During wound regeneration, both cell adhesion and adhesion-inhibitory functions must be controlled in parallel. We developed a membrane with dual surfaces by merging the properties of carboxymethyl cellulose (CMC) and collagen using vitrification. A rigid membrane was formed by vitrification of a bi-layered CMC and collagen hydrogel without using cross-linking reagents, thus providing dual functions, strong cell adhesion-inhibition with the CMC layer, and cell adhesion with the collagen layer. We referred to this bi-layered CMC-collagen vitrigel membrane as "Bi-C-CVM" and optimized the process and materials. The introduction of the CMC layer conferred a "tough but stably wet" property to Bi-C-CVM. This enables Bi-C-CVM to cover wet tissue and make the membrane non-detachable while preventing tissue adhesion on the other side. The bi-layered vitrification procedure can expand the customizability of collagen vitrigel devices for wider medical applications.
Keywords: Adhesion-inhibitor; Anti-adhesion membrane; Bi-layered carboxymethyl cellulose-collagen vitrigel membrane; Cell-adhesion inhibition; Collagen hydrogel; Wound regeneration.
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