Meat production and ethical concerns related to animal welfare have led to an increase in research into the creation of conventional meat. These technologies rely on the isolation, multiplication, and controlled differentiation of animal cells, which can potentially reduce negative environmental impact while maintaining comparable nutritional and sensory properties. The aim of this study is to comprehensively analyze and compare selected cell types used in the production of cultured meat, such as fibroblasts, satellite cells, adipocytes, and pluripotent cells: embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs). It is important to consider the proliferative capacity, differentiation potential, suitability in scalable bioprocessing systems, and their impact on the structure and sensory properties of muscle tissue. This analysis demonstrates that no single cell type can fully replicate the complex structure of native muscle tissue. Satellite cells are responsible for the formation of muscle fibers, fibroblasts provide support through the synthesis of the extracellular matrix, and adipocytes contribute to the flavor and juiciness of the final product. Pluripotent cells differentiate into all of cell lineages, but their use is associated with regulatory and ethical considerations. This work also addresses key aspects of bioprocess engineering, such as scalability, culture conditions, and the importance of 3D cell culture and cell co-cultures in restoring tissue structure. Furthermore, regulatory, ethical, and economic issues affecting the feasibility of implementing the technology for industrial production are considered. In summary, the data presented indicate that the development of cultured meat requires an integrated approach combining appropriate cell selection, process optimization, and compliance with regulatory and ethical requirements.
Domagała et al. (Tue,) studied this question.
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