Towards skin-on-a-chip for screening the dermal absorption of cosmetics
Jessica Govey-Scotland, Liam Johnstone, Connor Myant, Mark S. Friddin
Abstract
skin model for this purpose and propose how these could be overcome on-chip using artificial cells engineered from the bottom-up. As part of our future perspective, we suggest how this could be realised using a digital biomanufacturing pipeline that connects the design, microfluidic generation and 3D printing of artificial cells into user-crafted synthetic tissues. We highlight milestone achievements towards this goal, identify future challenges, and suggest how the ability to engineer animal-free skin models could have significant long-term consequences for dermal absorption screening, as well as for other applications.
Topics & Concepts
CosmeticsAbsorption (acoustics)Ex vivoDermatologyChipNanotechnologyBiomedical engineeringMaterials scienceMedicineIn vivoComputer scienceBiotechnologyPathologyBiologyTelecommunicationsComposite materialAnimal testing and alternativesAdvancements in Transdermal Drug DeliveryEffects and risks of endocrine disrupting chemicals