There
is a lack of prehospital hemostatic agents, especially for
noncompressible hemorrhage. We previously reported PolySTAT, a unimeric,
injectable hemostatic agent, that physically cross-links fibrin to
strengthen clots. In this work, we sought to improve the water-solubility
and synthesis yield of PolySTAT to increase the likelihood of clinical
translation, reduce cost, and facilitate future mass production. First,
we focused on side-chain engineering of the carrier polymer backbone
to improve water-solubility. We found that substitution of the 2-hydroxyethyl
methacrylate (HEMA) monomer with glycerol monomethacrylate (GmMA)
significantly improved the water-solubility of PolySTAT without compromising
efficacy. Both materials increased clot firmness and decreased lysis
as measured by rotational thromboelastometry (ROTEM). Additionally,
we confirmed the in vivo activity of GmMA-based PolySTAT
by improving rat survival in a femoral artery bleed model. Second,
to reduce waste, we evaluated PolySTAT synthesis via direct polymerization
of peptide monomers. Methacrylamide and methacrylate peptide-monomers
were synthesized and polymerized via reversible addition-fragmentation
chain transfer (RAFT) polymerization. This approach markedly improved
the yield of PolySTAT synthesis while maintaining its biological activity
in ROTEM. This work demonstrates the flexibility of PolySTAT to a
variety of comonomers and synthetic routes and establishes direct
RAFT polymerization of peptide monomers as a potential route of mass
production.
Integration of a peptide modified with self-assembling peptide hydrogels imparts bioactivity to provide a potential platform for cell therapy applications.
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