Best From Waste: Bioactivity-Guided Formulation Development From A Common Weed - Commelina benghalensis
Abstract
Each year, tons of weeds are burned or allowed to dry throughout the world. Despite folklore claims that Commelina benghalensis can treat leprosy, fever, snake bites, jaundice, sore throats, headaches, and constipation in both humans and animals, the ubiquitous Indian plant always dies the same way every year. By creating a formulation based on the evaluation of its potential ethnomedicinal properties, the current work attempts to utilize this weed. Using solvents with increasing polarity, the complete plant was extracted once at a time. The anti-ulcer and laxative efficacy of each extract was investigated using appropriate animal models. The ethnomedicinal claims of the plant were supported by the discovery that the methanolic extract was the most bioactive, followed by the aqueous extract. Important classes of phytoconstituents such phenolics, alkaloids, saponins, steroids & triterpenoids, flavonoids, and carbohydrates were found by phytochemical screening. From the purified fraction of the most bioactive extract, many chemicals, including stigmasterol and β-sitosterol, were discovered using GC-MS. Using TLC experiments and HPTLC, a chromatographic fingerprint was created. Effervescent granules of the methanolic extract were created and tested on animal models in order to bring the research to the public for their benefit. They were found to be effective as an anti-ulcer and laxative, which was compatible with our goal to create a "Best from Waste" product.
Keywords:
Commelina benghalensis, Antiulcer, Weed, Effervescent Granules, Best from Waste, StigmasterolDOI
https://doi.org/10.25004/IJPSDR.2023.150314References
World Health Organization (WHO). Resolution promotion and development of training and research in traditional medicine: document no. 30-49; 1977. Available from: https://apps.who.int/iris/handle/10665/93212.
Faden RB. The Misconstrued and Rare Species of Commelina (Commelinaceae) in the Eastern United States. Ann Mo Bot Gard. 1993;80(1):208-18. https://doi.org/10.2307/2399824
Burkill, Faden, NAPPO. The useful plants of west tropical Africa. Vol. 1, Royal Botanic Gardens Kew, 2000, 2003, 2006, pp. 429-430.
Parrotta JA. Healing plants of peninsular India. Wallingford (UK): CABI Publishing; 2001. https://doi.org/10.1079/9780851995014.0000
Hasan SMR, Hossain MM, Faruque A, Mazumder MEH, Rana MS, Akter R, et al. Comparison of antioxidant potential of different fractions of Commelina benghalensis Linn. Bangladesh J Life Sci. 2008;20(2):9-16.
Yusuf M, Wahab MA, Chowdhury JW, Japripa BB. Medical Plants of Bangladesh, BCSIR Chittagong Laboratory, Bangladesh, 1994; 73
Kirtikar KR, Basu BD. Indian medicinal plants. 2nd ed; 1980. pp. 2532-2541
Senyonga M, Brehony E. international conference AIDS. Vol. 9; 1993 Jun 6-11. pp. 75:(Abstract No. WS-B326).
Tabuti JR, Lye KA, Dhillion SS. Traditional herbal drugs of Bulamogi, Uganda: plants, use and administration, J Ethnopharmacol 2003;88:19-44. https://doi.org/10.1016/s0378-8741(03)00161-2
Okello J, Ssegawa P. Medicinal plants used by communities of Ngai Subcounty, Apac District, northern Uganda, Afr J Ecol 2007;45:76-83. https://doi.org/10.1111/j.1365-2028.2007.00742.x
Adjanohoun E. Contribution to ethnobotanical and floristic studies in Uganda, OUA/CSTR, Lagos from the data bank PHARMEL. Vol. 2 (ref. HP 10); 1993.
Jayvir A, Minoo P, Gauri B, Raipal K. Natural Heals: A glossary of selected indigenous medicinal plant of India, Sristi Innovations, Ahmadabad, India. 2nd ed. Vol. 22; 2007.
