Excitability and Isometric Contractile Properties of Mammalian Skeletal Muscle Constructs Engineered in Vitro

Dennis, Robert G.; Kosnik, Paul E.

doi:10.1290/1071-2690(2000)036<0327:eaicpo>2.0.co;2

Cited by 327 publications

(284 citation statements)

References 30 publications

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“…Small muscle-like organs have been demonstrated to grow from co-cultures of myoblasts and fibroblasts. These organs, termed myooids, are able to contract both spontaneously and by electrical stimulation, albeit with only a fraction of the force observed in control muscles probably because of lack of innervation (Dennis and Kosnik 2000;Dennis et al 2001;Kosnik et al 2001). The diameter of myooids is limited at most to 1 mm due to the lack of perfusion which is probably the biggest problem to overcome in designing an in vitro meat production system.…”

Section: Culturing Of In Vitro Meatmentioning

confidence: 99%

“…Such a design using the artificial capillaries for the purpose of tissue-engineering has been proposed (Technology Review 2003;Zandonella 2003). Like the myooids, it is possible to co-culture the myoblasts with other cell types to create a more realistic muscle structure which can be organized in much the same way as real muscles (Dennis and Kosnik 2000;Dennis et al 2001;Kosnik et al 2001).…”

Section: Tissue Culturementioning

confidence: 99%

“…It might be possible that mechanical or electrical stimulation can promote growth and structure of the cultured meat as newly formed myotubes in culture start to contract spontaneously (Wolpert et al 1998) or as a matter of fact, myooids also contract spontaneously at approximately 1 Hz. once formed (Dennis and Kosnik 2000). So exercise by electrical stimulation might be a viable solution to overcome atrophy in an in vitro meat production system.…”

Section: Tissue Culturementioning

confidence: 99%

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Prospectus of cultured meat—advancing meat alternatives

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Section: Culturing Of In Vitro Meatmentioning

confidence: 99%

Section: Tissue Culturementioning

confidence: 99%

Section: Tissue Culturementioning

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Prospectus of cultured meat—advancing meat alternatives

2010

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“…Being highly specific and vital to the growth and survival of bone and bone tissue, vascularization of implanted scaffolds is a process that has already undergone extensive research. Vascularization is especially necessary when planning the creation of skeletal muscle from tissue engineering since the myoblasts can neither differentiate nor proliferate when greater than 150 µm from both an oxygen supply and a nutrient source [87]. This is significant considering that the efficient transport of nutrients, waste products, oxygen, and carbon dioxide through being connected to a muscle construct takes place in muscle that is thicker than 300 µm [35].…”

Section: Vascularizationmentioning

confidence: 99%

Cartilage and facial muscle tissue engineering and regeneration: a mini review

et al. 2018

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Cartilage and facial muscle tissue provide basic yet vital functions for homeostasis throughout the body, making human survival and function highly dependent upon these somatic components. When cartilage and facial muscle tissues are harmed or completely destroyed due to disease, trauma, or any other degenerative process, homeostasis and basic body functions consequently become negatively affected. Although most cartilage and cells can regenerate themselves after any form of the aforementioned degenerative disease or trauma, the highly specific characteristics of facial muscles and the specific structures of the cells and tissues required for the proper function cannot be exactly replicated by the body itself. Thus, some form of cartilage and bone tissue engineering is necessary for proper regeneration and function. The use of progenitor cells for this purpose would be very beneficial due to their highly adaptable capabilities, as well as their ability to utilize a high diffusion rate, making them ideal for the specific nature and functions of cartilage and facial muscle tissue. Going along with this, once the progenitor cells are obtained, applying them to a scaffold within the oral cavity in the affected location allows them to adapt to the environment and create cartilage or facial muscle tissue that is specific to the form and function of the area. The principal function of the cartilage and tissue is vascularization, which requires a specific form that allows them to aid the proper flow of bodily functions related to the oral cavity such as oxygen flow and removal of waste. Facial muscle is also very thin, making its reproduction much more possible. Taking all these into consideration, this review aims to highlight and expand upon the primary benefits of the cartilage and facial muscle tissue engineering and regeneration, focusing on how these processes are performed outside of and within the body.

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“…But it is not suitable for producing highly structured meats, such as steaks. To produce these, one would need a more ambitious approach, creating structured muscle tissue as self-organizing constructs 5 or proliferating existing muscle tissue in vitro.…”

Section: Cultured Meat Productionmentioning

confidence: 99%