References
- «Protège ton coeur au Togo» (Internet). (cited 2015 Jan 15). Available from: http://www.afro.who.int/togo/press-materials/item/5169-protège-ton-coeur-au-togo.html?lang=fr.
- Alwan A, Maclean DR, Riley LM, d' Espaignet ET, Mathers CD, Stevens GA, et al. Monitoring and surveillance of chronic non-communicable diseases: progress and capacity in high-burden countries. Lancet. 2010 Nov 27;376(9755):1861-8. PubMed | Google Scholar
- N'diaye M, Diatta W, Sy GY, Fall AD, Faye B, Bassene E.
Activité antihyperglycemiante de l'extrait éthanolique de feuilles d'Icacina
senegalensis juss (Icacinaceae). Médecine d'Afrique noire (Internet). 2008;
55(8-9):441-5. PubMed | Google
Scholar
- Karou SD, Tchacondo T, Djikpo Tchibozo MA, Abdoul-Rahaman S, Anani K, Koudouvo K, et al. Ethnobotanical study of medicinal plants used in the management of diabetes mellitus and hypertension in the Central Region of Togo. Pharm Biol. 2011 Dec;49(12):1286-97. PubMed | Google Scholar
- Tchacondo T, Karou SD, Batawila K, Agban A, Ouro-Bang'na K, Anani KT, et al. Herbal remedies and their adverse effects in Tem tribe traditional medicine in Togo. Afr J Tradit Complement Altern Med. 2011;8(1):45-60. PubMed | Google Scholar
- Matheka DM, Demaio AR. Complementary and alternative medicine use among diabetic patients in Africa: a Kenyan perspective. Pan Afr Med J. 2013;15:110. PubMed | Google Scholar
- Bahmani M, Zargaran A, Rafieian-Kopaei M, Saki K. Ethnobotanical study of medicinal plants used in the management of diabetes mellitus in the Urmia, Northwest Iran. Asian Pac J Trop Med. 2014 Sep;7S1:S348-354. PubMed | Google Scholar
- Olaokun OO, McGaw LJ, Awouafack MD, Eloff JN, Naidoo V. The potential role of GLUT4 transporters and insulin receptors in the hypoglycaemic activity of Ficus lutea acetone leaf extract. BMC Complement Altern Med. 2014;14:269. PubMed | Google Scholar
- Koudouvo K, Karou DS, Kokou K, Essien K, Aklikokou K, Glitho IA, et al. An ethnobotanical study of antimalarial plants in Togo Maritime Region. J Ethnopharmacol. 2011 Mar 8;134(1):183-90. PubMed | Google Scholar
- Aburjai T, Hudaib M, Tayyem R, Yousef M, Qishawi M. Ethnopharmacological survey of medicinal herbs in Jordan, the Ajloun Heights region. J Ethnopharmacol. 2007 Mar 21;110(2):294-304. PubMed | Google Scholar
- Ziyyat A, Legssyer A, Mekhfi H, Dassouli A, Serhrouchni M, Benjelloun W. Phytotherapy of hypertension and diabetes in oriental Morocco. J Ethnopharmacol. 1997 Sep;58(1):45-54. PubMed | Google Scholar
- Jouad H, Haloui M, Rhiouani H, El Hilaly J, Eddouks M. Ethnobotanical survey of medicinal plants used for the treatment of diabetes, cardiac and renal diseases in the North centre region of Morocco (Fez-Boulemane). J Ethnopharmacol. 2001 Oct;77(2-3):175-82. PubMed | Google Scholar
- Tahraoui A, El-Hilaly J, Israili ZH, Lyoussi B. Ethnopharmacological survey of plants used in the traditional treatment of hypertension and diabetes in south-eastern Morocco (Errachidia province). J Ethnopharmacol. 2007 Mar 1;110(1):105-17. PubMed | Google Scholar
- N'Guessan K, Kadja B, Zirihi G, Traoré D, Aké-Assi L. Screening phytochimique de quelques plantes médicinales ivoiriennes utilisées en pays Krobou (Agboville, Côte-d'Ivoire). Sciences & Nature (Internet). 2009 (cited 2015 Jan 16);6(1) Available from: http://www.ajol.info/index.php/scinat/article/view/48575.