Khare CP, Indian medicinal plant, Commelina benghalensis. pp.168
Nilima AT, Sanjay JK, Kaveri MK, Shushal P. Roles of Commelina benghalensis In Medicine – A Review. International Journal of Institutional Pharmacy and Life Sciences, May-june 2016;6(3):505-512
Ibrahim J, Ajaegbu VC, Egharevba, HO. Henry Omoregie, Pharmacognostic and Phytochemical Analysis of Commelina benghalensis L. Ethnobotanical Leaflets 14 May 2010: 610-615. https://opensiuc.lib.siu.edu/ebl/vol2010/iss5/7
Manandhar N. Sanjay P. Plants and people of Nepal. Nepal: Timber press; 2000.
Qaiser M, Jafri SMH. Commelina benghalensis. Flora Pak. 1975;10.
Mollik MAH, Hossan MS, Paul AK, Taufiq-Ur-Rahman MT, Jahan R, Rahmatullah M. A comparative analysis of medicinal plants used by folk medicinal healers in three districts of Bangladesh and inquiry as to mode of selection of medicinal plants. Ethnobot Res Appl. 2010;8:195-218. https://doi.org/10.17348/era.8.0.195-218
Ghani A. Medicinal plants of Bangladesh with chemical constituents and uses. Dhaka, Bangladesh: Asiatic Society of Bangladesh; 2003. p. 267.
Starlin T, Prabha PS, Thayakumar BKA, Gopalakrishnan VK. Screening and GC-MS profiling of ethanolic extract of Tylophora pauciflora. Bioinformation. 2019;15(6):425-429. https://doi.org/10.6026/97320630015425 PMID 31312080. PMCID PMC6614127.
Deyuan H, DeFilipps R. Commelinaceae. Flora China. 2004:2419-93
Zheng FH, Wei P, Huo HL, Xing XF, Chen FL, Tan XM et al. Neuroprotective effect of gui zhi (ramulus cinnamomi) on ma huang- (herb ephedra-) induced toxicity in rats treated with a ma huang-gui zhi herb pair. Evid Based Complement Alternat Med. 2015;2015:913461. https://doi.org/10.1155/2015/913461, PMID 25691910, PMCID PMC4321680.
Beentj HJ, Lansdown RV. The IUCN Red list of Threatened Species 2018: e. T177240A120145118
United State Department of Agriculture: Natural resources conservation Service. https://plants.usda.gov/core/profile?symbol=COBE2
Rehel S, Patzelt A, Knees SG, Molur S, Beentje HJ. Commelina benghalensis. The IUCN Red List of Threatened Species 2017: e.T177240A83796269
Prostko EP, Culpepper AS, Webster TM, Flanders JT. Tropical Spiderwort Identification and Control in Georgia Field Crops., Cooperative Extension Service, The University of Georgia College of Agricultural and Environmental Sciences. 2005; Circular 884. Handle: https://hdl.handle.net/10724/12193.
Webster TM, Burton MG, Culpepper AS, York AC, Prostko EP. Tropical spiderwort (Commelina benghalensis): A tropical invader threatens agroecosystems of the Southern United States. Weed Technol., 2005;19:501-508. https://doi.org/10.1614/WT-04-234R.1
Wu ZY, Raven PH. Flora of China. Vol. 24. Beijing: Science Press; 2000. p. 19-39.
Jemilat I, Chioma AV, Omoregie EH. Pharmacognostic and phytochemical analysis of Commelina benghalensis L. Ethnobotanical Leaflets 2010; 14: 610-615
Oratai N, Pattaraporn B. A survey of herbal weeds for treating skin disorders from Southern Thailand: Songkhla and Krabi Province., Jouranal of Ethopharmacology, 2016;193:574-585. https://doi.org/10.1016/j.jep.2016.09.048
Orni PR, Shetu HJ, Khan T, Rashed SSB, Dash PR. A comprehensive review on Commelina benghalensis L. (Commelinaceae). Int J Pharmacognosy 2018; 5(10): 637-645.
