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Book
Applications of Liquid Chromatography in Analysis of Pharmaceuticals and Natural Products
Authors: ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

It is our pleasure to present this Special Issue of Pharmaceuticals, entitled “Applications of Liquid Chromatography in Analysis of Pharmaceuticals and Natural Products”. Plants produce a wide range of phytochemicals, which are secondary metabolites that confirm their identity and are used for the production of natural pharmaceuticals, among other things. The use of modern chromatographic techniques allows accurate quantitative and qualitative identification of the above-mentioned phytochemicals and their natural products. Liquid chromatography is one of the most efficient and robust specific techniques, due to the merits of convenience and strong separation ability, as well as a wide range of material applications for identification. Liquid chromatography is widely used for the analysis of plants, nutraceuticals, pharmaceuticals, natural product quality control, or quantitative determination of bioactive compounds. The most commonly used for the identification of different plant material and pharmaceuticals are the ultra- and high-performance liquid chromatography with UV-VIS, fluorescence, diode array, and equipped with mass spectrometry or tandem mass spectrometry detection methods. Therefore, for this Special Issue, we published works concerning the latest scientific news, insights, and advances in the field of innovation and applications of liquid chromatography in the analysis of phytochemicals and natural products.

Keywords

Research & information: general --- Biology, life sciences --- Food & society --- in vitro biological activity --- bioactive compounds --- morphological parts --- medical plant --- Fragaria viridis --- creamy strawberry --- ellagitannins --- HPLC --- mass spectrometry --- fruit ripening --- antioxidant potential --- bisphenol A --- high-performance liquid chromatography --- ionic liquid --- dispersive liquid–liquid microextraction --- extraction kinetic studies --- tenofovir --- creatinine --- HPLC-UV --- hepatitis B virus --- human immunodeficiency virus --- anatoxin-a(s) --- neurotoxins --- cyanobacteria poisoning --- bio-accessibility --- isothiazolinones --- parabens --- cosmetics --- SPE --- UHPLC/DAD --- Gardenia jasminoides Ellis --- anti-diabetic activity --- LC-MS/MS --- GC-MS --- anti-oxidant --- Ficus glumosa --- polyphenols --- HPLC-ESI-MS/MS --- antiproliferative --- antioxidant --- Ayurveda --- Divya-Swasari-Vati --- herbal medicine --- UPLC/QToF MS --- validation --- Allium cepa L. --- Box–Behnken --- flavonoids --- quercetin glycosides --- liquid chromatography --- multiresponse optimization --- onion --- phenolic compounds --- UHPLC --- HPLC-MS/MS --- steroidal hormones --- anti-doping --- bovine blood --- equine blood --- natural products --- plant materials --- dietary supplements --- terpenes --- capillary liquid chromatography --- steroids --- skin permeability --- thin layer chromatography --- calculated physicochemical descriptors --- topical formulation --- anti-cellulite --- cosmetic --- monoterpenoids --- accelerated stability --- F0 concept --- steam sterilization --- sterilization safety --- glucose degradation products --- α-dicarbonyl compounds --- derivatization --- tandem mass spectrometry --- Geobacillus stearothermophilus --- paracetamol --- accuracy profile --- 3D printed --- formulation --- biorelevant media --- in vitro biological activity --- bioactive compounds --- morphological parts --- medical plant --- Fragaria viridis --- creamy strawberry --- ellagitannins --- HPLC --- mass spectrometry --- fruit ripening --- antioxidant potential --- bisphenol A --- high-performance liquid chromatography --- ionic liquid --- dispersive liquid–liquid microextraction --- extraction kinetic studies --- tenofovir --- creatinine --- HPLC-UV --- hepatitis B virus --- human immunodeficiency virus --- anatoxin-a(s) --- neurotoxins --- cyanobacteria poisoning --- bio-accessibility --- isothiazolinones --- parabens --- cosmetics --- SPE --- UHPLC/DAD --- Gardenia jasminoides Ellis --- anti-diabetic activity --- LC-MS/MS --- GC-MS --- anti-oxidant --- Ficus glumosa --- polyphenols --- HPLC-ESI-MS/MS --- antiproliferative --- antioxidant --- Ayurveda --- Divya-Swasari-Vati --- herbal medicine --- UPLC/QToF MS --- validation --- Allium cepa L. --- Box–Behnken --- flavonoids --- quercetin glycosides --- liquid chromatography --- multiresponse optimization --- onion --- phenolic compounds --- UHPLC --- HPLC-MS/MS --- steroidal hormones --- anti-doping --- bovine blood --- equine blood --- natural products --- plant materials --- dietary supplements --- terpenes --- capillary liquid chromatography --- steroids --- skin permeability --- thin layer chromatography --- calculated physicochemical descriptors --- topical formulation --- anti-cellulite --- cosmetic --- monoterpenoids --- accelerated stability --- F0 concept --- steam sterilization --- sterilization safety --- glucose degradation products --- α-dicarbonyl compounds --- derivatization --- tandem mass spectrometry --- Geobacillus stearothermophilus --- paracetamol --- accuracy profile --- 3D printed --- formulation --- biorelevant media


Book
Applications of Liquid Chromatography in Analysis of Pharmaceuticals and Natural Products
Authors: ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

It is our pleasure to present this Special Issue of Pharmaceuticals, entitled “Applications of Liquid Chromatography in Analysis of Pharmaceuticals and Natural Products”. Plants produce a wide range of phytochemicals, which are secondary metabolites that confirm their identity and are used for the production of natural pharmaceuticals, among other things. The use of modern chromatographic techniques allows accurate quantitative and qualitative identification of the above-mentioned phytochemicals and their natural products. Liquid chromatography is one of the most efficient and robust specific techniques, due to the merits of convenience and strong separation ability, as well as a wide range of material applications for identification. Liquid chromatography is widely used for the analysis of plants, nutraceuticals, pharmaceuticals, natural product quality control, or quantitative determination of bioactive compounds. The most commonly used for the identification of different plant material and pharmaceuticals are the ultra- and high-performance liquid chromatography with UV-VIS, fluorescence, diode array, and equipped with mass spectrometry or tandem mass spectrometry detection methods. Therefore, for this Special Issue, we published works concerning the latest scientific news, insights, and advances in the field of innovation and applications of liquid chromatography in the analysis of phytochemicals and natural products.

