Fateme Chavoshy scite author profile

Fateme Chavoshy

3Publications

36Citation Statements Received

52Citation Statements Given

How they've been cited

137

How they cite others

226

Affiliations

Tehran University of Medical Sciences, Ahvaz Jundishapur University of Medical Sciences, Shiraz University of Medical Sciences

Publications

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Polymeric micelles as cutaneous drug delivery system in normal skin and dermatological disorders

Makhmalzade

Chavoshy

2018

J Adv Pharm Technol Res

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The easy accessibility of skin made dermal application, one of the approaches for local drug therapy. Effectiveness of topical drug application is depended on different parameters such as skin barrier properties, physicochemical properties of drug and vehicle, and interaction between drug and its vehicle with the skin layers. In this review, an overview of skin structure and feature of polymeric micelles as topical nanocarriers is provided. We also summarized the research studies dealing with the application of polymeric micelles for cutaneous delivery. In the past decades, numerous types of nanocarriers have been widely investigated as a novel delivery approach to improve skin penetration and localization of drugs in normal skin and dermatological diseases. Polymeric micelles are one of them, with their specific ability to encapsulate hydrophilic drugs. These carriers can enhance the therapeutic efficacy and minimize the systemic side effects of the drugs. Polymeric micelles could enhance the deposition of drugs in targeted sites of the skin in the normal and dermatological diseases such as psoriasis and acne. Nevertheless, still there is a need to investigate the mechanism of action of these carriers and the fate of polymeric micelles in skin.

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HPLC methods for quantifying anticancer drugs in human samples: A systematic review

Sabourian

Mirjalili

Namini

et al. 2020

Analytical Biochemistry

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Delivery and Anti-Psoriatic Effect of Silibinin-Loaded Polymeric Micelles: An Experimental Study in the Psoriatic Skin Model

Chavoshy

Makhmalzadeh

Tamaddon

et al. 2020

CDD

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Objective: Psoriasis is an inflamed skin disorder associated with activation of phosphorylation signals in keratinocytes which leads to proliferation. Phosphorylation signal inhibitors such as silibinin can inhibit cell proliferation. Unlike current psoriasis treatment approaches that are associated with dangerous side effects; natural components can introduce new trends in psoriasis treatment. The major problem in the topical treatment of psoriasis is drug localization through the psoriasis lesions. Methods: In this study, silibinin-loaded polymeric micelles prepared and characterized for drug loading and release and ex vivo permeation through psoriatic and normal mice skin. The optimized batch was used for the treatment of psoriasis lesions in the mice model. Results: The optimized batch demonstrated mean particle size 18.3±2.1 nm, entrapment efficiency 75.8±5.8%, and prolonged silibinin release. % Silibinin permeated through psoriatic skin after 48 treated by polymeric micelle and aqueous control was 80.35, and 92.6, respectively. Polymeric micelles increased silibinin localization in the psoriatic skin in comparison with control. In psoriatic skin after 7-10 days treatment by silibinin- loaded polymeric micelle there was no evidence of psoriasis and the histological evaluation showed no sign of psoriasis. Silibinin-loaded polymeric micelles reduced Psoriasis area index by more than 78% after 14 days. Conclusion: It seems that polymeric micelles increased the effectiveness of silibinin by drug localization into the psoriatic plaque. Topical STAT- 3inhibitors can be introduced as a new strategy in psoriasis treatment.

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Fateme Chavoshy

Polymeric micelles as cutaneous drug delivery system in normal skin and dermatological disorders

HPLC methods for quantifying anticancer drugs in human samples: A systematic review

Delivery and Anti-Psoriatic Effect of Silibinin-Loaded Polymeric Micelles: An Experimental Study in the Psoriatic Skin Model

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