Recursos herbolarios empleados en el control de la glucosa en pacientes con diabetes mellitus 2 en la cienega de chapala, michoacan. Un reencuentro con la tradición / Herbal resources used in the control of Glucose in patients with diabetes mellitus 2, in cienega de chapala, michoacan. A reunion with tradition

Autores

  • Ignacio García Ruiz Brazilian Journals Publicações de Periódicos, São José dos Pinhais, Paraná
  • María Antonieta Ochoa Ocaña

DOI:

https://doi.org/10.34188/bjaerv4n4-011

Palavras-chave:

Diabetes mellitus, glucosa, salud, herbolaria

Resumo

La Diabetes Mellitus es una enfermedad metabólica crónica multifactorial que representa en la actualidad un problema de salud pública en el mundo y en México. El tratamiento de la diabetes con drogas sintéticas en países en desarrollo es costoso agregando a ello la falta de acceso a medicamentos; por lo que la fitoterapia representa una alternativa segura, de alta disponibilidad y bajo costo en estos. Nuestro país posee una tradición ancestral en el conocimiento y uso de plantas medicinales que puede ser explotado para el control de este padecimiento además de preservar la tradición en uso de recursos herbolarios. El objetivo del estudio fue identificar las especies botánicas empleadas en el control de la diabetes en la región de la Ciénega de Chapala, Michoacán. Se obtuvo la recopilación de 28 especies tanto nativas como introducidas; sin embargo, existen plantas documentadas con potencial hipoglucemiante que en la región desconocen.

Referências

Abdur Rauf, Saud Bawazeer, Muhammad Naseer, Fahad A. Alhumaydhi, Abdullah S. M. Aljohani, Aamir Habib, Raheem Khan, Urooj Jehan, Muhammad Nasimullah Qureshi, Majid Khan, Umar Farooq, Amirzhan Kassenov & Mohammad Ali Shariati. (2020). In vitro ?-glycosidase and urease enzyme inhibition profile of some selected medicinal plants of Pakistan, Natural Product Research, DOI: 10.1080/14786419.2020.1779264

Abo-Youssef, Amira Mourad Hussein, & Messiha, Basim Anwar Shehata. (2013). Beneficial effects of Aloe vera in treatment of diabetes: Comparative in vivo and in vitro studies. Bulletin of the Faculty of Pharmacy, 51(1), 7–11. https://doi.org/10.1016/j.bfopcu.2012.03.002

Aguilar C. A. y S. Xolalpa M. (1998). La herbolaria mexicana en el tratamiento de la diabetes. Ciencia, de la Academia Mexicana de Ciencias. Rev. Ciencia 53(3)24-35

Alonso-Castro, Angel Josabad, & Salazar-Olivo, Luis A. (2008). The anti-diabetic properties of Guazuma ulmifolia Lam are mediated by the stimulation of glucose uptake in normal and diabetic adipocytes without inducing adipogenesis. Journal of Ethnopharmacology, 118(2), 252–256. https://doi.org/10.1016/j.jep.2008.04.007

Alonso-Castro, Angel Josabad, Miranda-Torres, Ana Cristina, González-Chávez, Marco Martín, & Salazar-Olivo, Luis A. (2008). Cecropia obtusifolia Bertol and its active compound, chlorogenic acid, stimulate 2-NBDglucose uptake in both insulin-sensitive and insulin-resistant 3T3 adipocytes. Journal of Ethnopharmacology, 120(3), 458–464. https://doi.org/10.1016/j.jep.2008.09.019

Alves da Rocha A., Ferreira da Silva Araújo T., Silveira Martins da Fonseca C., da Mota D. L., Lys de Medeiros P., Guedes Paiva P.M., Breitenbach Barroso Coelho L.C., dos Santos Correia M.T., and Vera Lúcia de Menezes Lim. (2013). Lectin from Crataeva tapia Bark Improves Tissue Damages and Plasma Hyperglycemia in Alloxan-Induced Diabetic Mice. Hindawi Publishing Corporation Evidence-Based Complementary and Alternative Medicine Volume 2013, Article ID 869305, 9 pages

Anand M. and Basavaraju R. (2021). GC analysis of different parts of Tecoma stans (L.) Juss. ex Kunth for fathy acid composition. Current Botany. 2021, 12: 16-21

Andrade-Cetto, Adolfo, & Wiedenfeld, Helmut. (2011). Anti-hyperglycemic effect of Opuntia streptacantha Lem. Journal of Ethnopharmacology, 133(2), 940–943. https://doi.org/10.1016/j.jep.2010.11.022

