Evaluation of Antipsychotic Properties of Aqueous Extract of Lophira alata (Ochnaceae) and Afzelia africana (Leguminosae) Stem Barks in Rats
Contenu principal de l'article
Résumé
Stem barks of Lophira alata (family: Ochnaceae) and Afzelia africana (family: Leguminosae) are used in
ethnomedicine for the management of psychosis. Since no existing data was found on their anti-psychotic properties,
this study was carried out to evaluate their ability to reduce amphetamine induced stereotypy in rats. The oral mean
lethal dose (LD50) of both extracts was estimated and preliminary phytochemical screening was conducted. Lophira
alata and Afzelia africana extract (6.25, 12.5 and 25 mg/kg po) was investigated for antipsychotic potential on
amphetamine induced stereotypy model in rats. The LD50 of each of the plants was estimated to be greater than 5000
mg/kg. Oral administration of Lophira alata and Afzelia africana extract produced a significant reduction (p<0.05)
in locomotive activity and in episodes of rearing and sniffing typical of stereotypy in rats. The results obtained
suggest that the aqueous stem bark extract of Lophira alata and Afzelia africana possess antipsychotic properties
which may account for their use in ethnomedicine.
Téléchargements
Renseignements sur l'article
Cette œuvre est sous licence Creative Commons Attribution - Pas d'Utilisation Commerciale - Pas de Modification 4.0 International.
Références
Abi-Dargham A, Laruelle M (2005). Mechanisms of action of second generation antipsychotic drugs in schizophrenia: insights from brain imaging studies. Eur J Psychiatry 20:15-27.
Adjanohoun E, Adjakidje V, Ahyi MRA, Akpagana K, Chibon P, El-Hadji A, GuinkoS, Siamevi KM.(1986). Contribution aux etudes ethnobotaniques etfloristiques au Togo. Agence de cooperation culturelle et technique (A.C.C.T), Paris pp.671.
Ahmed N, Azam NK (2014). Traditional knowledge and formulations of medicinal plants used by the traditional medical practitioners of Bangladesh to treat schizophrenia like psychosis. Schizophrenia Res Treatment. doi.org/10.1155/2014/679810
Ajiboye TO, Yakubu MT, Olajide AT (2014). Cytotoxic, anti-mutagenic and antioxidant activities of methanolic extract and chalcones dimers (lophirones B and C) derived from Lophira alata stem bark (Van Tiegh. Ex Keay). J Evid Based CAM 19:20-30.
Akah PA, Okpi O, Okoli CO (2007). Evaluation of the anti-inflammatory and analgesic activities of Afzelia africana. Nig J Nat Prod Med 11:48-52.
Akinpelu DA, Aiyegoro OA, Okoh AI. (2008). In vitro antimicrobial and phytochemical properties of crude extract of stem bark of Afzelia africana (Smith). Afr J Biotech 7:3665-3670.
Ayoka AO, Akomolafe RO, Iwalewa EO, Akanmu MA, Ukponmwan OE (2006). Sedative, anti-epileptic and antipsychotic effects of Spondis mombin L. (Anacardiaceae) in mice and rats. J Ethnopahrmacol 103:166-75.
Balde NM, Kaké A, Diallo MM, Balde MA, Maugendre D (2006). Herbal medicine and treatment of diabetes in Africa: an example from Guinea. Diabetes Metab 32:171-175.
Baldé AM, Traoré MS, Diallo MST, Baldé ES, Huang Y, Liu Z, Oularé K, Barry MS, Baldé MA, Camara A, Berghe VD, Vlietinck A, Pieters L
(2015). Ethnobotanical survey, antimicrobial and anti-complement activities of Guinean medicinal plants traditionally used in the treatment of inflammatory diseases in Conakry and Dubreka. J Plant Sci 3:11-19.
Bhatacharya SK, Satyan KS. Bhatacharya SK, Satyan KS (1997). Experimental methods for evaluation of psychotropic agents in rodents:I-Anti-anxiety agents. Indian J Exp Biol. 35:565-575.
Bolza E, Keating WG (1972). African timbers: the properties, uses and characteristics of 700 species. Division of Building Research, CSIRO, Melbourne, Australia. pp 710.
Burkill HM Editor (1985). The useful plants of West Tropical Africa 2nd ed. London: Royal Botanical Gardens, Kew, Richmond, United Kingdom. pp 969.
Burt DR, Creese I, Snyder SH. (1977). Antischizophrenic drugs: chronic treatment elevates dopamine receptor binding in brain. Science 196:326-328.
Costall B, Naylor RJ (1973). The role of telencephalic dopaminergic systems in the mediation of apomorphine-stereotyped behaviour. Eur J Pharmacol 24:8-24.
Costall B, Naylor RJ (1974). Extrapyramidal and mesolimbic involvement with the stereotypic activity of d- and l-amphetamine. Eur J Pharmacol 25:121-129.
Creese I, Iverson SD (1973). Blockage of amphetamine-induced motor stimulation and stereotypy in the adult rat following neonatal
treatment with 6-hydroxydopamine. Brain Res 55: 369-382.
Falade MO, Akinboye DO, Gbotosho GO, Ajaiyeoba EO, Happi TC, Abiodun OO, Oduola AMJ (2014). In Vitro and In Vivo antimalarial activity of Ficus thonningii Blume (Moraceae) and Lophira alata Banks (Ochnaceae), identified from the Ethnomedicine of the Nigerian Middle Belt. J Par Res doi: 10.1155/2014/972853
Gill LS (1992) Ethnomedicinal uses of plants in Nigeria. Uniben Press, Benin-City, Nigeria pp 15-65.
