posted on 2021-11-10, 10:29authored byArpita Roy, Preetam Guha Ray, Kalipada Manna, Chiranjib Banerjee, Santanu Dhara, Sagar Pal
A unique facile process has been
adopted for fast assembly of a
poly(N-vinyl imidazole) cross-linked β-cyclodextrin
hydrogel through microwave-assisted free radical polymerization, using N,N′-methylenebis(acrylamide) cross-linker.
The copolymer possesses positive surface charge, one of the characteristic
properties of an ideal hemostatic hydrogel. The functionalized imidazole-based
hydrogel demonstrates rapid, superior blood coagulation kinetics under in vitro and in vivo conditions. On application
to a major renal arterial hemorrhagic model, this hydrogel shows better
blood clotting kinetics, leading to complete hemostasis in as few
as ∼144 ± 7 s. Additionally, 350 μL of whole blood
was clotted instantly, in ∼35 s, and therefore, reinforcing
its hemostatic potential. The hydrogel demonstrates excellent biocompatibility,
when seeded with human dermal fibroblast cells, retaining the native
property of its predecessor. In addition, the hydrogel presents excellent
hemocompatibility when tested with whole blood with the highest hemolytic
ratio of 1.07 ± 0.05%. Moreover, it also demonstrates potential
as a carrier for sustained release of an anesthetic drug, lidocaine
hydrochloride monohydrate (∼83% in 24 h). The rapid hemostatic
behavior of the hydrogel is coupled with its cytocompatibility and
hemocompatibilty properties along with controlled drug release characteristics.
These behaviors evidently demonstrate it to be an excellent alternative
for a superior hemostatic material for severe hemorrhagic conditions.