Arumugam, G, Manjula, P, & Paari, N. (2013). A review: Anti diabetic medicinal plants used for diabetes mellitus. Journal of Acute Disease, 2(3), 196–200. https://doi.org/10.1016/S2221-6189(13)60126-2

Baldissera, G. (2015). Efeitos da administração de extrato bruto hidroalcoólico de folhas de Syzygium cumini (L.) Skeels e do treinamento aeróbio contínuo em ratos diabéticos induzidos por dieta hiperlipídica e baixas doses de estreptozotocina. Dissertação submetida ao Programa de Pós-Graduação em Ciências da Reabilitação da Fundação Universidade Federal de Ciências da Saúde de Porto Alegre como requisito para a obtenção do grau de Mestre.

Bhat M, Kothiwale SK, Tirmale AR, Bhargava SY, Joshi BN. (2011). Antidiabetic Properties of Azaradichta indica and Bougainvillea spectabilis: In Vivo Studies in Murine Diabetes Model. Evid Based Complement Alternat Med. 2011;2011:561625. doi: 10.1093/ecam/nep033. Epub 2011 Jun 18. PMID: 19389871; PMCID: PMC3136679.

Contreras-Weber C., Pérez-Gutiérrez S., Alarcón-Rodríguez F. & R. Roman-Ramos. (2002). Anti-Hyperglycemic effect of Psacalium peltatum. Proc. West. Pharmacol. Soc. 45: 134-136 (2002).

Currie CJ, Poole CD, Gale E. (2009). The influence of glucose-lowering therapies on cancer risk in type 2 diabetes. Diabetologia 52:1766–1777

Daisy, P, & Saipriya, K. (2012). Biochemical analysis of Cassia fistula aqueous extract and phytochemically synthesized gold nanoparticles as hypoglycemic treatment for diabetes mellitus. International Journal of Nanomedicine, 7, 1189–1202. https://doi.org/10.2147/IJN.S26650

El-Sayed, Mohamed-I Kotb. (2011). Effects of Portulaca oleracea L. seeds in treatment of type-2 diabetes mellitus patients as adjunctive and alternative therapy. Journal of Ethnopharmacology, 137(1), 643–651. https://doi.org/10.1016/j.jep.2011.06.020

Esquivel-Gutiérrez ER, Noriega-Cisneros R, Bello-González MA, Saavedra-Molina A y Salgado-Garciglia R. (2012). Plantas utilizadas en la medicina tradicional mexicana con propiedades antidiabéticas y antihipertensivas. Biológicas, 14(1):45-52

Etsassala NG, Hussein AA, Nchu F. (2021). Potential Application of Some Lamiaceae Species in the Management of Diabetes. Plants. 2021; 10(2):279. https://doi.org/10.3390/plants10020279

Ghosh T, Maity TK, Singh J.(2011) Antihyperglycemic activity of bacosine, a triterpene from Bacopa monnieri, in alloxan-induced diabetic rats. Planta Med. 2011. 77 (8):804-8. doi: 10.1055/s-0030-1250600. Epub 2010 Dec 10. PMID: 21154199.

Govea-Salas M., Morlett-Chávez J., Rodriguez-Herrera R., and J. Ascacio-Valdés. (2017). Some Mexican Plants Used in Traditional Medicine. Chapter 10. Intech.

Gutierrez, Rosa Martha Pérez, & Baez, Efrén Garcia. (2014). Evaluation of antidiabetic, antioxidant and antiglycating activities of the Eysenhardtia polystachya. Pharmacognosy Magazine, 10(Suppl 2), S404–S418. https://doi.org/10.4103/0973-1296.133295

Haridasan K. (2001). Ethnobotanical studies in Arunachal Pradesh - A Status Report, In: Ethnomedicine of North East India, NISCAIR, New Delhi, p. 54–169

Herrera C., García-Barrantesa P.M., Binnsa F., Vargas M, Povedac L., y S. Badilla. (2011). Hypoglycemic and antihyperglycemic effect of Witheringia solanacea in normal and alloxan-induced hyperglycemic rats. Journal of Ethnopharmacology 133 (2011) 907–910

Hsu, Y. J., Lee, T. H., Chang, C. L. T., Huang, Y. T., & Yang, W. C. (2009). Anti-hyperglycemic effects and mechanism of Bidens pilosa water extract. Journal of ethnopharmacology, 122(2), 379-383.

