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W4309685095 endingPage "9383" @default.
W4309685095 startingPage "9338" @default.
W4309685095 abstract "Aging remains a primary risk factor for a host of diseases, including leading causes of death. Aging and associated diseases are inherently multifactorial, with numerous contributing factors and phenotypes at the molecular, cellular, tissue, and organismal scales. Despite the complexity of aging phenomena, models currently used in aging research possess limitations. Frequently used in vivo models often have important physiological differences, age at different rates, or are genetically engineered to match late disease phenotypes rather than early causes. Conversely, routinely used in vitro models lack the complex tissue-scale and systemic cues that are disrupted in aging. To fill in gaps between in vivo and traditional in vitro models, researchers have increasingly been turning to organotypic models, which provide increased physiological relevance with the accessibility and control of in vitro context. While powerful tools, the development of these models is a field of its own, and many aging researchers may be unaware of recent progress in organotypic models, or hesitant to include these models in their own work. In this review, we describe recent progress in tissue engineering applied to organotypic models, highlighting examples explicitly linked to aging and associated disease, as well as examples of models that are relevant to aging. We specifically highlight progress made in skin, gut, and skeletal muscle, and describe how recently demonstrated models have been used for aging studies or similar phenotypes. Throughout, this review emphasizes the accessibility of these models and aims to provide a resource for researchers seeking to leverage these powerful tools." @default.
W4309685095 created "2022-11-29" @default.
W4309685095 creator A5037608379 @default.
W4309685095 creator A5043693379 @default.
W4309685095 creator A5061667533 @default.
W4309685095 creator A5087464182 @default.
W4309685095 date "2022-11-22" @default.
W4309685095 modified "2023-10-01" @default.
W4309685095 title "Organotypic cultures as aging associated disease models" @default.
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