Biomaterials
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Blood loss at the site of a wound in mammals is curtailed by the rapid formation of a hemostatic plug, i.e., a self-assembled network of the protein, fibrin that locally transforms liquid blood into a gelled clot. Here, we report an amphiphilic biopolymer that exhibits a similar ability to rapidly gel blood; moreover, the self-assembly underlying the gelation readily allows for reversibility back into the liquid state via introduction of a sugar-based supramolecule. The biopolymer is a hydrophobically modified (hm) derivative of the polysaccharide, chitosan. ⋯ Gelation is reversed by the addition of α-cyclodextrin, a supramolecule having an inner hydrophobic pocket: polymer hydrophobes unbind from blood cells and embed within the cyclodextrins, thereby disrupting the cell network. We believe that hm-chitosan has the potential to serve as an effective, yet low-cost hemostatic dressing for use by trauma centers and the military. Preliminary tests with small and large animal injury models show its increased efficacy at achieving hemostasis - e.g., a 90% reduction in bleeding time over controls for femoral vein transections in a rat model.