K. Mottaghy scite author profile

Bioreactors are important inevitable part of any tissue engineering (TE) strategy as they aid the construction of three-dimensional functional tissues. Since the ultimate aim of a bioreactor is to create a biological product, the engineering parameters, for example, internal and external mass transfer, fluid velocity, shear stress, electrical current distribution, and so forth, are worth to be thoroughly investigated. The effects of such engineering parameters on biological cultures have been addressed in only a few preceding studies. Furthermore, it would be highly inefficient to determine the optimal engineering parameters by trial and error method. A solution is provided by emerging modeling and computational tools and by analyzing oxygen, carbon dioxide, and nutrient and metabolism waste material transports, which can simulate and predict the experimental results. Discovering the optimal engineering parameters is crucial not only to reduce the cost and time of experiments, but also to enhance efficacy and functionality of the tissue construct. This review intends to provide an inclusive package of the engineering parameters together with their calculation procedure in addition to the modeling techniques in TE bioreactors.

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C1 inhibitor prevents capillary leakage after thermal trauma

Radke

Mottaghy

Goldmann

et al. 2000

Critical Care Medicine

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K. Mottaghy

The role of biodegradable engineered scaffolds seeded with Schwann cells for spinal cord regeneration

Engineering Parameters in Bioreactor’s Design: A Critical Aspect in Tissue Engineering

C1 inhibitor prevents capillary leakage after thermal trauma

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