Toxicological Assessment of Aqueous and Methanol Leaves Extracts of Scoparia dulcis Linn (Plantaginaceae) in Wistar Ra
doi.org/10.26538/tjnpr/v3i3.1
Keywords:
Acute toxicity,, Safety profile,, Scoparia dulcis, Sub-chronic toxicityAbstract
The leaf and whole part of Scoparia dulcis L. have been used in the management of different disorders in Nigeria and other parts of the world without documented scientific evidences of its safety to man. Hence, the current study was performed to assess the acute and sub-chronic toxicity of the aqueous and methanol leaves extracts of Scoparia dulcis in Wistar rats. The acute toxicity was conducted in two phases. In the first phase, doses of 10, 100 and 1000 mg/kg body weight of the extracts were administered orally. In the second phase, 1600, 2900 and 5000 mg/kg body weight of the extracts were administered, signs and symptoms of toxicity were monitored for 24 hours. Sub-chronic toxicity studies were carried out on Wistar rats for both extracts; haematological, biochemical and histopathological analyses after 28 days oral administration of the extracts at 500, 1000 and 1500 mg/kg body weight were conducted. The acute toxicity of all extracts was found to be greater than 5000 mg/kg which is practically nontoxic according to standard scale of toxicity. In sub-chronic test, there was significant difference (p<0.05) in the Aspartate Aminotransferase (AST) at 500 and 1000 mg/kg of aqueous extract and blood urea at 1000 mg/kg of methanol extract when compared to the control. The kidney and Liver of aqueous extract showed better physiological features when compared to that of the methanol extract. It could be concluded that prolonged oral administration of Scoparia dulcis leaf may be associated with increased risk of toxicity.
References
Robinson S, Chapman K, Hudson S, Sparrow S, Spencer- Briggs D, Danks A, Hill R, Everett D, Mulier B, Old S, Bruce C. Guidance on dose level selection for regulatory general toxicology studies for pharmaceuticals. National centre for the Replacement, Refinement and Reduction of
Animals in Research, 2009.
Hassan FI, Zezi AU, Danmalam UH, Yaro AH, Balarabe AN. Sub-Chronic Toxicity Studies of Methanol Leaf Extract of Dalbergia saxatilis Hook.F (Fabaceae) in Wistar Rats. Nig J Pharm Sci. 2015; 14:51-59.
Waargovich MJ, Woods C, Hollis DM, Zander ME. Herbals, cancer prevention and health. J Nutr. 2001; 131:3034S- 3036S.
Mishra BB and Tiwari VK. Natural products: an evolving role in future drug discovery. Eur J Med Chem. 2011; 46:4769-4807.
Mbaoji F, Ezike A, Nworu C, Onyeto C, Obi B, Akunne TC, et al. Sub-chronic Effect of Methanol-Dichloromethane Stem Bark Extract of Stemonocoleus micranthus Harms. (Fabaceae) on Lipid Profile and Histology of Liver and Kidney of Rats. J Pharmacogn Nat Prod. 2017; 3:1-6.
Winston DS. Adaptogens: Herbs for strength, stamina and relief. Rochester, Vermont: Healing Arts Press; 2007. 56-79.
Obidike I and Salawu O. New insights into toxicity and drug testing. In: Screening of herbal medicines for potential toxicities. INTECH 2013; 64-88.
Krishna M, Mayank P, Poonam T, Singh R. Pharmacological properties of Scoparia dulcis: A Review. Pharmacologia 2012; 3:344-347.
Orhue NEJ and Nwanze EAC. Antianaemic properties of Scoparia dulcis in trypanoma brucci infected rabbits. African J Biochem Rev 2009; 3:245-249.
Sadhu SK, Okuyama E, Fujimoto H, Ishibashi M. Separation of Leucasaspera, a medicinal plant of Bangladesh, guided by Prostaglandin inhibitory and Antioxidant activities; Chem Pharm Bull. 2003; 51:595-598.
Abu Hasanat Z, Farhana AR, Mahbubur R, Ullah MO, Kaiser H, Mahbubur RK, Sohel R. Antidiabetic and Antioxidant Effect of Scoparia dulcis in Alloxan induced Albino Mice. Int J Pharm Tech Res. 2010; 2:2527-2534.
Abdulsalaam IA, Ehinmidu JO, Igbadi EO. Evaluation of Antibacterial Properties, Acute Toxicity and Immuno- stimulatory Potential of Scoparia dulcis. Nig J Biotech. 2013; 26:21-25.