- Gbolade AA. Inventory of antidiabetic plants in selected districts of Lagos State, Nigeria. J Ethnopharmacol. 2009 Jan 12;121(1):135-9. PubMed | Google Scholar
- Aguiyi JC, Obi CI, Gang SS, Igweh AC. Hypoglycaemic activity of Ocimum gratissimum in rats. Fitoterapia. 2000 Aug;71(4):444-6. PubMed | Google Scholar
- Egesie UG, Adelaiye AB, Ibu JO, Egesie OJ. Safety and hypoglycaemic properties of aqueous leaf extract of Ocimum gratissimum in streptozotocin induced diabetic rats. Niger J Physiol Sci. 2006 Jun-Dec;21(1-2):31-5. PubMed | Google Scholar
- Bailey CJ, Day C, Turner SL, Leatherdale BA. Cerasee, a traditional treatment for diabetes: studies in normal and streptozotocin diabetic mice. Diabetes Res. 1985 Mar;2(2):81-4. PubMed | Google Scholar
- Ali H, Houghton PJ, Soumyanath A. Alpha-Amylase inhibitory
activity of some Malaysian plants used to treat diabetes; with particular reference
to Phyllanthus amarus. J Ethnopharmacol. 2006 Oct 11;107(3):449-55. PubMed | Google
Scholar
- Chang ML, Johnson MA. Effect of garlic on carbohydrate metabolism and lipid synthesis in rats. J Nutr. 1980 May;110(5):931-6. PubMed | Google Scholar
- Okyar A, Can A, Akev N, Baktir G, Sutlupinar N. Effect of Aloe vera leaves on blood glucose level in type I and type II diabetic rat models. Phytother Res. 2001; 15(2):157-61. PubMed | Google Scholar
- Fah L, Klotoé JR, Dougnon V, Koudokpon H, Fanou VB, Dandjesso C, et al. Étude ethnobotanique des plantes utilisées dans le traitement du diabète chez les femmes enceintes à Cotonou et Abomey-Calavi (Bénin). J Anim Plant Sci. 2013; 18(1):2647-58. PubMed | Google Scholar
- Lans CA. Ethnomedicines used in Trinidad and Tobago for urinary problems and diabetes mellitus. J Ethnobiol Ethnomed. 2006 ;161(4):359-364. PubMed | Google Scholar
- Hossain M, Mostofa M, Debnath D, Alam A, Yasmin Z, Moitry N. Antihyperglycemic and Antihyperlipidemic of Karala (Momordica charantia) Fruits in Streptozotocin Induced Diabetic Rats. Journal of Environmental Science and Natural Resources (Internet). 2012 Aug 6 (cited 2015 Jan 16);5(1). Available from: http://www.banglajol.info/index.php/JESNR/article/view/11550.
- Raza H, Ahmed I, Lakhani MS, Sharma AK, Pallot D, Montague W. Effect of bitter melon (Momordica charantia) fruit juice on the hepatic cytochrome P450-dependent monooxygenases and glutathione S-transferases in streptozotocin-induced diabetic rats. Biochem Pharmacol. 1996 Nov 22;52(10):1639-42. PubMed | Google Scholar
- Kolawole O. Seasonal Variation in the Anti-Diabetic and
Hypolipidemic Effects of Momordica charantia Fruit Extract in Rats. European
Journal of Medicinal Plants (Internet). 2012 Jan 10 (cited 2015 Jan 16);2(2):177-85. PubMed | Google
Scholar
- Saha SK, Haque ME, Islam D, Rahman MM, Islam MR, Parvin
A, et al. Comparative study between the effect of Momordica charantia (wild
and hybrid variety) on hypoglycemic and hypolipidemic activity of alloxan induced
type 2 diabetic long-evans rats. Journal of Diabetes Mellitus (Internet). 2012
(cited 2015 Jan 16);2:131. PubMed | Google
Scholar
- Natarajan A, Syed Zameer Ahmed K, Sundaresan S, Sivaraj
A, Devi K, Senthil Kumar B. Effect of aqueous flower extract of Catharanthus
roseus on alloxan induced diabetes in male albino rats. Int J Pharm Sci Drug
Res. 2012;4(2):150-3. PubMed | Google
Scholar
- Jayanthi M, Sowbala N, Rajalakshmi G, Kanagavalli U,
Sivakumar V. Study of anti-hyperglycemic effect of Catharanthus roseus in alloxan
induced diabetic rats. Int J Pharm Pharm Sci.2010:2(4) :114-6. PubMed | Google
Scholar
- Mostofa M, Choudhury M, Hossain M, Islam M, Islam M,
Sumon M. Antidiabetic effects of Catharanthus roseus, Azadirachta
indica, Allium sativum and
glimepride in experimentally diabetic induced rat. Bangladesh Journal of Veterinary
Medicine (Internet). 2008 Oct 16 (cited 2015 Jan 16);5(1). PubMed | Google
Scholar
- Jyothi P, Sarala Kumara D. Central nervous system protection
by Catharanthus roseus leaf extract in streptozotocin-induced diabetes in rat
brain. J Pharmacogn. 2012;3(2):63-6. PubMed | Google
Scholar
- Abo KA, Fred-Jaiyesimi AA, Jaiyesimi AEA. Ethnobotanical studies of medicinal plants used in the management of diabetes mellitus in South Western Nigeria. J Ethnopharmacol. 2008 Jan 4;115(1):67-71. PubMed | Google Scholar
- Agbonon A, Eklu-Gadegbeku K, Aklikokou K, Gbeassor M, Akpagana K, Tam TW, et al. In vitro inhibitory effect of West African medicinal and food plants on human cytochrome P450 3A subfamily. J Ethnopharmacol. 2010 Mar 24;128(2):390-4. PubMed | Google Scholar
- Mbagwu HO, Jackson C, Jackson I, Ekpe G, Eyaekop U, Essien
G, et al. Evaluation of the hypoglycemic effect of aqueous extract of Phyllanthus
amarus in alloxan-induced diabetic albino rats. International Journal of Pharmaceutical
and Biomedical Research (Internet). 2011;2:158-60. PubMed | Google
Scholar