - 1937-3384
VL - 19
SP - 774
EP - 783
JO - Tissue engineering. Part C: Methods
JF - Tissue engineering. Part C: Methods
IS - 10
ER -