Kooi Yeong Khaw scite author profile

Supercritical fluid technologies offer a propitious method for drug discovery from natural sources. Such methods require relatively short processing times, produce extracts with little or no organic co-solvent, and are able to extract bioactive molecules whilst minimising degradation. Supercritical fluid extraction (SFE) provides a range of benefits, as well as offering routes to overcome some of the limitations that exist with the conventional methods of extraction. Unfortunately, SFE-based methods are not without their own shortcomings; two major ones being: (1) the high establishment cost; and (2) the selective solvent nature of CO2, i.e., that CO2 only dissolves small non-polar molecules, although this can be viewed as a positive outcome provided bioactive molecules are extracted during solvent-based SFE. This review provides an update of SFE methods for natural products and outlines the main operating parameters for extract recovery. Selected processing considerations are presented regarding supercritical fluids and the development and application of ultrasonic-assisted SFE methods, as well as providing some of the key aspects of SFE scalability.

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Prenylated xanthones from mangosteen as promising cholinesterase inhibitors and their molecular docking studies

Khaw

Choi

Tan

et al. 2014

Phytomedicine

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Cholinesterase inhibitory activity of isoquinoline alkaloids from three Cryptocarya species (Lauraceae)

Othman

Liew

Khaw

et al. 2016

Bioorganic & Medicinal Chemistry

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Cholinesterase inhibitory triterpenoids from the bark ofGarcinia hombroniana

Jamila

Khairuddean

Khaw

et al. 2014

Journal of Enzyme Inhibition and Medicinal Chemistry

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Cholinesterase inhibitory activity and chemical constituents of Stenochlaena palustris fronds at two different stages of maturity

Chear

Khaw

Murugaiyah

et al. 2016

Journal of Food and Drug Analysis

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Stenochlaena palustris fronds are popular as a vegetable in Southeast Asia. The objectives of this study were to evaluate the anticholinesterase properties and phytochemical profiles of the young and mature fronds of this plant. Both types of fronds were found to have selective inhibitory effect against butyrylcholinesterase compared with acetylcholinesterase. However, different sets of compounds were responsible for their activity. In young fronds, an antibutyrylcholinesterase effect was observed in the hexane extract, which was comprised of a variety of aliphatic hydrocarbons, fatty acids, and phytosterols. In the mature fronds, inhibitory activity was observed in the methanol extract, which contained a series of kaempferol glycosides. Our results provided novel information concerning the ability of S. palustris to inhibit cholinesterase and its phytochemical profile. Further research to investigate the potential use of this plant against Alzheimer's disease is warranted, however, young and mature fronds should be distinguished due to their phytochemical differences.

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Kooi Yeong Khaw

Solvent Supercritical Fluid Technologies to Extract Bioactive Compounds from Natural Sources: A Review

Prenylated xanthones from mangosteen as promising cholinesterase inhibitors and their molecular docking studies

Cholinesterase inhibitory activity of isoquinoline alkaloids from three Cryptocarya species (Lauraceae)

Cholinesterase inhibitory triterpenoids from the bark ofGarcinia hombroniana

Cholinesterase inhibitory activity and chemical constituents of Stenochlaena palustris fronds at two different stages of maturity

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