Significance of High performance thin layer chromatography
High performance thin layer chromatography (HPTLC) is a sophisticated analytical technique widely used in the separation and quantification of active compounds in herbal products. It enhances resolution and speed compared to traditional thin-layer chromatography, making it suitable for qualitative and quantitative analysis of various substances, including phytochemicals from plant extracts. HPTLC is instrumental in quality control, stability testing, and fingerprinting of herbal formulations, allowing researchers to accurately identify and analyze constituents in complex mixtures.
Synonyms: Hptlc, Analytical thin layer chromatography
The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.
The concept of High performance thin layer chromatography in scientific sources
High performance thin layer chromatography (HPTLC) is an analytical technique essential for separating and identifying compounds in mixtures, notably in phytochemical analysis, herbal drugs, and assessing active ingredients in specific samples like Kuberaksha and Shirishavaleha.
From: World Journal of Pharmaceutical Research
(1) A technique used for the separation of chemical substances in phytochemical analysis, enabled by ultraviolet detection in this study.[1] (2) The High Performance Thin Layer Chromatography method is used for analyzing the phytochemical profiles of the plant.[2] (3) An advanced form of thin layer chromatography that allows for rapid and accurate analysis of plant extracts, ensuring quality and authenticity.[3] (4) A precise and accurate method used to determine the chemical components in plant extracts.[4] (5) A quantitative analysis technique used to separate and identify components in pharmaceutical formulations.[5]
From: AYU (Journal of Research in Ayurveda)
(1) A technique used to analyze the chemical composition of the plant's root and fruit.[6] (2) A chromatographic technique used to separate and identify compounds in a mixture for fingerprinting herbal extracts.[7] (3) A technique used to separate and quantify plumbagin content through a chromatographic process.[8] (4) A technique used in the study to analyze changes in the chemical composition of Snuhi latex during purification.[9] (5) A sophisticated analytical technique used for separating and analyzing compounds within the root and stem of D. volubilis.[10]
From: Ancient Science of Life
(1) A scientific method employed to separate and analyze compounds in a mixture, specifically utilized here to estimate the total sterols in Dashmula.[11] (2) A technique employed to develop finger print parameters for siddha medicine, providing better resolution and estimation of active principles with reasonable accuracy.[12] (3) An advanced version of thin layer chromatography utilized for detailed analysis of the oleoresin's chemical components.[13] (4) An advanced form of thin layer chromatography that was utilized to study and distinguish between the chemical profiles of the stem and root of Oroxylum indicum.[14] (5) A modern technique utilized for separating and identifying compounds based on their interaction with a stationary phase while moving with a mobile phase.[15]
From: Journal of Ayurveda and Integrative Medicine
(1) A methd used to separate and analyze compounds in the extracts, providing a chemical fingerprint for individual components.[16] (2) High performance thin layer chromatography (HPTLC) is a modern analytical technique used for separating and identifying compounds, such as the estimation of tetrandrine in plant extracts.[17] (3) An analytical method employed to separate and identify active compounds in Anu Tailam, indicating the presence of polar ingredients.[18] (4) A technique used for the quantification of marker compounds in herbal extracts, as indicated by the calibration curve and chromatogram.[19] (5) An analytical technique used for separation and identification of compounds in a mixture, particularly useful for alkaloid analysis in herbal formulations.[20]
From: International Ayurvedic Medical Journal
(1) A technique used for the separation and analysis of organic compounds in Panchkola churna to establish quality control standards.[21] (2) A qualitative analysis method that enhances the separation and resolution of compounds compared to traditional thin-layer chromatography.[22] (3) An enhanced chromatography technique that automates steps of classic thin-layer chromatography, improving resolution and quantitative measurements.[23] (4) A chromatographic technique used to analyze the composition of Svalpamasha Taila, leading to the identification of various phytochemicals present.[24] (5) A sophisticated analytical technique used to evaluate the chemical constituents of herbal materials with greater efficiency and lower costs.[25]
From: Ayushdhara journal
(1) A method for analyzing and separating compounds in a mixture, used in Ayurvedic medicine research for quality control and formulation analysis.[26] (2) A powerful analytical technique employed in drug discovery and evaluation, known for its reliability and simplicity, used for identification, authentication, and quality control of herbal drugs.[27] (3) A technique used for separating and analyzing components in a mixture, utilized in the standardization of Ayurvedic formulations.[28] (4) A chromatographic technique used to separate and analyze compounds from plant extracts.[29]
From: Journal of Ayurveda and Holistic Medicine
(1) An analytical technique used for separating and identifying compounds in a mixture, particularly useful in the analysis of phytochemicals.[30]
From: Journal of Indian Society of Periodontology
(1) A laboratory technique used to separate and quantify the active phytoconstituents in the polyberry gel.[31]