Huang THW, Peng G, Kota BP, Li GQ, Yamahara J, Roufogalis BD et al. 2005. Anti-diabetic action of Punica granatum flower extract: activation of PPAR-c and identification of an active component. Toxicol App Pharmacol 2005; 207:160-169.

International Diabetes Federation (2017). Atlas de la Diabetes de la FID. Octava Edición 2017.

Jain SK. (1989). Medicinal Plants. National Book Trust, New Delhi

Jaiswal, Dolly, Rai, Prashant Kumar, Mehta, Shikha, Chatterji, Sanjukta, Shukla, Surekha, Rai, Devendra Kumar, Sharma, Gaurav, Sharma, Bechan, khair, Shahidul, & Watal, Geeta. (2013). Role of Moringa oleifera in regulation of diabetes-induced oxidative stress. Asian Pacific Journal of Tropical Medicine, 6(6), 426–432. https://doi.org/10.1016/S1995-7645(13)60068-1

Juárez-Flores BI (2006) Diabetes mellitus y medicina tradicional. ciencia@sanluis potosi.mx 1 (12):4

Khanal, Pukar, & Patil, Basanagouda M. (2021). Integration of network and experimental pharmacology to decipher the antidiabetic action of Duranta repens L. Journal of Integrative Medicine, 19(1), 66–77. https://doi.org/10.1016/j.joim.2020.10.003

Khosla, P., Bhanwra, S., Singh, J., Seth, S., & Srivastava, R. K. (2000). A study of hypoglycaemic effects of Azadirachta indica (Neem) in normal and alloxan diabetic rabbits. Indian Journal of Physiology and Pharmacology, 44(1), 69-74.

Kumar P., Baraiya S., S. N. Gaidhani, M. D. Gupta, Manish M. Wanjari. (2012). Antidiabetic activity of stem bark of Bauhinia variegata in alloxan-induced hyperglycemic rats. J Pharmacol Pharmacother. 2012 Jan-Mar; 3(1): 64–66. doi: 10.4103/0976-500X.92518

Laguna-Hernández G., Río-Zamorano C.A., Meneses-Ochoa I.G., Brechú-Franco A.E. (2017). Histochemistry and immunolocalisation of glucokinin in antidiabetic plants used in traditional Mexican medicine. European Journal of Histochemistry 2017; Vol. 61:2782. 125-134pp

Lima, C.R, Vasconcelos, C.F.B, Costa-Silva, J.H, Maranhão, C.A, Costa, J, Batista, T.M, Carneiro, E.M, Soares, L.A.L, Ferreira, F, & Wanderley, A.G. (2012). Anti-diabetic activity of extract from Persea americana Mill leaf via the activation of protein kinase B (PKB/Akt) in streptozotocin-induced diabetic rats. Journal of Ethnopharmacology, 141(1), 517–525. https://doi.org/10.1016/j.jep.2012.03.026

Lombardi JA. (2000). Vitaceae: Generos Ampelocissus, Ampelopsis, e Cissus. Flora Neotropic Monograph. 80: 200.

Maharjan H. Radha, Nampoothiri P. Laxmipriya. (2015). Evaluation of biological properties and clinical effectiveness of Aloe vera: A systematic review. Journal of Traditional and Complementary Medicine 5 (2015) 21e26

Malviya N., Jain S. and S. Malviya. (2010). Antidiabetic potential of medicinal plants. Acta Poloniae Pharmaceutical Drug Research, Vol. 67 No. 2 pp. 113ñ118, 2010. Review.

Manikandan, R., Anand, A. V., & Muthumani, G. D. (2013). Phytochemical and in vitro anti-diabetic activity of methanolic extract of Psidium guajava leaves. Int. J. Curr. Microbiol. App. Sci, 2(2), 15-19.

Marles R.J., and N. R. Farnsworth. (1995). Antidiabetic plants and their active constituents. Phytomedicine Vol. 2 (2), pp. 137-189, 1995. Review.

Mc Vaugh, R. (1984). Compositae Flora Novo-Galiciana Vol. 12. A descriptive Account of the Vascular Plants of Western Mexico. The University of Michigan Herbarium. 1157 pp.

McVaugh, R. (1987). Leguminosae. Flora Novo-Galiciana Vol. 5. Contributions from the University of Michigan Herbarium. The University of Michigan Herbarium. (786 pp.).

