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. 2021 Oct 12;9:724158. doi: 10.3389/fbioe.2021.724158

TABLE 2.

Advances in bio nanomaterial applications in neurological studies.

Sr. No. Biomaterial Study model Research outcome References
1 Magnetic polylactic-co- glycolic acid (PGLA) scaffolds Middle cerebral artery occlusion (MCAO) Rat models Neural stem cells supported with a PLGA scaffold reduced the ischemic lesion volume in the cerebral cortex of rat models Bible et al. (2012)
2 PLGA microcarriers Ischaemic stroke rat model Mesenchymal stem cell survival and proliferation Quittet et al. (2015)
Effective delivery of vascular endothelial growth factor
Increased angiogenesis
3 Alginate conduit internal filler 50 mm gap sciatic nerve injury Cat model Nerve regeneration and proliferation. A 50 mm sciatic nerve gap was reduced to 10 mm 7 weeks after surgery Askarzadeh et al. (2020)
4 3D bioprinted methacrylated gelatin nerve conduits In vitro study Highly hydrophilic in nature. Can readily bind with nano-carriers and platelets to promote peripheral nerve regeneration
5 chitosan-polylactic acid (PLA) blend In vitro study Improves mechanical properties and biocompatibility. Reduced myofibroblast infiltration and scar tissue formation, and physically support regenerating nerves Xie et al. (2008)
6 Silk fibroin-collagen blend matrix 10 mm gap sciatic nerve defects rat models Adipose stem cells co-cultured with Schwann cells accelerated nerve regeneration Xu et al. (2016)
7 Nanoliposomes like dipalmitoyl phosphatidyl choline, dipalmitoyl phosphatidyl serine and ganglioside Rat models Improved delivery of citicoline to the brain functional recovery and synaptic plasticity after COVid-19 related brain damage Saghazadeh and Rezaei, (2021)
8 poly-l-lactic acid and gelatin scaffold Rat models Differentiation of neuronal stem cells into motor neurons Binan et al. (2014)
9 Tri-layered silk scaffold 10 mm gap sciatic nerve defects rat models No inflammation or scar formation was observed 2 weeks after repair indicating progressive axonal regrowth Alessandrino et al. (2019)
10 Keratin and alginate scaffold In vitro study Improved mechanical properties of keratin scaffold. Improved peripheral nerve repair Gupta and Nayak, (2016)