Giridharan P, Somasundaram ST, Perumal K, Vishwakarma RA, Karthikeyan NP, Velmurugan R and Balakrishnan. A Novel substituted methylenedioxy lignan suppresses proliferation of cancer cells by inhibiting telomerase and activation of c-myc and caspases leading to apoptosis. British Journal of Cancer, 2002;87:98-105. https://doi.org/10.1038/sj.bjc.6600422
Harborne JB (1998) Phytochemical methods: a guide to modern technique of plant analysis, vol 3. Champman and Hall, London, pp 60–66
Trease GE, Evans WC. A Text Book of Pharmacognosy, 12th ed. Oxford Bailliere Tindall, Eastbourne, U.K: ELSB; 1983
Feigl F. Spot tests in organic analysis. 4th ed. London: Elsevier; 1956.
Fischer R. Folia, Blattdrogen. In: Praktikum der Pharmakognosie. Vienna: Springer; 1952. https://doi.org/10.1007/978-3-7091-2037-8_5
Geissman A. Modern Methods of Plant Analysis, Vol. III. Berlin: Springer Verlag, 1955
List PH, Horhammer L. Hager Hand buch der pharmazeutischem praxis, Band 1. Berlin: Springer Verlag, 1967
Robinson T. The organic constituents of higher plants, their chemistry and interrelationships. Minneapolis: Burgers publishing company; 1964.
Cuellar C, Armando O, Dennis O: Preliminary phytochemical and antimicrobial evaluation of the fresh and dried whole plant extracts from Commelina benghalensis. Colombiana Cienc Anim 2010; 2(1): 104-116
Wealth of India; dictionary of Indian raw material and industrial products. 2nd ed. 2006;1:226.
Stirton JZ, Harborne JB. Two distinctive anthocyanin patterns in the Commelinaceae. Biochemical Systemarics and Ecology 1980; 8(4): 285-287. https://doi.org/10.1016/0305-1978(80)90061-7
Del Pero Martínez MA and Swain T. Flavonoids and chemotaxonomy of the Commelinaceae. Biochemical Systematics and Ecology 1985; 13(4): 391-402. ISSN 0305-1978. https://doi.org/10.1016/0305-1978(85)90083-3
Pandey VB, Gupta SD. Chemical investigation of Commelina benghalensis. J Res Indian Med 1975; 10: 79-80
Dhole JA, Dhole NA, Lone KD, Bodke SS. Preliminary Phytochemical Analysis of Weeds in Marathwada Region. Res J Pharm Biol Chem Sci. 2012;3(4):764
Ebrahim GA. Preliminary phytoconstituents screening of some weeds and their potential toxicity on rice variety- Tarom via decomposition bioassay. International Conference on Environmental, Biomedical and Biotechnology. 2011;16
Kharade AS, Jadhav SS, Jadhav SN, Thite SV, Aparadh VT. Phytochemical Investigation In Commelina bengalensis & Cyanotis Cristat. International Research Journal of Pharmaceutical and Applied Sciences (IRJPAS) Int. Res J Pharm. App Sci., 2013; 3(1): 46-48. Retrieved from https://www.scienztech.org/index.php/irjpas/article/view/395
Samuel T, Kumar G, Sureshkumar PN. Preliminary Phytochemical Screening of Different Solvent Extracts Of Leaves And Stems Of Commelina benghalensis L (Family: Commelinaceae), IJPCBS; 2016; 6(1): 103-107
Tiwari SK, Lahkar M, Dash S, Samudrala PK, Thomas JM, Augustine BB. Preliminary phytochemical, toxicity and anti-inflammatory evaluation of Commelina benghalensis. International Journal of Green Pharmacy, 2013; 7(3): 201-05. https://doi.org/10.4103/0973-8258.120211
Sambrekar SN, Patil PA, Patil SA. Wound healing activity of roots extracts of Commelina benghalensis Linn. Research Journal of Pharmacy and Technology, 2011; 4(11): 1772-76
Mukeshchandra S, Smita S. Preliminary Phytochemical and Antimicrobial Investigation of the Aqueous Extract of Ixora coccinea and Commelina benghalensis L. on Gram-Positive and Gram-Negative Microorganisms. Middle-East Journal of Scientific Research. 2010; 6(5): 436-39