McVaugh, R. (1989). Bromeliaceae to Dioscoreaceae. Flora Novo-Galiciana Vol. 15. Contributions from the University of Michigan Herbarium. The University of Michigan Herbarium. 398 pp.

McVaugh, R. (1992). Gymnosperms and Pteridophytes. Flora Novo-Galiciana Vol. 17. The University of Michigan Herbarium. 467 pp.

McVaugh, R. (1993a). Limnocharitaceae to Typhaceae. Flora Novo-Galiciana Vol. 13. Contributions from the University of Michigan Herbarium. The University of Michigan Herbarium. 480 pp.

McVaugh, R. (1993b). Ochnaceae to Loasaceae. Flora Novo-Galiciana Vol. 3. Contributions from the University of Michigan Herbarium. The University of Michigan Herbarium. (751 pp.).

Mendoza F. J., Wood, JRI. (2013). Taxonomic revision of Talinum

(Talinaceae) in Bolivia with a note on the occurrence of Phemeranthus (Montiaceae). Kew Bull

, 233–247 (2013).

Mueller S.M. and Mechler E. (2005). Medicinal Plants in Tropical Countries Traditional Use—Experience—Facts. Thieme, Stuttgart · New York. 38-39p

Mukherjee PK, Maiti K, Mukherjee K, Houghton PJ. (2006). Leads from Indian medicinal plants with hypoglycemic potentials. J Ethnopharmacol 106:1–28

Nash D.L., Nee M. (1984). Verbenaceae. Flora de Veracruz, fasc. 41. Xalapa, Ver.

Oputa R, Chinenye S. (2012). Diabetes mellitus: a global epidemic with potential solutions. Afr. J Diabetes Med 2(2):33–35

Organización Mundial de la Salud. (2016). World Health Organization 2016. WHO/NMH/NVI/16.3

Ortiz-Andrade, Rolffy, Cabañas-Wuan, Angel, Arana-Argáez, Víctor E, Alonso-Castro, Angel Josabad, Zapata-Bustos, Rocio, Salazar-Olivo, Luis A, Domínguez, Fabiola, Chávez, Marco, Carranza-Álvarez, Candy, & García-Carrancá, Alejandro. (2012). Antidiabetic effects of Justicia spicigera Schltdl (Acanthaceae). Journal of Ethnopharmacology, 143(2), 455–462. https://doi.org/10.1016/j.jep.2012.06.043

Oyagbemi AA., M. Salihu, OO. Oguntibeju, A.J. Esterhuyse and E.O. Farombi. (2014). Some Selected Medicinal Plants with Antidiabetic Potentials. Chapter 4, INTECH 2014, Oyagbemi et al Licence IntTech.

Palma-Tenango, M., San Miguel-Chávez R., and R.M. Soto-Hernández. (2017). Aromatic and Medicinal Plants in Mexico. Chapter 7. In Tech.

Pari, L., & Amarnath Satheesh, M. (2004). Antidiabetic effect of Boerhavia diffusa: effect on serum and tissue lipids in experimental diabetes. Journal of medicinal food, 7(4), 472-476.

Pérez García, V. (2009). Plantas medicinales de uso en traspatio en la zona centro del estado de Veracruz, México.

Pérez Gutiérrez RM., and García Báez E. (2014). Evaluation of antidiabetic, antioxidant and antiglycating activities of the Eysenhardtia polystachya. Pharmacogn Mag. 2014 Apr-Jun; 10(Suppl 2): S404–S418. doi: 10.4103/0973-1296.133295

Chattopadhyay, RR. (1999). Possible mechanism of antihyperglycemic effect of Azadirachta indica leaf extract: Part V, Journal of Ethnopharmacology, Volume 67, Issue 3, 1999, Pages 373-376, ISSN 0378-8741

Ramírez, Guillermo, Zavala, Miguel, Pérez, Julia, & Zamilpa, Alejandro. (2012). In Vitro Screening of Medicinal Plants Used in Mexico as Antidiabetics with Glucosidase and Lipase Inhibitory Activities. Evidence-Based Complementary and Alternative Medicine, 2012, 701261–701261. https://doi.org/10.1155/2012/701261

Rani Alka, Sandeep Arora and Anju Goyal. (2017). Antidiabetic plants in traditional medicines: a review. Alka Rani et al. Int. Res. J. Pharm. 2017, 8 (6).

