Comparative Pharmacognostic and Phytochemical Analysis of Three Market Samples of Rasna: Pluchea lanceolata, Alpinia officinarum, and Alpinia calcarata
Comparative analysis of Rasan types from Raw material market
Abstract
Introduction: Ayurveda, an ancient system of medicine, utilizes a vast array of medicinal plants, each offering unique therapeutic properties that contribute to holistic health and well-being. However, misidentification of species is most common which comes in the way of authenticity. To cite an example - Pluchea lanceolata when mixed with varieties of Alpinia can lead to inconsistencies in their medicinal use. This underscores the need for accurate identification and standardization to ensure the efficacy of treatments and the safety of stakeholders. This research paper explores the botanical and medicinal profiles of Pluchea lanceolata, Alpinia calcarata, and Alpinia officinarum, emphasizing the importance of proper classification and the need for quality control in Ayurvedic herbal remedies. Materials and Methods: Raw materials were collected from Thrissur market and organoleptic, pharmacognostic and phytochemical analysis were done. Results and Discussion: Three varieties of Rasna (Pluchea lanceolata, Alpinia calcarata, and Alpinia officinarum) share common physical characteristics, such as scaly, rough rhizomes that are fibrous and tough, making them suitable for drying, grinding, or slicing (for medicinal use.) All three species exhibit starch grains, fibers, and stone cells in their rhizomes, contributing to energy storage, structural support, and resilience. Pluchea lanceolata has the highest total ash content, indicating a richer mineral composition, while A. calcarata and A. officinarum show lower mineral content. All three species contain phenols, sugars, carbohydrates, flavonoids, glycosides, steroids, and other bioactive compounds, contributing to their therapeutic properties. Conclusion: Standardization in preparation and use of Ayurvedic remedies is critical for preserving the integrity of Ayurveda, ensuring reliable therapeutic benefits, and positioning Ayurvedic medicine as a credible and effective global health solution.
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References
Vagbhata. Ashtanga Hridayam, Sootrasthanam, 9th chapter, Dravyadi Vijnaneeyam.
Namdeo AG, Kale VM. Comparative pharmacognostic and phytochemical investigation of two Alpinia species from the Zingiberaceae Family. World J Pharm Res. 2015 Feb 15;4(5):1417-32.
Manisha, Kumar Garg N. Therapeutic uses of Rasna (Pluchea lanceolata): Review Article. World J Pharm Med Res. 2020;6(7):109-112.
Shibila K, Chandrasekaran M, Sooriyakumar P. Morphological and biochemical characterization of Alpinia calcarata rhizomes. J Spices Arom Crops. 2023;32(2):202-213.
Dixit A, Kumar D, Sharma A. Alpinia officinarum: Phytochemistry and Pleitropism. Int J Pharm Phytopharmacol Res. 2012;2(2):122-125.
Keshari P, Pradeep. Controversy, adulteration and substitution - burning problems in ayurveda practices. Int Ayurvedic Med J. 2017;5(7).
Pamnani M. Rasna a Controversy – An Ayurvedic Review. World J Pharm Res. 2021;10(2):509-514.
Anonymous. The Ayurvedic Pharmacopoeia of India. Government of India, Ministry of Health and Family Welfare, New Delhi. 2008;1(4):p334.
Haritha, Anu Joy, Smitha, Sandhya. Standardisation of Pranah capsule as a health supplement with antioxidative activity. World J Pharm Med Res. 2024;10(4):170-175.
Bhavamisra. Bhavaprakasa Nighantu. Commentary by Chunekar KC, edited by Pandey GS. Varanasi: Chaukhambha Bharati Academy; 2018. p.76.
MacNeill GJ, Mehrpouyan S, Minow MAA, Patterson JA, Tetlow IJ, Emes MJ. Starch as a source, starch as a sink: the bifunctional role of starch in carbon allocation. J Exp Bot. 2017 Oct;68(16):4433-4453. doi: 10.1093/jxb/erx291.
van Dam JEG, Gorshkova TA. CELL WALLS AND FIBERS | Fiber Formation. In: Thomas B, editor. Encyclopedia of Applied Plant Sciences. Elsevier; 2003. p. 87-96. ISBN: 9780122270505. doi: 10.1016/B0-12-227050-9/000466.
Lin S, Lin D, Wu B, Ma S, Sun S, Zhang T, et al. Morphological and Developmental Features of Stone Cells in Eriobotrya Fruits. Front Plant Sci. 2022;13:823993. doi: 10.3389/fpls.2022.823993.
Taylor TN, Taylor EL, Krings M. Introduction to Vascular Plant Morphology and Anatomy. In: Taylor TN, Taylor EL, Krings M, editors. Paleobotany. 2nd ed. Academic Press; 2009. p. 201-222. ISBN: 9780123739728. doi: 10.1016/B978-0-12-373972-8.00007-3.
Tütüncü Konyar S, Öztürk N, Dane F. Occurrence, types and distribution of calcium oxalate crystals in leaves and stems of some species of poisonous plants. Bot Stud. 2014;55:32. doi: 10.1186/1999-3110-55-32.
Llauradó Maury G, Méndez Rodríguez D, Hendrix S, Escalona Arranz JC, Fung Boix Y, Pacheco AO, et al. Antioxidants in Plants: A Valorization Potential Emphasizing the Need for the Conservation of Plant Biodiversity in Cuba. Antioxidants. 2020;9(11):1048. doi: 10.3390/antiox9111048.
Anonymous. Quality standards of Indian Medicinal Plants. Indian Council of Medical Research, New Delhi; 2006. Vol.12, p.105.
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