Tissue Engineering And Nanotheranostics

(Steven Felgate) #1
“9.61x6.69” b2815 Tissue Engineering and Nanotheranostics

Engineering Approaches for Creating Skeletal Muscle 19

Much like mechanical strain, electrical fields are able to cause


changes in endothelial cell behavior and preferential alignment. When


human umbilical vein endothelial cells (HUVECs) were exposed to


100–300 mV/mm DC fields, they responded with elongation and


aligned along a vector perpendicular to the applied field.^72 This rea-


lignment of the cells was found to be VEGFR dependent.^72 Along


with the morphological changes, the electrical stimulation caused an


increased release of VEGF from the HUVECs.^72 Fields with strengths


less than 100 mV/mm did not have as profound of an effect on cells,


but the effect was still statistically significant.^72 In general, electrical


stimulation led to increased endothelial cell orientation and increased


VEGF production, both of which are beneficial for angiogenesis.


As their primary role in the body is electrical signal transduction,


it would make sense that electrical stimulation would have an effect


on neurons. However, electrical stimulation alone has not been


enough to cause changes in neurite outgrowth.^73 PC12 cells grown


on collagen-coated culture plastic was stimulated with indium tin


oxide electrodes with a 100 Hz alternating signal generating 50, 100


or 200 mV/mm oscillating fields.^73 While simple electrical stimula-


tion was not able to cause any significant effect in cell behavior, it had


a strong effect on the cells when the culture was supplemented with


nerve growth factor (NGF).^73 It was determined that the electrical


stimulation with NGF could increase average neurite length in cells.^73


Optimum effect was reached with field strength of 100 mV/mm and


100 ng/mL NGF supplementation.^73 In summary, electrical stimula-


tion can be beneficial to neurite development of neurons. However,


addition of other factors like NGF are necessary to see the full effect.


4.2.5. Oxygen tension


In terms of stem cells used in tissue engineering, oxygen tension also


may play a role in development. It has been previously shown that low


oxygen content can preserve MSCs in an undifferentiated state, and a


more recent study shows that hypoxia has a similar effect on muscle


SCs. Decreased oxygen led to faster proliferation, and still allowed


SCs to be differentiated in induction media.^74


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