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1.
AAPS PharmSciTech ; 25(5): 94, 2024 May 06.
Article in English | MEDLINE | ID: mdl-38710898

ABSTRACT

This study introduces and assesses the potential of a Luliconazole-loaded nanofiber (LUL-NF) patch, fabricated through electrospinning, for enhancing topical drug delivery. The primary objectives involve evaluating the nanofiber structure, characterizing physical properties, determining drug loading and release kinetics, assessing antifungal efficacy, and establishing the long-term stability of the NF patch. LUL-NF patches were fabricated via electrospinning and observed by SEM at approximately 200 nm dimensions. The comprehensive analysis included physical properties (thickness, folding endurance, swelling ratio, weight, moisture content, and drug loading) and UV analysis for drug quantification. In vitro studies explored sustained drug release kinetics, while microbiological assays evaluated antifungal efficacy against Candida albicans and Aspergillus Niger. Stability studies confirmed long-term viability. Comparative analysis with the pure drug, placebo NF patch, LUL-NF patch, and Lulifod gel was conducted using agar diffusion, revealing enhanced performance of the LUL-NF patch. SEM analysis revealed well-defined LUL-NF patches (0.80 mm thickness) with exceptional folding endurance (> 200 folds) and a favorable swelling ratio (12.66 ± 0.73%). The patches exhibited low moisture uptake (3.4 ± 0.09%) and a moisture content of 11.78 ± 0.54%. Drug loading in 1 cm2 section was 1.904 ± 0.086 mg, showing uniform distribution and sustained release kinetics in vitro. The LUL-NF patch demonstrated potent antifungal activity. Stability studies affirmed long-term stability, and comparative analysis highlighted increased inhibition compared to a pure drug, LUL-NF patch, and a commercial gel. The electrospun LUL-NF patch enhances topical drug delivery, promising extended therapy through single-release, one-time application, and innovative drug delivery strategies, supported by thorough analysis.


Subject(s)
Antifungal Agents , Aspergillus niger , Candida albicans , Drug Delivery Systems , Drug Liberation , Imidazoles , Nanofibers , Antifungal Agents/administration & dosage , Antifungal Agents/pharmacology , Antifungal Agents/chemistry , Nanofibers/chemistry , Candida albicans/drug effects , Aspergillus niger/drug effects , Drug Delivery Systems/methods , Imidazoles/chemistry , Imidazoles/administration & dosage , Imidazoles/pharmacology , Delayed-Action Preparations , Microbial Sensitivity Tests/methods , Drug Carriers/chemistry , Drug Stability
2.
Colloids Surf B Biointerfaces ; 203: 111760, 2021 Jul.
Article in English | MEDLINE | ID: mdl-33872827

ABSTRACT

The present study was designed to develop pH-sensitive lipid polymer hybrid nanoparticles (pHS-LPHNPs) for specific cytosolic-delivery of docetaxel (DTX). The pHS-LPHNPs-DTX formulation was prepared by self-assembled nano-precipitation technique and characterized for zeta potential, particle size, entrapment efficiency, polydispersity index (PDI), and in vitro drug release. In vitro cytotoxicity of pHS-LPHNPs-DTX was assessed on breast cancer cells (MDA-MB-231 and MCF-7) and compared with DTX-loaded conventional LPHNPs and bare DTX. In vitro cellular uptake in MDA-MB-231 cell lines showed better uptake of pHS-LPHNPs. Further, a significant reduction in the IC50 of pHS-LPHNPs-DTX against both breast cancer cells was observed. Flow cytometry results showed greater apoptosis in case of pHS-LPHNPs-DTX treated MDA-MB-231 cells. Breast cancer was experimentally induced in BALB/c female mice, and the in vivo efficacy of the developed pHS-LPHNPs formulation was assessed with respect to the pharmacokinetics, biodistribution in the vital organs (liver, kidney, heart, lungs, and spleen), percentage tumor burden, and survival of breast cancer-bearing animals. In vivo studies showed improved pharmacokinetic and target-specificity with minimum DTX circulation in the deep-seated organs in the case of pHS-LPHNPs-DTX compared to the LPHNPs-DTX and free DTX. Mice treated with pHS-LPHNPs-DTX exhibited a significantly lesser tumor burden than other treatment groups. Also, reduced distribution of DTX in the serum was evident for pHS-LPHNPs-DTX treated mice compared to the LPHNPs-DTX and free DTX. In essence, pHS-LPHNPs mediated delivery of DTX presents a viable platform for developing therapeutic-interventions against breast-cancer.


Subject(s)
Antineoplastic Agents , Breast Neoplasms , Nanoparticles , Animals , Antineoplastic Agents/pharmacology , Antineoplastic Agents/therapeutic use , Breast Neoplasms/drug therapy , Cell Line, Tumor , Docetaxel/pharmacology , Drug Carriers/therapeutic use , Female , Humans , Mice , Mice, Inbred BALB C , Particle Size , Tissue Distribution
3.
Crit Rev Ther Drug Carrier Syst ; 37(2): 135-159, 2020.
Article in English | MEDLINE | ID: mdl-32865903

ABSTRACT

Nail psoriasis is a chronic condition which causes pain and functional impairment; thus, it restricts the activities of daily living and worsens the quality of life. Different chemotherapeutic options are available for treating nail psoriasis such as systemic, intralesional, and topical therapies. However, current chemotherapy suffers from several limitations and to overcome them, new advancements are being made worldwide. Various reports have been published on current progress in the treatment of nail psoriasis such as clinical efficacy studies of novel antipsoriatic agents and novel formulation strategies for current chemotherapy. There are several novel nail formulations for the treatment of nail disorders, particularly onychomycosis, such as vesicular colloidal structure (liposomes, niosomes, transfersomes, ethosomes, etc.) and nonvesicular colloidal structures (nano-emulgel, nanocapsules, thermosensitive gel, etc.) These formulations can also prove beneficial for the treatment of nail psoriasis, and will be heavily explored in the near future. This review provides a brief introduction to the disease, its pathogenesis, and its treatment modalities. The review also throws light onto progress and future perspectives in nail psoriasis treatment.


Subject(s)
Anti-Inflammatory Agents/administration & dosage , Chronic Pain/drug therapy , Immunosuppressive Agents/administration & dosage , Nail Diseases/drug therapy , Psoriasis/drug therapy , Administration, Topical , Chronic Pain/immunology , Chronic Pain/psychology , Clinical Trials as Topic , Colloids , Drug Carriers , Gels , Glucocorticoids/administration & dosage , Humans , Injections, Intralesional , Injections, Subcutaneous , Nail Diseases/complications , Nail Diseases/immunology , Nail Diseases/psychology , Nails/drug effects , Nails/immunology , Nails/pathology , Nanoparticles , Psoriasis/complications , Psoriasis/immunology , Psoriasis/psychology , Quality of Life , Treatment Outcome
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