Behnaz Ashtari scite author profile

Inherently conducting polymers (ICPs) are a specific category of synthetic polymers with distinctive electro-optic properties, which involve conjugated chains with alternating single and double bonds. Polyaniline (PANI), as one of the most well-known ICPs, has outstanding potential applications in biomedicine because of its high electrical conductivity and biocompatibility caused by its hydrophilic nature, low-toxicity, good environmental stability, and nanostructured morphology. Some of the limitations in the use of PANI, such as its low processability and degradability, can be overcome by the preparation of its blends and nanocomposites with various (bio)polymers and nanomaterials, respectively. This review describes the state-of-the-art of biological activities and applications of conductive PANI-based nanocomposites in the biomedical fields, such as antimicrobial therapy, drug delivery, biosensors, nerve regeneration, and tissue engineering. The latest progresses in the biomedical applications of PANI-based nanocomposites are reviewed to provide a background for future research.

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Polymeric and inorganic nanoscopical antimicrobial fillers in dentistry

Makvandi

et al. 2020

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Metal-Based Nanostructures/PLGA Nanocomposites: Antimicrobial Activity, Cytotoxicity, and Their Biomedical Applications

Zare‬

Jamaledin

Naserzadeh

et al. 2019

ACS Appl. Mater. Interfaces

142

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Among the different synthetic polymers developed for biomedical applications, poly(lactic-co-glycolic acid) (PLGA) has attracted considerable attention because of its excellent biocompatibility and biodegradability. Nanocomposites based on PLGA and metal-based nanostructures (MNSs) have been employed extensively as an efficient strategy to improve the structural and functional properties of PLGA polymer. The MNSs have been used to impart new properties to PLGA, such as antimicrobial properties and labeling. In the present review, the different strategies available for the fabrication of MNS/PLGA nanocomposites and their applications in the biomedical field will be discussed, beginning with a description of the preparation routes, antimicrobial activity, and cytotoxicity concerns of MNS/PLGA nanocomposites. The biomedical applications of these nanocomposites, such as carriers and scaffolds in tissue regeneration and other therapies are subsequently reviewed. In addition, the potential advantages of using MNS/PLGA nanocomposites in treatment illnesses are analyzed based on in vitro and in vivo studies, to support the potential of these nanocomposites in future research in the biomedical field.

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Antimicrobial gum bio-based nanocomposites and their industrial and biomedical applications

et al. 2019

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Stem Cell Differentiation into Cardiomyocytes: Current Methods and Emerging Approaches

Afjeh-Dana

Naserzadeh

Moradi

et al. 2022

Stem Cell Rev and Rep

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Behnaz Ashtari

Progress in Conductive Polyaniline-Based Nanocomposites for Biomedical Applications: A Review

Polymeric and inorganic nanoscopical antimicrobial fillers in dentistry

Metal-Based Nanostructures/PLGA Nanocomposites: Antimicrobial Activity, Cytotoxicity, and Their Biomedical Applications

Antimicrobial gum bio-based nanocomposites and their industrial and biomedical applications

Stem Cell Differentiation into Cardiomyocytes: Current Methods and Emerging Approaches

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