Durairaj A, Mazumder UK, Gupta M, Ray SK. Effects of methanolic extract of Oxystelma esculentum on diuresis and urinary electrolytes excretion in rats. Iranian J Pharmacol Ther. 2007; 6:207-11. URL:http://ijpt.iums.ac.ir/article-1-129-en.html
Ogunti EO, Elujoba AA. Laxative activity of Cassia alata. Fitoterapia 1993; 64:437-9
Konturek SJ, Piastucki I, Brzozowski T, Radecki T, Dembinska-Kiec A, Zmuda A. Role of prostaglandins in the formation of aspirin- induced gastric ulcers. Gastroenterology 1981; 80:4-9. https://doi.org/10.1016/0016-5085(81)90182-7
Robert A, Nezamis JE, Lancaster C, Hanchar AJ. Cytoprotection by prostaglandins in rats: Prevention of gastric necrosis produced by alcohol, HCl, NaOH, hypertonic NaCl, and thermal injury. Gastroenterology 1979;77:433-43. https://doi.org/10.1016/0016-5085(79)90002-7
Ganguli AK, Bhatnagar OP. Effect of bilateral adrenalectomy on the production of restraint ulcers in the stomach of albino rats. Can J Physiol Pharmacol 1973;51:748-50. https://doi.org/10.1139/y73-113
Wagner H, Baldt S. Plant drug analysis: A thin layer chromatography atlas (2nd ed). Springer-Verlag. http://doi.org/10.1007/978-3-642-00574-9
Soni A, Sosa S. Phytochemical analysis and free radical scavenging potential of herbal and medicinal plant extracts. J Pharmacogn Phytochem 2013;2(4):22–24
Uma G, Balasubramaniam V. GC-MS analysis of Nothapodytes nimmoniana, Mabberly leaves. J Chem Pharm 2012;4(9):4417–4419
Héthelyi E, Tétényi P, Dabi E, Dános B. The role of mass spectrometry in medicinal plant research. Biomed Environ Mass Spectrom 1987;14(11):627–632. https://doi.org/10.1002/bms.1200141110
Quality standards of Indian Medicinal Plants, volume 3, 2005: 103-105
Khalifa Kl et al, Design, Formulation, and Evaluation of Senna effervescent tablets, journal of forest products & industries, 2012;1(2), 21-25
Lieberman HA, Lachman L, Schwartz JB. Pharmaceutical dosage forms: tablets. New York: Marcel Dekker inc; 1993. p. 1 & 2, 285.
Ansel HC, Popovich NG, Allen LV. Pharmaceutical dosage forms and drug delivery systems, B.I. Vol. 6. Waverly, New Delhi; 1999. p. 469-71.
Bandari S, Eaga CM, Thadishetty A and Yamsani MR. Formulation and evaluation of multiple tablets as a biphasic gastroretentive floating drug delivery system for fenoverine. Acta Pharm., (2010), 60(1), 89–97. https://doi.org/10.2478/v10007-010-0001-3
Prakash B, Ashok K, Snehith VS, Ramesh C. ARS Pharmaceutica, 2009;50(1),8-24
Khandelwal KR, Practical Pharmacognosy,19thed: Nirali Prakashan, Pune 2009,146-165
Kokate CK, Practical Pharmacognosy, 4thed, Nirali Prakashan,Pune, India. 2008,10-27
James W. Pharmaceutical preformulation: the physicochemical properties of drug substances: Aulton ME. Pharmaceutics the science of dosage form design, Churchill living stone, Spain, 2006;2,113-138
Banker GS, Anderson NR, Lachman L, Lieberman H. The theory and practice of Industrial Pharmacy, CBS publishers, New Delhi, 2009;293-345
Peter D. Oral solid dosage forms: Gibson M. Pharmaceutical preformulation and formulation a practical guide from candidate drug selection to commercial dosage form, Interpharm/CRC, New York, 2008;379-432
Raymond M, Lieberman HA, Lachman L, Schwartz TB. Effervescent tablets: Pharmaceutical dosage forms, Marcel Dekker, Inc., New York, 2008;2(1),285-328
Guillory JK, Rolland IP. Chemical kinetics and drug stability: Modern Pharmaceutics, MDI, New York, 2005;(4), 121,139-163.
Published
Abstract Display: 387 
PDF Downloads: 396 
