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Recently, the development of polymeric materials for biomedical applications has advanced significantly. Polymeric materials are favored in the development of therapeutic devices, including temporary implants and three-dimensional scaffolds for tissue engineering and in vitro disease modelling.Further advancements have also occurred in the utilization of polymeric materials for pharmacological applications, such as delivery vehicles for drug release.We would like to invite you to contribute to this Special Issue. Research topics of interest include, but are not limited to, recent advances related to 3D cell culture, biomaterials, tissue engineering, disease modelling, hydrogel, organoids, drug discovery, bioimaging, cardio-renal, metabolic disease, and stem cell biology.

Medicine --- Pharmaceutical industries --- hydrogels --- crosslinking --- degradable --- gamma (γ)-irradiation --- sterilization --- sterility assurance --- antibacterial ability --- jojoba --- Simmondsia --- chemistry --- liquid wax --- biology --- toxicity --- pharmaceutical/industrial uses --- articular cartilage --- mechanical properties --- tribological properties --- antibacterial --- pathogens --- infectious diseases --- silver nanoparticles --- wound care --- wound dressings --- polymers --- gelatin --- nanofibers --- sponges --- Ag/RGO nanocomposites --- green preparation --- anticancer performance --- potential mechanism --- oxidative stress --- hydrogel --- poloxamer 407 polymer --- poloxamer 407 gel --- transungual drug delivery --- onychomycosis --- ungual penetration enhancer --- Terbinafine --- diafiltration --- SAXS --- aromatic interactions --- poly(sodium 4-styrenesulfonate) --- chlorpheniramine --- polyelectrolyte --- aggregation --- coaxial electrospinning --- extracellular matrix --- myelination --- oligodendrocyte --- water-soluble materials --- orthokeratology lens --- protein deposition --- optical characteristics --- rubbing --- chitosan --- kenaf --- nanocrystalline cellulose --- platelet lysate --- wound healing --- carbohydrate polymers blends --- functional food --- antioxidant activity --- co-microencapsulation --- spray drying --- bacteria viability (Bacillus clausii) --- probiotics --- itraconazole --- self-emulsifying nanovesicles --- transungual --- anti-fungal --- hydrogels --- crosslinking --- degradable --- gamma (γ)-irradiation --- sterilization --- sterility assurance --- antibacterial ability --- jojoba --- Simmondsia --- chemistry --- liquid wax --- biology --- toxicity --- pharmaceutical/industrial uses --- articular cartilage --- mechanical properties --- tribological properties --- antibacterial --- pathogens --- infectious diseases --- silver nanoparticles --- wound care --- wound dressings --- polymers --- gelatin --- nanofibers --- sponges --- Ag/RGO nanocomposites --- green preparation --- anticancer performance --- potential mechanism --- oxidative stress --- hydrogel --- poloxamer 407 polymer --- poloxamer 407 gel --- transungual drug delivery --- onychomycosis --- ungual penetration enhancer --- Terbinafine --- diafiltration --- SAXS --- aromatic interactions --- poly(sodium 4-styrenesulfonate) --- chlorpheniramine --- polyelectrolyte --- aggregation --- coaxial electrospinning --- extracellular matrix --- myelination --- oligodendrocyte --- water-soluble materials --- orthokeratology lens --- protein deposition --- optical characteristics --- rubbing --- chitosan --- kenaf --- nanocrystalline cellulose --- platelet lysate --- wound healing --- carbohydrate polymers blends --- functional food --- antioxidant activity --- co-microencapsulation --- spray drying --- bacteria viability (Bacillus clausii) --- probiotics --- itraconazole --- self-emulsifying nanovesicles --- transungual --- anti-fungal

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Recently, the development of polymeric materials for biomedical applications has advanced significantly. Polymeric materials are favored in the development of therapeutic devices, including temporary implants and three-dimensional scaffolds for tissue engineering and in vitro disease modelling.Further advancements have also occurred in the utilization of polymeric materials for pharmacological applications, such as delivery vehicles for drug release.We would like to invite you to contribute to this Special Issue. Research topics of interest include, but are not limited to, recent advances related to 3D cell culture, biomaterials, tissue engineering, disease modelling, hydrogel, organoids, drug discovery, bioimaging, cardio-renal, metabolic disease, and stem cell biology.

hydrogels --- crosslinking --- degradable --- gamma (γ)-irradiation --- sterilization --- sterility assurance --- antibacterial ability --- jojoba --- Simmondsia --- chemistry --- liquid wax --- biology --- toxicity --- pharmaceutical/industrial uses --- articular cartilage --- mechanical properties --- tribological properties --- antibacterial --- pathogens --- infectious diseases --- silver nanoparticles --- wound care --- wound dressings --- polymers --- gelatin --- nanofibers --- sponges --- Ag/RGO nanocomposites --- green preparation --- anticancer performance --- potential mechanism --- oxidative stress --- hydrogel --- poloxamer 407 polymer --- poloxamer 407 gel --- transungual drug delivery --- onychomycosis --- ungual penetration enhancer --- Terbinafine --- diafiltration --- SAXS --- aromatic interactions --- poly(sodium 4-styrenesulfonate) --- chlorpheniramine --- polyelectrolyte --- aggregation --- coaxial electrospinning --- extracellular matrix --- myelination --- oligodendrocyte --- water-soluble materials --- orthokeratology lens --- protein deposition --- optical characteristics --- rubbing --- chitosan --- kenaf --- nanocrystalline cellulose --- platelet lysate --- wound healing --- carbohydrate polymers blends --- functional food --- antioxidant activity --- co-microencapsulation --- spray drying --- bacteria viability (Bacillus clausii) --- probiotics --- itraconazole --- self-emulsifying nanovesicles --- transungual --- anti-fungal