[1] Chandel, H.S., Pathak, A.K., and Tailang, M. 2011. Standardization of some herbal antidiabetic drugs in polyhedral formulation. Pharmacognosy Res. 3 (1), 49-56.
[2] Choudhary, N. and Sekhon, B.S. 2011. An overview of advances in the standardization of herbal drugs. J Pharm Educ. Res. 2 (2), 55-70.
[3] Arya, V. Yadav, S. Kumar, S. Yadav, JP. 2010. Antimicrobial Activity of Cassia occidentalis L (Leaf) against various Human Pathogenic Microbes. Life Sciences and Medicine Research LSMR-9
[4] Gidado, N.M., Tanko, Y., Sada, N.H. and Mohammed, A. 2016. Effects of Senna occidentalis Leaf Supplement on Blood Glucose Levels, Liver Enzymes and Total Protein in Alloxan-Induced Diabetic Wister Rats. Bayero Journal of Pure and Applied Sciences, 9(1), 68 – 75.
[5] Patel M. Schimpf M,.’Sulivan D.M. La Sala C.A 2010. The use of Senna with docusate for postoperative constipation after pelvic reconstructive surgery: a randomized, double-bind, placebo-controlled trial. Am. J. Obstet. Gyncecol., 202 (5).479.
[6] Panigrahi, G. Suthar, M. Verma , N. Asthana, S. Tripathi, A. Gupta, S. Raisuddin, S. Das, M. 2015. Investigation of the interaction of anthraquinones of Cassia occidentalis seeds with bovine serum albumin by molecular docking and spectroscopic analysis: Correlation to their in vitro cytotoxic potential. Food Research International 77(3), 368–377
[7] Vashishishtha V.M, Johan,T.J, Kumar, A 2009. Clinical and pathological features of acute toxicity due to Cassia occidenentalis in vertebrates. Indian J Med Res 130 (1), 23-30.
[8] Verma, L., Khatri, A. , Kaushik, B., Patil, U. K., and Pawar, R.S. 2010. Antidiabetic activity of Cassia occidentalis (Linn) in normal and alloxan-induced diabetic rats. indian J. Pharmacol.; 42(4), 224–228.
[9] Usha K, Mary, G. Kasturi Hemalatha. P. 2007. Hepatoprotective Effect of Hygrophila Spinosa and Cassia occidenentalis on Carbon Tetrachloride Induced Liver Damage in Experimental Rats. Indian Journal of Clinical Biochemistry, 22 (2) 132-135
[10] Mehlhorn H, Schmahl G, Schmidt J. 2005. Extract of the seeds of the plant Vitex agnus castus proven to be highly efficacious as a repellent against ticks, fleas, mosquitoes and biting flies. Parasitol Res.; 95,363–365
[11] Mehlhorn H. 2010. Nature helps. How plants and other organisms contribute to solve health problems. Parasitol Res Monographs, Springer, Berlin, New York,; pp 1–372.
[12] Mehlhorn H, Al-Rasheid KA, Al-Quraishy S, Abdel-Ghaffar F. 2012. Research and increase of expertise in arachno-entomology are urgently needed. Parasitol Res. 110,259–265
[13] Benelli G. 2015. Research in mosquito control: current challenges for a brighter future. Parasitol Res, doi: 10.1007/s00436-015-4586-9
[14] Benelli G. 2015. Plant-synthesized nanoparticles in the fight against mosquito vectors: an eco-friendly tool against mosquito vectors? In: Nan particles in the fight against parasites (Editor Heinz).
[15] Arivoli S and Samuel T. 2011. Bioefficacy of Citrullus colocynthis (L.) Schrad (Cucurbitaceae) whole plant extracts against Anopheles stephensi, Aedes aegypti and Culex quinquefasciatus (Diptera: Culicidae). International Journal of Current Research; 3(4), 296-304.
[16] Das N.G, Goswami D, Rabha B. 2007. Preliminary evaluation of mosquito larvicidal efficacy of plant extracts. Journal of Vector Borne Disease; 44,145-148.
[17] Mabaso ML, Sharp B, Lengeler C. 2004. Historical review of malaria control in Southern Africa with emphasis on the use of indoor residual house-spraying. Tropical Medicine and International Health; 9,846-856.
[18] Young-Cheol Yang, II-Kwon Park, Eun-Hee Kim, Hoiseon Lee, Young-Joon Ahn. 2004. Larvicidal Activity of Medicinal Plant Extracts against Aedes aegypti, Ochlerotatus togoi, and Culex pipiens pallens (Diptera: Culicidae). J. Asia-Pacific Entomol; 7 (2), 227-232.
[19] Yadav J.P, Arya V, Yadav S, Panghal M, Kumar S, Dhankhar S.2010. Cassia occidentalis L.: a review on its ethnobotany, phytochemical and pharmacological profile. Fitoterapia 81(4), 223-230.
[20] Issa, T. O., Mohamed, Y. S., Yagi, S., Ahmed, R. H., Najeeb, T. M., Makhawi, A. M. and Khider, T. O. 2018. Ethnobotanical investigation on medicinal plants in Algoz area (South Kordofan), Sudan. Journal of Ethnobiology and Ethnomedicine 14:31.
[21] Harbone, J. 1998. Phytochemical methods book: a guide to modern techniques of plant analysis. Chapman and Hall Ltd. London. Springer pp: 43. https://www.springer.com/gp/book/9780412572609
[22] Sofowora, A. 1993 Medicinal Plants and Traditional Medicines in Africa. Chichester John, Willey and Sons New York 256.