Raven, PH. (1963). The Old World species of Ludwigia (including Jussiaea),

with a synopsis of the genus (Onagraceae). Reinwardtia 6: 327-429.

Riya MP, Antu KA, Pal S, Chandrakanth KC, Anilkumar KS, Tamrakar AK, Srivastava AK, Raghu KG (2015) Antidiabetic property of Aerva lanata (L.) Juss ex Schult is mediated by inhibition of alpha glucosidase, protein glycation and stimulation of adipogenesis. J Diabetes 7(4):548–561

Salem Moqbel M., Abdullah Al-Hizab F., Mustafa Barakat S. (2017). Clinicopathological Study on the Effects of Momordica charantia on Streptozotocin-Induced Diabetic Wistar Rats. Open Journal of Veterinary Medicine, 2017, 7, 49-62

Sanjay PKN, Dwivedi S. (2015) (Moringa oleifera lam.): Uma revisão

crítica. Revista Brasileira de Bioquímica e Bioquímica, 21 (1):217 - 227.

Secretaría de Salud. Encuesta Nacional de Salud y Nutrición de Medio Camino (2016) (ENSANUT MC 2016) [internet]. Cuernavaca: INSP, 2016. Disponible en: https://www.gob.mx/cms/uploads/ attachment/file/209093/ENSANUT.pdf

Song Y, Wu T, Yang Q, Chen X, Wang M, Wang Y, Peng X, Ou S. (2014). Ferulic acid alleviates the symptoms of diabetes in obese rats. J Funct Foods 9:141–147

Stevens, WD, C. Ulloa U, Pool, A & Montiel, OM. (eds.). Flora de Nicaragua. Vol. 85, tomos I, II y III. Missouri Botanical Garden Press. St. Louis, Missouri, (2001). Disponível em: http://www.mobot.org/MOBOT/research/nicaragua/fitogeografia.shtml

Suba V, Murugesan T, Arunachalam G, Mandal S, Saha B. (2004). Anti-diabetic potential of Barleria lupulina extract in rats. Phytomedicine 11:202–205

Subramonian A. (2017). Anti-Diabetes Mellitus Plants. Active Principles, Mechanisms of Action and Sustainable Utilization. Taylor & Francis Group, LLC.

Sunmonu TO, Afolayan AJ. (2013) Evaluation of antidiabetic activity and associated toxicity of Artemisia afra aqueous extract in wistar rats. Evid Based Complement Alternat Med 2013:929074

Venkatesh S, Reddy GD, Reddy BM, Ramesh M, Rao AA. (2003). Antihyperglycemic activity of Caralluma attenuata. Fitoterapia 74:274–279

Vibrans H., y Tenorio-Lezama P., (2009). The Weeds of Mexico Website,

Two Years after its First Publication El Sitio Web Malezas de México a Dos Años de

su Primera Publicación In: Proceedings of the Weeds Across Borders 2008 Conference

May 27–30, 2008 — Banff, Alberta, Canada The view from the North (Darbyshire J.S. and R. Prasad, Eds. Pp 216-225.

Yongchaiyudha, S, Rungpitarangsi, V, Bunyapraphatsara, N, & Chokechaijaroenporn, O. (1996). Antidiabetic activity of Aloe vera L. juice. I. Clinical trial in new cases of diabetes mellitus. Phytomedicine (Stuttgart), 3(3), 241–243. https://doi.org/10.1016/S0944-7113 (96)80060-2

Yousefi, K., Fathiazad, F., Soraya, H., Rameshrad, M., Maleki-Dizaji, N., & Garjani, A. (2014). Marrubium vulgare L. methanolic extract inhibits inflammatory response and prevents cardiomyocyte fibrosis in isoproterenol-induced acute myocardial infarction in rats. BioImpacts: BI, 4(1), 21–27. https://doi.org/10.5681/bi.2014.001

http://www.medicinatradicionalmexicana.unam.mx/ (Consulta: 30 de noviembre 2020).

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2021-10-05

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Ruiz, I. G., & Ocaña, M. A. O. (2021). Recursos herbolarios empleados en el control de la glucosa en pacientes con diabetes mellitus 2 en la cienega de chapala, michoacan. Un reencuentro con la tradición / Herbal resources used in the control of Glucose in patients with diabetes mellitus 2, in cienega de chapala, michoacan. A reunion with tradition. Brazilian Journal of Animal and Environmental Research, 4(4), 4925–4943. https://doi.org/10.34188/bjaerv4n4-011

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