Priyam Sinha scite author profile

Acne is a common but serious skin disease, which affects approximately 80% adolescents and young adults in 11–30 age group. 42.5% of men and 50.9% of women continue to suffer from this disease into their twenties. Bacterial resistance is now at the alarming stage due to the irrational use of antibiotics. Hence, search for new lead molecule/bioactive and rational delivery of the existing drug (for better therapeutic effect) to the site of action is the need of the hour. Plants and plant-derived products have been an integral part of health care system since time immemorial. Therefore, plants that are currently used for the treatment of acne and those with a high potential are summarized in the present review. Most active plant extracts, namely, P. granatum, M. alba, A. anomala, and M. aquifolium exhibit minimum inhibitory concentration (MIC) in the range of 4–50 µg/mL against P. acnes, while aromatic oils of C. obovoides, C. natsudaidai, C. japonica, and C. nardus possess MICs 0.005–0.6 μL/mL and phytomolecules such as rhodomyrtone, pulsaquinone, hydropulsaquinone, honokiol, magnolol, xanthohumol lupulones, chebulagic acid and rhinacanthin-C show MIC in the range of 0.5–12.5 μg/mL. Novel drug delivery strategies of important plant leads in the treatment of acne have also been discussed.

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Efficient Hepatic Delivery of Drugs: Novel Strategies and Their Significance

Mishra

Yadav

Kumar

et al. 2013

BioMed Research International

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Liver is a vital organ responsible for plethora of functions including detoxification, protein synthesis, and the production of biochemicals necessary for the sustenance of life. Therefore, patients with chronic liver diseases such as viral hepatitis, liver cirrhosis, and hepatocellular carcinoma need immediate attention to sustain life and as a result are often exposed to the prolonged treatment with drugs/herbal medications. Lack of site-specific delivery of these medications to the hepatocytes/nonparenchymal cells and adverse effects associated with their off-target interactions limit their continuous use. This calls for the development and fabrication of targeted delivery systems which can deliver the drug payload at the desired site of action for defined period of time. The primary aim of drug targeting is to manipulate the whole body distribution of drugs, that is, to prevent distribution to non-target cells and concomitantly increase the drug concentration at the targeted site. Carrier molecules are designed for their selective cellular uptake, taking advantage of specific receptors or binding sites present on the surface membrane of the target cell. In this review, various aspects of liver targeting of drug molecules and herbal medications have been discussed which elucidate the importance of delivering the drugs/herbal medications at their desired site of action.

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Anti-psoriatic effect of Lavandula angustifolia essential oil and its major components linalool and linalyl acetate

Kumar

Sinha

Yadav

et al. 2020

Journal of Ethnopharmacology

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Development of cellulosic polymer based gel of novel ternary mixture of miconazole nitrate for buccal delivery

Kumar

Yadav

Sinha

et al. 2014

Carbohydrate Polymers

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Development, optimization, and characterization of a novel tea tree oil nanogel using response surface methodology

Sinha

Srivastava

Mishra

et al. 2016

Drug Development and Industrial Pharmacy

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Priyam Sinha

New Perspectives on Antiacne Plant Drugs: Contribution to Modern Therapeutics

Efficient Hepatic Delivery of Drugs: Novel Strategies and Their Significance

Anti-psoriatic effect of Lavandula angustifolia essential oil and its major components linalool and linalyl acetate

Development of cellulosic polymer based gel of novel ternary mixture of miconazole nitrate for buccal delivery

Development, optimization, and characterization of a novel tea tree oil nanogel using response surface methodology

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