Hemendra Kumar Sahu scite author profile

Hemendra Kumar Sahu

2Publications

2Citation Statements Received

0Citation Statements Given

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133

Affiliations

Indian Institute of Technology BHU

Publications

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Dual-Receptor-Targeted Nanomedicines: Emerging Trends and Advances in Lung Cancer Therapeutics

Vikas

Sahu

Mehata

et al. 2022

Nanomedicine (Lond.)

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Cancer is the leading cause of mortality worldwide. Among all cancer types, lung cancer is recognized as the most lethal and highly metastatic. The application of targeted nanomedicine loaded with anticancer drugs is highly desirable for successful lung cancer treatment. However, due to the heterogenicity and complexity of lung cancer, the therapeutic effectiveness of a single receptor targeting nanomedicine is unfortunately limited. Therefore, the concept of dual-receptor-targeted nanomedicine is an emerging trend for the advancement in lung cancer therapeutics. In this review, the authors discuss various single- and dual-receptor-targeted nanomedicines that have been developed for lung cancer treatment. Furthermore, the authors also discussed all the types of receptors that can be utilized in combination for the development of dual-receptor-targeted nanomedicines.

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Oxidative stress: Insights into the Pathogenesis and Treatment of Alopecia

Ramkar¹,

Sahu²,

Hemnani³

et al. 2023

JRUB

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Hairs are exposed to a host of endogenous and environmental stress by pollutants, microbial assaults, UV radiation, oxidized scalp lipids, grooming practices and cosmetic treatments which have diverse range of adverse consequences. The exposure to these environmental and cosmetic substances, leads to generation of free radicals, reactive oxygen species in particular, leading to oxidative stress. Oxidative stress generates inflammation, and/or psycho-emotional stress, and also influences the ageing process, including the hair follicle. The term alopecia signifies loss of hair owing to several factors, ultimately resulting in decreased hair density. Cell death on hair follicle (keratinocytes and its distinctive mesenchyme of dermal papilla) have been attributed to mechanisms of oxidative stress, including H2O2, nitric oxide and derivatives, ultraviolet rays, ionizing radiations, endotoxin-induced inflammation, photodynamic therapy and cigarette smoke. Persistent oxidative activities in the body, may generate antioxidant defense systems, which can prevent the attack of biological molecules. In case of androgenic alopecia, copper and zinc was discovered in the disrupted metabolism form in serum, urine and hair of the patients, and data suggests rise in oxidative stress. This review is focused on the effects of the reactive oxygenated species in disturbing the redox balance and inducing oxidative injury that leads to androgenic alopecia.

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