[23] Sofowora, A. 2008. Medicinal Plant and Traditional Medicine in Africa. Spectrum Books Limited, Ibadan, Nigeria.
[24] Galib, N. A., Ali, K. S., Munaiem. R. T. Mohammed, A. S. A. 2017. Phytochemical Screening and Thin Layer Chromatography of Acacia erbaica SSP.UNCINATA Leaves World Journal of Pharmaceutical Research. 6, (12); 1278- 1283.
[24] Stahl, E. 1969. Thin Layer Chromatography 2nd Edn Springer-Verlag, New York.
[26] AOAC, the Association of Official Analytical Chemist, 1980. Official Methods of Analysis 13th Edition, Washington D. C. 230pp.
[27] AOAC, the Association of Official Analytical Chemist 1995. Official Methods of Analysis Book 16thEdition. Washington, USA.
[28] AOAC, the Association of Official Analytical Chemist 2000. Official Methods of Analysis fibr of Oils and Fats Book 17th edition Washington, DC; Champaign, U.S.A.
[29] AOAC, the Association of Official Analytical Chemist 2005. Official Methods of Analysis meat and meat products Gaithersburg Maryland: Book 18th Edition Washington, DC.
[30] Ngutaa, J.M., Mbariaa, J.M., Gakuyab, D.W., Gathumbic, P.K. Kabasad, J.D. and Kiamae, S.G. 2012. Evaluation of Acute Toxicity of Crude Plant Extracts from Kenyan Biodiversity using Brine Shrimp, Artemia salina L. (Artemiidae). The Open Conference Proceedings Journal, 3, 30-34.
[31] Finney, D.J. 1971. Probit Analysis. 3rd edition Cambridge University Press; Cambridge. p. 333.
[32] McLaughlin, J. L., Rogers, L. L. and Anderson, J. E. 1998. The Use of Biological Assays of Evaluates Botanicals. Drug Information Journal, 32, 513-524.
[33] Konuklugil, B.; Deniz,G.; Yildi, O.; Senoz, S. and S, Saygi. 1997. Hypoglycemic effect of Teucrium poliumin rats. Fitoterapia LXVIII, (1) 39-41.
[34] Trinder, P. 1969. Determination of blood glucose using an oxidaseperoxidase system with a non-carcinogenic chromogen. J. Clin. Path. 22 (2), 158–161.
[35] Duncan, R.C, Knapp, R.G. Miller, M. C. 1977. Test of hypothesis in population Means. In: Introductory Biostatistics for the health sciences. John W iley and Sons Inc. NY, pp. 71-96. (Chandel et al, 2011). Mentions above
[36] Fried, B. and Sherma, J. 1996. Practical Thin-Layer Chromatography: A Multidisciplinary Approach. Book publisher: 1 edition, New York, pp.288.
[37] Wagner H and Bladt S. 1996. Plant drug analysis- A Thin Layer Chromatography Atlas. Berlin Heidelberg: Springer-Verlag, 235-245.
[38] Tsakala, O., Pen, R.S., Miemanang, K., Krohn, H., Hussain and Dongo, E. 2006. Paullinoside A and Paullinomide A: A New Cerebroside and a New Ceramide from the leaves of Paullinia pinnata. Z. Naturfosch. 61b, 1123-1127.
[39] Lawal, A.M, Abdullahi, R. Ibrahim, M.S., Kurfi, M.Y., Khalid, A. and Nuhu, M. 2019. Phytochemical analysis and Thin layer chromatography profiling of crude extracts from Senna occidentalis (leaves). Journal of biotechnology and biomedical Sciences. V2 (1), 12-21..
[40] Agbugui, M., Oniye, S.J. and Auta, J. 2010. Effects of processing on the mineral content, proximate composition and phytochemical factors of the Seeds of Bauhinia monandra (KURZ). Bayero Journal of Pure and Applied Sciences, 3(1), 23 – 25.
[41] Anhwange, B.A., Ajibola, V.O and Oniye, S.J. 2005. Composition of Bulk, Trace and some Rare Earth Elements in the Seeds of Moringa Oleifera(lam) Detarium microcarpum(Guill and Sperr) and Bauhinia monandra (Kurz). Journal of Food Technology 3(3), 290-293.
[42] Glew, R.H., Vanderijagt, D.J., Lockett, C., Grivetti, L.E., Smith, G. C., Pastaszn, A., and Millson, M. 1997. Amino acid, Fatty acid and Mineral Composition of 24 indigenous plants of Burkina Faso. Journal of Composition and Analysis. 10,205-217.
[43] Kumar, D, Rakesh, C., Dhamodaran, P. and Balkakrishnan. N. 2014. Larvacidal activity of C. occidentalis against the larvae of Banerofian filariais vector mosquito Culex quinquefasciatus. Journal of Parasitol Res. Pp1-5.
[44Meyer, B.N., Ferrigen, R.N., Putnam, J.E., Jacobson, L.B., Nicholas, D.E and Mclaughlin, J.L. 1982. Brine shrimp: a convenient general bioassay for active plant constituents. Planta medica. Page number 31-34.
[45] Duke, SO., Cantrell, C.L., Meepagala, K.M., Wedge, D. E., Tabanca, N. and Schrader, K.K. 2010. Natural toxin for use in pest management. Toxin, Vol 2, pp 1943-1962.