P
Parinaz Nezhad-Mokhtari
Researcher at Tabriz University of Medical Sciences
Publications - 18
Citations - 817
Parinaz Nezhad-Mokhtari is an academic researcher from Tabriz University of Medical Sciences. The author has contributed to research in topics: Self-healing hydrogels & Drug delivery. The author has an hindex of 12, co-authored 18 publications receiving 391 citations. Previous affiliations of Parinaz Nezhad-Mokhtari include University of Tabriz.
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Aloe vera-loaded nanofibrous scaffold based on Zein/Polycaprolactone/Collagen for wound healing.
TL;DR: Results offered that the prepared NFs can be promised as an active scaffold for wound healing uses and displayed the suitable thermal stability and mechanical properties.
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A review on the construction of hydrogel scaffolds by various chemically techniques for tissue engineering
Parinaz Nezhad-Mokhtari,Parinaz Nezhad-Mokhtari,Marjan Ghorbani,Leila Roshangar,Jafar Soleimani Rad +4 more
TL;DR: The versatile methods to design the hydrogels including click chemistry, Michael-type addition reaction and Schiff base reaction are discussed, contrasting and comparing the many chemistries available for biomedical hydrogel generation using both biologic and synthetic base materials.
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An injectable chitosan-based hydrogel scaffold containing gold nanoparticles for tissue engineering applications.
TL;DR: A new design of injectable hydrogels based on collagen, aldehyde modified-nanocrystalline cellulose, and chitosan loaded with gold nanoparticles is developed, which suggested that the prepared hydrogel network has great potential as a new biomaterial for tissue engineering applications.
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Chemical gelling of hydrogels-based biological macromolecules for tissue engineering: Photo- and enzymatic-crosslinking methods.
TL;DR: The current advances in the development of injectable hydrogels through enzymatically and photo-crosslinking procedures for tissue engineering are covered and the characteristics and applications of natural and synthetic base materials used in hydrogel generation are reviewed.
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Incorporating Cu-based metal-organic framework/drug nanohybrids into gelatin microsphere for ibuprofen oral delivery
TL;DR: The drug release tests showed that the Cu-MOF/IBU@GM has a better protection against stomach pH and enhanced the stability of drug dosing for a longer time with controlled releases in the gastrointestinal tract conditions.