Hodgins S (1992). Mental disorder, intellectual deficiency, and crime: evidence from a birth cohort. Arch Gen Psy 6(49):476-483.
Ibrahim JA, Muazzam I, Jegede IA, Kunle OF, Okogun JI (2007). Ethno-medicinal plants and methods used by Gwandara tribe of Sabo Wuse in Niger State, Nigeria, to treat mental illness. Afr. J. Trad. CAM 4 (2):211-218.
Iwu MM (1993). A handbook of African Medicinal Plants, CRC Press, Florida, USA. pp 169,182
Iwu MM, Wootton JC, Eds (2002). Ethnomedicine and drug discovery. Elsevier, Amsterdam, Netherlands. pp 23-27
Kasture SB (2006). A Handbook of Experiments in preclinical pharmacology. Career Publications, Nashik, India. pp 43-110.
Lorke D (1983). A new approach to acute toxicity testing. Arch Toxicol. 54:275-287.
Magaji MG, Anuka JA, Abdu-Aguye I, Yaro AH, Hussaini IM (2008). Behavioural effects of the methanolic root bark extract of Securinega virosa in rodents. Afr J Trad CAM 5:147-153.
Magassouba FB, Diallra A, Camara A, Keita S, Barry MS, Donzo M, Bangoura O, Pieters L (2007). Ethnobotanical survey and antibacterial activity of some plants used in Guinea traditional medicine. J Ethnopharmacol 114:44-53
Matsumara F (1998). Toxicology of insecticides 2nd ed. Plenum Press, New York, pp 588
Meltzer H (2009). Basic and clinical Pharmacology 11th edition McGraw Hill, Singapore pp 487-501.
Murray CJL, Lopez AD Eds (1996). The global burden of disease: a comprehensive assessment of mortality and disability from diseases, injuries, and risk factors in 1990 and projected to 2020. Harvard School of Public Health, Cambridge, Massachutes,
USA.
Musa H, Adeyinka AT, Tayo AA, Taiye MA (2013). Phytochemical analysis and antibacterial activity of Khaya grandifoliola and Lophira alata against some selected clinical bacterial isolates. Wudpecker J Med Plants. 2(1):7-15.
National Institute for Health, Public Health Service on Humane Care and Use of Laboratory Animals. USA, 2002.
Onweluzo JC, Onuoha KC, Obanu ZA (1995). A comparative study of some functional properties of Afzelia africana and Glycine max flours. Food Chem 54:55-59.
Pieme CA, Dzoyem JP, Kechia FA, Etoa FX, Penlap V (2008). In vitro antimicrobial activity of extracts from some Camerounian medicinal plants. J Biol Sci 8:902-907.
Pritam SJ, Amol BB, JS Sanjay (2011). Analgesic activity of Abelmoschus monihot extracts. Int J Pharmacol. 7:716-720.
Rang HP, Dale MM, Ritter JM, Flower RJ, Henderson G (2007). Rang and Dale’s Pharmacology, 5th edition, Churchill Livingstone,
London. pp 553-560
Romeiras MM, Duarte MC, Indjai B, Catarino L (2012). Medicinal plants used to treat neurological disorders in West Africa: a case study with Guinea-Bissau Flora. Am J Plant Sci. 3(7):1028-1036.
Sofowora A (2008). Medicinal plants and Traditional Medicine in Africa. Spectrum Books Ibadan pp 37-56, 106-108.
Sonibare MA, Soladoye MO, Subuloye TO (2008). Ethnobotanical survey of anti-psychotic plants in Lagos and Ogun States of Nigeria. Eur J Sci Res. 19:634-643.
Sonibare MA, Lawal TO, Ayodeji OO (2011). Antimicrobial evaluation of plants used in the management of psychosis opportunistic infections. Int J of Pharmacol 7(4):492- 497.
Tih EA, Tih RG, Sondengam BL, Martin MT, Bodo B (1994). Minor bioflavonoids from Lophira alata leaves. J Nat Prod 57:971-977.
Trease G E, Evans MC Editors (1983). Textbook of Pharmacognosy, 12th ed. London: Balliere Tindall. pp 322-383
Valame SP, Gupata KC (1981). Effect of clonidine on amphetamine-induced stereotype. Indian J Pharmacol. 13:203-204.
Verma A, Jana GK, Sen S, Chakraborty R, Sachan SA, Mishra A (2010). Pharmacological evaluation of Saraca indica leaves for central nervous system depressant activity in mice. J Pharm Sci Res. 2:338-243.
Vogel HG, Editor (2002). Drug discovery and evaluation, pharmacological assays, 2nd ed. Berlin Heidelberg: Springer-Verlag pp 535.
Vongtau HO, Abbah J, Ngazal IE, Kunle OF, Chindo
BA, Otsapa PB, Gamaliel KS (2004). Antinociceptive and anti-inflammatory activities of the methanolic extract of Pinanari polyandra stem bark in rats and mice. J Ethnopharmacol 90:115-21.
WHO fact sheet 134, accessed 24th September 2015. http://www.who.int/mediacentre/factsheets/2003/fs134/en/print.html