Collagen-Inducing Compounds from Chihuahuan Desert Plants for Potential Skin Bioink 3D Printing Applications: A Narrative Review
Andrea I. Morales Cardona, René Gerardo Escobedo-Gonzalez, Alma Angelica Vazquez-Flores, Edgar Daniel Moyers-Montoya, Carlos Alberto Martinez Pérez

TL;DR
This paper reviews natural compounds from Chihuahuan Desert plants that could improve 3D-printed skin by enhancing collagen and supporting tissue repair.
Contribution
It identifies plant-derived bioactive compounds with potential to enhance bioink properties for 3D bioprinting, emphasizing sustainability and regional resources.
Findings
Several desert plant species contain metabolites that stimulate collagen synthesis and support extracellular matrix repair.
Bioactive compounds like lignans and flavonoids may improve the printability and mechanical stability of skin bioinks.
The review highlights the need for sustainable sourcing and ethical use of endemic plant resources.
Abstract
This review synthetizes experimental evidence on collagen-related bioactivity and the biomaterial potential of plant species native to the Chihuahuan Desert, aiming to identify natural compounds that could enhance next-generation dermal bioinks for 3D bioprinting. A structured search across major databases included studies characterizing plant extracts or metabolites, with reported effects on collagen synthesis, fibroblast activity, inflammation, oxidative balance, or interactions with polymers commonly used in skin-engineering materials being developed. Evidence was organized thematically to reveal mechanistic patterns despite methodological heterogeneity. Several species, among them Larrea tridentata, Opuntia spp., Aloe spp., Matricaria chamomilla, Simmondsia chinensis, Prosopis glandulosa, and Artemisia ludoviciana, repeatedly demonstrated the presence of bioactive metabolites such…
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Taxonomy
Topics3D Printing in Biomedical Research · Wound Healing and Treatments · Chemical synthesis and alkaloids
