P
Parinaz Abdollahiyan
Researcher at Tabriz University of Medical Sciences
Publications - 11
Citations - 234
Parinaz Abdollahiyan is an academic researcher from Tabriz University of Medical Sciences. The author has contributed to research in topics: 3D bioprinting & Self-healing hydrogels. The author has an hindex of 4, co-authored 11 publications receiving 52 citations. Previous affiliations of Parinaz Abdollahiyan include Nanjing Forestry University.
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Hydrogel-Based 3D Bioprinting for Bone and Cartilage Tissue Engineering
TL;DR: Cutting‐edge developments in hydrogel‐type bioinks are reviewed and the optimum simulation of the zonal stratification in osteochondral and cartilage units is discussed to enhance the printing quality of scaffolds and determine the nurture of cellular morphology.
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The triad of nanotechnology, cell signalling, and scaffold implantation for the successful repair of damaged organs: An overview on soft-tissue engineering.
TL;DR: In this article, a review has addressed the most recent advances in the tissue engineering of various organs with a focus on the applications of nanomaterials in this field, and the nature of damaged tissues, as well as scaffolds' composition, porous structure, degradability, and biocompatibility are determinant factors for successful tissue engineering.
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Cutting-edge progress and challenges in stimuli responsive hydrogel microenvironment for success in tissue engineering today
Parinaz Abdollahiyan,Behzad Baradaran,Miguel de la Guardia,Fatemeh Oroojalian,Ahad Mokhtarzadeh +4 more
TL;DR: This study reviews a brief explanation of the structure, characters, applications, fabrication methods, and future outlooks of stimuli responsive hydrogels in tissue engineering and, in particular, 3D bioprinting.
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Nanotechnology, and scaffold implantation for the effective repair of injured organs: An overview on hard tissue engineering
Parinaz Abdollahiyan,Fatemeh Oroojalian,Maryam Hejazi,Miguel de la Guardia,Ahad Mokhtarzadeh +4 more
TL;DR: In this article, most advanced technical improvements, experiments, and future outlooks of hard tissue engineering are discussed, as well as their relevant additive manufacturing techniques, and a review of 3D bioprinting methods still have some uncertainties.
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An innovative colorimetric platform for the low-cost and selective identification of Cu(II), Fe(III), and Hg(II) using GQDs-DPA supported amino acids by microfluidic paper-based (µPADs) device: Multicolor plasmonic patterns
Parinaz Abdollahiyan,Parinaz Abdollahiyan,Mohammad Hasanzadeh,Farzad Seidi,Paria Pashazadeh-Panahi +4 more
TL;DR: In this article, a novel type of highly fluorescent probe for selective Cu2+ detection among 26 types of metal ions which considerably enhance the fluorescence intensity of GQD was presented.