Keywords

Research & information: general --- Biology, life sciences --- Food & society --- in vitro biological activity --- bioactive compounds --- morphological parts --- medical plant --- Fragaria viridis --- creamy strawberry --- ellagitannins --- HPLC --- mass spectrometry --- fruit ripening --- antioxidant potential --- bisphenol A --- high-performance liquid chromatography --- ionic liquid --- dispersive liquid–liquid microextraction --- extraction kinetic studies --- tenofovir --- creatinine --- HPLC-UV --- hepatitis B virus --- human immunodeficiency virus --- anatoxin-a(s) --- neurotoxins --- cyanobacteria poisoning --- bio-accessibility --- isothiazolinones --- parabens --- cosmetics --- SPE --- UHPLC/DAD --- Gardenia jasminoides Ellis --- anti-diabetic activity --- LC-MS/MS --- GC-MS --- anti-oxidant --- Ficus glumosa --- polyphenols --- HPLC-ESI-MS/MS --- antiproliferative --- antioxidant --- Ayurveda --- Divya-Swasari-Vati --- herbal medicine --- UPLC/QToF MS --- validation --- Allium cepa L. --- Box–Behnken --- flavonoids --- quercetin glycosides --- liquid chromatography --- multiresponse optimization --- onion --- phenolic compounds --- UHPLC --- HPLC-MS/MS --- steroidal hormones --- anti-doping --- bovine blood --- equine blood --- natural products --- plant materials --- dietary supplements --- terpenes --- capillary liquid chromatography --- steroids --- skin permeability --- thin layer chromatography --- calculated physicochemical descriptors --- topical formulation --- anti-cellulite --- cosmetic --- monoterpenoids --- accelerated stability --- F0 concept --- steam sterilization --- sterilization safety --- glucose degradation products --- α-dicarbonyl compounds --- derivatization --- tandem mass spectrometry --- Geobacillus stearothermophilus --- paracetamol --- accuracy profile --- 3D printed --- formulation --- biorelevant media


Book
Applications of Liquid Chromatography in Analysis of Pharmaceuticals and Natural Products
Authors: ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

It is our pleasure to present this Special Issue of Pharmaceuticals, entitled “Applications of Liquid Chromatography in Analysis of Pharmaceuticals and Natural Products”. Plants produce a wide range of phytochemicals, which are secondary metabolites that confirm their identity and are used for the production of natural pharmaceuticals, among other things. The use of modern chromatographic techniques allows accurate quantitative and qualitative identification of the above-mentioned phytochemicals and their natural products. Liquid chromatography is one of the most efficient and robust specific techniques, due to the merits of convenience and strong separation ability, as well as a wide range of material applications for identification. Liquid chromatography is widely used for the analysis of plants, nutraceuticals, pharmaceuticals, natural product quality control, or quantitative determination of bioactive compounds. The most commonly used for the identification of different plant material and pharmaceuticals are the ultra- and high-performance liquid chromatography with UV-VIS, fluorescence, diode array, and equipped with mass spectrometry or tandem mass spectrometry detection methods. Therefore, for this Special Issue, we published works concerning the latest scientific news, insights, and advances in the field of innovation and applications of liquid chromatography in the analysis of phytochemicals and natural products.

Keywords

in vitro biological activity --- bioactive compounds --- morphological parts --- medical plant --- Fragaria viridis --- creamy strawberry --- ellagitannins --- HPLC --- mass spectrometry --- fruit ripening --- antioxidant potential --- bisphenol A --- high-performance liquid chromatography --- ionic liquid --- dispersive liquid–liquid microextraction --- extraction kinetic studies --- tenofovir --- creatinine --- HPLC-UV --- hepatitis B virus --- human immunodeficiency virus --- anatoxin-a(s) --- neurotoxins --- cyanobacteria poisoning --- bio-accessibility --- isothiazolinones --- parabens --- cosmetics --- SPE --- UHPLC/DAD --- Gardenia jasminoides Ellis --- anti-diabetic activity --- LC-MS/MS --- GC-MS --- anti-oxidant --- Ficus glumosa --- polyphenols --- HPLC-ESI-MS/MS --- antiproliferative --- antioxidant --- Ayurveda --- Divya-Swasari-Vati --- herbal medicine --- UPLC/QToF MS --- validation --- Allium cepa L. --- Box–Behnken --- flavonoids --- quercetin glycosides --- liquid chromatography --- multiresponse optimization --- onion --- phenolic compounds --- UHPLC --- HPLC-MS/MS --- steroidal hormones --- anti-doping --- bovine blood --- equine blood --- natural products --- plant materials --- dietary supplements --- terpenes --- capillary liquid chromatography --- steroids --- skin permeability --- thin layer chromatography --- calculated physicochemical descriptors --- topical formulation --- anti-cellulite --- cosmetic --- monoterpenoids --- accelerated stability --- F0 concept --- steam sterilization --- sterilization safety --- glucose degradation products --- α-dicarbonyl compounds --- derivatization --- tandem mass spectrometry --- Geobacillus stearothermophilus --- paracetamol --- accuracy profile --- 3D printed --- formulation --- biorelevant media

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