Farias Freie SM, Silva Emin JA, Lapa AJ, Souccar C, Brandao Torres LM. Analgesic and antiinflammatory properties of Scoparia dulcis L. extract and glutinol in rodents. Phytother Res. 1993; 7:408-414.
Murti K, Panchal M, Poonam T, Singh R. Pharmacological properties of Scoparia dulcis. Rev Pharmacol. 2012;3(8):344.
Abere TA, Okoye CJ, Agoreyo FO, Eze GI, Jesuorobo RI, Egharevba CO, Aimator PO. Antisickling and toxicological evaluation of the leaves of Scoparia dulcis Linn (Scrophulariaceae). BMC Compl Altern Med. 2015; 15:414.
Hayashi T, Kawasaki M, Miwa Y, Taga T, Morita N. Antiviral agents of plant origin. III. Scopadulin: A novel
tetracyclic diterpene from Scoparia dulcis L. Chem Pharm
Bull. 1990; 38:945-947.
Kokate CK. “Practical Pharmacognosy”. 3rd Edition. New Delhi: VallabhPrakashan; 1994. 115-127.
Lorke D. A New Approach to Practical Acute Toxicity Testing. Arch Toxicol. 1983; 5:275-287
World Health Organisation (WHO). Research guidelines for evaluating the safety and efficacy of herbal medicine. WHO regional office for western pacific Manila, Philippine: 1992. 38p.
Organization for Economic Cooperation Development (OECD). Repeated Dose 28-day Oral Toxicity Study in Rodents. OECD guideline for testing chemicals 407. 2008. 1-8.
Wilson NH, Hardisty JF, Hayes JR. Short Term, Subchronic, and Chronic Toxicologixcal studies in: Principles and methods of toxicology, fourth edition, edited by A. Wallace Hayes. Philadelphia: Taylor and Francis, 2001.
Abubakar A, Ogbadoyi EO, Okogun JI, Gbodi TI, Tifin UF. Acute and Sub-chronic toxicity of Tridax procumbens in experimental animals. IOSR-J Env Sci Toxicol Food Tech. 2012; 1:19-27.
Jaijoy K, Soonthornchareonnon N, Lertprasertsuke N, Panthong A, Sireeratawong S. Acute and chronic oral toxicity of standardized water extract from the fruit of Phyllanthus emblica Linn. Int J Appl Res Nat Prod. 2011; 3:48–58.
Park JH, Choi KH, Kwak HS. Single and 14-day repeat- dose toxicity of cross-linked ß-cyclodextrin in Rats. Int J Toxicol. 2011; 30:700-706.
Ugbogu EA, Emmanuel O, Iheanyichukwu E, Friday U, Emmanuel A, Chinyere GC. Toxicological assessment of the aqueous dried leaf extracts of Sennaalata L. in wistar rats. African J Pharm Pharmacol 2016; 10:709-717.
Van Boxtel CJ and Buitenhuis A. Drugs acting on the central nervous systems in: Van Boxtel C.J, Santoso B and Edwards I.R (Ed). Drug benefits and Risks international textbook of clinical pharmacology. John Willey and Sons Ltd; 2001. 273-290p.
Olson H, Bretton G, Robinson B, Thomas K, Monro A, Kolaja G, et al. 2000. Concordance of the toxicity of Pharmaceuticals in human and animals. Regul Toxicol Pharmacol. 2000; 32:56-67.
Monica C. District Laboratory Practice in Tropical countries, Part II. 2000. 312-315
Ramaiah SK. Preclinical safety assessment: Current gaps, challenges and approaches in identifying translable biomarkers of drug-induced liver. Clin Lab Med. 2011; 31:161-172.
Nyblom HBV, Balldin J, Olsson R. High AST/ALT rating may indicate advanced alcoholic liver disease rather than heavy drinking. Alcohol 2004; 39:336 – 343.
Chen SY, Chou CC, Liu CJ, Shien JH. Impairment of renal function of electrolyte balance in rabbit heamorrhagic disease. J Vet Med Sci. 2008; 70:951 – 958.
Alavian SM, Alavian SH, Ashayeri N, Babaei M, Daneshbodi M, Hajibeigi B. Prediction of liver histological lesions with biochemical markers in chronic hepatitis B patients in Iran. Gastroenterol Hepatol Bed Bench. 2010; 3:71–76.
Ferguson AM, Vaidya VS, Bonventure JV. Biomarkers of Nephrotoxic Acute Kidney Injury. J Toxicol. 2008 254:182- 193.
Abdulrahman FI, Onyeyili PA, Sanni S, Ogugbuaja VO. Toxic effect of aqueous root bark extract of Vitex doniana
on liver and kidney functions. Int J Biol Chem. 2007;1:184-195
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