2023
DOI: 10.3389/fchem.2023.1267018
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How to fix a broken heart—designing biofunctional cues for effective, environmentally-friendly cardiac tissue engineering

Aleksandra Benko,
Thomas J. Webster

Abstract: Cardiovascular diseases bear strong socioeconomic and ecological impact on the worldwide healthcare system. A large consumption of goods, use of polymer-based cardiovascular biomaterials, and long hospitalization times add up to an extensive carbon footprint on the environment often turning out to be ineffective at healing such cardiovascular diseases. On the other hand, cardiac cell toxicity is among the most severe but common side effect of drugs used to treat numerous diseases from COVID-19 to diabetes, oft… Show more

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“…High cost of skin substitutes remains a limitation not only to patient accessibility, but to scalability and manufacturing ( Halim et al, 2010 ; Pangarkar et al, 2010 ). It is also becoming more important that tissue constructs are prepared using environmentally friendly and sustainable methods ( Mahmud et al, 2023 ; Benko and Webster, 2023 ; D’Elía et al, 2023 ). The use of naturally-derived biomaterials with sustainable sources such as marine collagen and cellulose are compelling, but the extraction and production of these biomaterials remains a chemically-intensive process ( Samavedi et al, 2014 ; El Knidri et al, 2018 ; Khan et al, 2022 ; Saji et al, 2022 ).…”
Section: Current Approaches To Skin Engineeringmentioning
confidence: 99%
“…High cost of skin substitutes remains a limitation not only to patient accessibility, but to scalability and manufacturing ( Halim et al, 2010 ; Pangarkar et al, 2010 ). It is also becoming more important that tissue constructs are prepared using environmentally friendly and sustainable methods ( Mahmud et al, 2023 ; Benko and Webster, 2023 ; D’Elía et al, 2023 ). The use of naturally-derived biomaterials with sustainable sources such as marine collagen and cellulose are compelling, but the extraction and production of these biomaterials remains a chemically-intensive process ( Samavedi et al, 2014 ; El Knidri et al, 2018 ; Khan et al, 2022 ; Saji et al, 2022 ).…”
Section: Current Approaches To Skin Engineeringmentioning
confidence: 99%