Significance of Phytochemical screening
Phytochemical screening is the analytical process used to identify and evaluate the presence of active chemical constituents in plant extracts, including compounds like flavonoids, alkaloids, phenols, and saponins. This process is crucial for assessing the biological activity and potential health benefits of these compounds, which may have medicinal properties. Through phytochemical screening, researchers can determine the therapeutic effects associated with various plant materials, contributing to the understanding of their uses in traditional and modern medicine.
Synonyms: Phytochemical analysis
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The concept of Phytochemical screening in scientific sources
Phytochemical screening involves testing plant extracts for chemical compounds indicating medicinal efficacy, analyzing plants for therapeutic constituents, and preliminarily evaluating plant materials like S. dulcis for potential health benefits, including alkaloids and flavonoids.
From: World Journal of Pharmaceutical Research
(1) The process of analyzing plant extracts for their active chemical compounds that may provide health benefits.[1] (2) The process of testing extracts for various bioactive compounds including alkaloids, glycosides, flavonoids, and others.[2] (3) A series of tests performed to detect the presence of various chemical constituents, like alkaloids and flavonoids, in the extract of Delonix regia leaves.[3] (4) The process of identifying and analyzing the chemical compounds produced by plants that may have pharmaceutical benefits.[4] (5) The process of analyzing plant extracts to identify the presence of various chemical compounds that have biological activity.[5]
From: Ancient Science of Life
(1) The process of analyzing plant materials for chemical compounds that may have therapeutic effects or medicinal value.[6] (2) The analysis of plant materials to identify their chemical compounds, such as alkaloids or flavonoids, as done with the selected traditional medicines.[7] (3) The study and analysis of chemical compounds derived from plants to determine their potential medicinal properties.[8] (4) The process of analyzing plant extracts to identify their chemical compounds and assess their potential health benefits.[9] (5) Methods used to identify and isolate active compounds from plants, aimed at understanding their potential health benefits and pharmacological properties.[10]
From: Journal of Ayurveda and Integrative Medicine
(1) The testing process to identify the presence and concentration of chemical compounds in the Gardenia ternifolia extract that contribute to its therapeutic effects.[11] (2) A process of evaluating plant extracts for chemical compounds that have biological activity.[12] (3) The process of identifying active compounds in the extracts of Orthosiphon thymiflorus.[13] (4) The process of identifying the chemical compounds found in plants, particularly those with potential health benefits.[14] (5) The analysis of plant extracts to identify the presence of specific chemical compounds that contribute to their medicinal properties.[15]
From: AYU (Journal of Research in Ayurveda)
(1) The process of analyzing plant extracts for chemical constituents and their biological activities, revealing the presence of important secondary metabolites.[16] (2) The analytical process that confirmed the presence of various chemical constituents in Clitorea ternatea that may contribute to its medicinal properties.[17] (3) The process of analyzing plant extracts to identify bioactive compounds that may contribute to their therapeutic effects.[18] (4) The process of identifying the chemical constituents of a plant extract to determine its therapeutic potential.[19] (5) The process of analyzing plant extracts for various chemical constituents that may have therapeutic effects.[20]
From: International Ayurvedic Medical Journal
(1) The process of analyzing the chemical compounds found in herbal substances to understand their therapeutic effects.[21] (2) The analysis of plant extracts to identify the various bioactive compounds present that contribute to their medicinal properties.[22] (3) An assessment to identify the presence of various chemical compounds derived from plants.[23] (4) The process of analyzing plant extracts to identify their chemical components, particularly bioactive compounds with therapeutic properties.[24] (5) The process of testing plant extracts to identify their chemical constituents and determine their potential health benefits.[25]
From: Ayushdhara journal
(1) A process used to assess the presence of different phytochemical groups within a selected plant extract.[26] (2) A procedure to identify the chemical compounds in plants that have biological activity.[27] (3) Tests conducted to identify the presence of specific phytochemicals in plant extracts, which contribute to their medicinal effects.[28] (4) The process of testing plants for their bioactive chemical constituents to establish medicinal potential.[29] (5) A process to investigate the chemical compounds present in plants to determine their potential health benefits and effects.[30]
From: The Malaysian Journal of Medical Sciences
(1) Phytochemical screening of EEUL was performed to identify various bioactive compounds present in the extract.[31] (2) The exploration of the chemical compounds present in plants, particularly focusing on those with medicinal properties.[32] (3) The process of testing plant extracts for the presence of bioactive compounds that may have health benefits.[33]
From: Journal of Ayurveda and Holistic Medicine
(1) The process of testing plant extracts for the presence of various chemical compounds that may indicate medicinal efficacy.[34] (2) The process of evaluating the chemical compounds present in a plant-based formulation.[35]