Yashika Bhalla scite author profile

Natural essential oil constituents play an important role in cancer prevention and treatment. Essential oil constituents from aromatic herbs and dietary plants include monoterpenes, sesquiterpenes, oxygenated monoterpenes, oxygenated sesquiterpenes and phenolics among others. Various mechanisms such antioxidant, antimutagenic and antiproliferative, enhancement of immune function and surveillance, enzyme induction and enhancing detoxification, modulation of multidrug resistance and synergistic mechanism of volatile constituents are responsible for their chemopreventive properties. This review covers the most recent literature to summarize structural categories and molecular anticancer mechanisms of constituents from aromatic herbs and dietary plants.

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Enhancing biopharmaceutical parameters of bioflavonoid quercetin by cocrystallization

Vasisht

Chadha

Karan

et al. 2016

CrystEngComm

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Cocrystals of Hesperetin: Structural, Pharmacokinetic, and Pharmacodynamic Evaluation

Chadha

Karan

Bhalla

et al. 2017

Crystal Growth & Design

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Cocrystallization by the solvent drop grinding technique has been employed successfully to generate highly water-soluble cocrystals of a poorly soluble nutraceutical hesperetin with different coformers, picolinic acid, nicotinamide, and caffeine. The miniscule amount of solvent (ethanol here), added during grinding, expectedly imparts high molecular mobility and efficiency to the method. On the basis of preliminary indication of the phase transformation by differential scanning calorimetry, these cocrystals were further characterized by Fourier transform-infrared and solid state NMR spectroscopy. However, the final structural confirmation of these distinct cocrystalline forms was provided by either single crystal X-ray diffraction (XRD) for HESP-PICO or powder XRD data in Material Studio software to generate the crystal structure of HESP-NICO and HESP-CAFF. The data revealed the existence of supramolecular synthons established by novel hydrogen bonds between hydroxyl groups of hesperetin with acid or amide carbonyl (CO), and/or amidic NH 2 , and/or pyridine/aromatic nitrogen (N aromatic ) of coformers. Dissolution studies of cocrystals in aqueous buffer showed maximum concentration of hesperetin to be nearly 4−5 times higher than the pure substance. This has led to optimized pharmacokinetics as exhibited by improved relative bioavailability (HESP-PICO:1.36, HESP-NICO:1.57, HESP-CAFF:1.60). Furthermore, the enhanced antioxidant and antihemolytic effect, coupled with the protective action against inflammation, signifies the development of a clinically useful and a pharmaceutically acceptable form of hesperetin.

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Is Failure of Cocrystallization Actually a Failure? Eutectic Formation in Cocrystal Screening of Hesperetin

Chadha

Karan

Chadha

et al. 2017

Journal of Pharmaceutical Sciences

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Colchicine and its various physicochemical and biological aspects

et al. 2012

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Yashika Bhalla

Anticancer activity of essential oils: a review

Enhancing biopharmaceutical parameters of bioflavonoid quercetin by cocrystallization

Cocrystals of Hesperetin: Structural, Pharmacokinetic, and Pharmacodynamic Evaluation

Is Failure of Cocrystallization Actually a Failure? Eutectic Formation in Cocrystal Screening of Hesperetin

Colchicine and its various physicochemical and biological aspects

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