Publicación:
Especies de plantas colombianas con potencial antiinflamatorio sobre modelos de inflamación tópica y enfermedad inflamación intestinal

Vista sencilla de ítem
dc.contributor.advisorFranco Ospina, Luís Alberto
dc.contributor.authorCastro Guerrero, Jenny Paola
dc.date.accessioned2021-12-10T14:53:25Z
dc.date.available2021-12-10T14:53:25Z
dc.date.issued2021
dc.description.abstractLas enfermedades crónicas no transmisibles (ECNT) son la principal causa de morbilidad y mortalidad en la población mundial, representando el 70% de todas las muertes en el mundo. La Organización Mundial de la Salud (OMS) estima que más de 14 millones de personas entre 30 y 70 años mueren anualmente en el mundo por una enfermedad crónica y el 85% de estas personas provienen de un país en desarrollo. La aparición de estas enfermedades está asociada a factores de riesgo modificables relacionados con el estilo de vida, como la inactividad física, el consumo nocivo de alcohol, tabaco y una dieta poco saludable; los cuales pueden producir un daño celular considerable en los tejidos diana y desencadenar un desequilibrio redox que produce un estado de "estrés oxidativo", a menudo acompañado o relacionado con un proceso inflamatorio crónico, el cual ha sido reconocido como un mecanismo patofisiológico subyacente en la aparición de muchas ECNT. En este sentido, la supresión de la respuesta inflamatoria en enfermedades crónicas puede afectar beneficiosamente el resultado de la misma. Colombia cuenta con una combinación única de atributos geográficos y topográficos que le han permitido contar con una extraordinaria diversidad de flora, siendo catalogado como uno de los países más megadiversos del mundo. Tradicionalmente un alto porcentaje de la población colombiana ha empleado especies vegetales con propiedades medicinales como alternativas terapéuticas para tratar diversas enfermedades que cursan con inflamación. Sin embargo, muchas de estas especies han sido poco o nada estudiadas por nuestra comunidad científica. Este proyecto contribuyó al conocimiento del potencial anti-inflamatorio de algunas especies vegetales colombianas, evaluando inicialmente el efecto de cincuenta y uno (51) extractos vegetales, sobre la liberación del mediador inflamatorio óxido nítrico (NO•) en macrófagos RAW 264.7. Los resultados permitieron identificar el potencial anti-inflamatorio de los extractos etanólicos de las semillas de Ambrosia peruviana, las hojas de Mammea americana, los cálices de Physalis angulata, y el fruto de Physalis peruviana; los cuales además de inhibir la producción de NO•, también disminuyeron significativamente la liberación de TNF-α, IL-1β, IL-6 y PGE-2 en macrófagos RAW 264.7 activados. Estos resultados se consideran prometedores teniendo en cuenta que se trata de biomarcadores de inflamación importantes en los procesos inflamatorios asociados a las ECNT. Con miras a darle continuidad al estudio de estas promisorias especies y obtener resultados a nivel in vivo, se evaluó el efecto anti-inflamatorio del extracto total etanólico de las hojas de Mammea americana y los cálices de Physalis angulata, en el modelo de edema auricular inducido por TPA. Adicionalmente, se evaluó el potencial anti-inflamatorio del extracto etanólico total de las flores de Cordia alba, en el mismo modelo, siendo estos resultados el primer reporte del potencial anti-inflamatorio de las flores de esta especie. Los resultados mostraron que los tres extractos lograron disminuir significativamente el edema producido por el agente irritante TPA y disminuyeron la infiltración de neutrófilos en el tejido. Por otro lado, el extracto del fruto de Physalis peruviana, fue evaluado en el modelo de enfermedad inflamatoria intestinal inducida por dextran sulfato de sodio (DSS) en ratones BALB/c, los resultados mostraron que una dieta suplementada con extracto del fruto de Physalis peruviana atenuó los síntomas de la colitis aguda inducida por el DSS, reduciendo el sangrado, la pérdida de peso, la diarrea y el acortamiento del colon. Adicionalmente, este extracto inhibió la actividad de la enzima MPO y disminuyó la producción de IL-6, IL-1β, IL-10, TNF-α y EROs en el tejido colónico. Los resultados de este proyecto demuestran el efecto anti-inflamatorio de los extractos obtenidos de las hojas de Mammea americana, de los cálices de Physalis angulata, las flores de Cordia alba y los frutos de Physalis peruviana, convirtiéndose en la base de posteriores estudios encaminados al desarrollo de fitopreparados y alimentos funcionales con utilidad para la prevención y/o el tratamiento de enfermedades crónicas no transmisibles.spa
dc.description.degreelevelDoctoradospa
dc.description.degreenameDoctor(a) en Ciencias Biomédicasspa
dc.format.extent164 hojasspa
dc.format.mimetypeapplication/pdfspa
dc.identifier.urihttps://hdl.handle.net/11227/13598
dc.identifier.urihttp://dx.doi.org/10.57799/11227/91
dc.language.isospaspa
dc.publisherUniversidad de Cartagenaspa
dc.publisher.facultyFacultad de Medicinaspa
dc.publisher.placeCartagena de Indiasspa
dc.publisher.programDoctorado en Ciencias Biomédicasspa
dc.rightsDerechos Reservados - Universidad de Cartagena, 2021spa
dc.rights.accessrightsinfo:eu-repo/semantics/openAccessspa
dc.rights.creativecommonsAtribución-NoComercial 4.0 Internacional (CC BY-NC 4.0)spa
dc.rights.urihttps://creativecommons.org/licenses/by-nc/4.0/spa
dc.subject.armarcBioquímica vegetal
dc.subject.armarcMedicina tradicional
dc.subject.armarcAgentes anti-inflamatorios
dc.subject.armarcFenol
dc.subject.armarcÓxido nítrico
dc.subject.armarcPlantas - Efectos del estrés
dc.titleEspecies de plantas colombianas con potencial antiinflamatorio sobre modelos de inflamación tópica y enfermedad inflamación intestinalspa
dc.typeTrabajo de grado - Doctoradospa
dc.type.coarhttp://purl.org/coar/resource_type/c_db06spa
dc.type.contentTextspa
dc.type.driverinfo:eu-repo/semantics/doctoralThesisspa
dc.type.redcolhttps://purl.org/redcol/resource_type/TDspa
dc.type.versioninfo:eu-repo/semantics/publishedVersionspa
dcterms.referencesAdefegha, S. A. (2018). Functional Foods and Nutraceuticals as Dietary Intervention in Chronic Diseases; Novel Perspectives for Health Promotion and Disease Prevention. In Journal of Dietary Supplements. https://doi.org/10.1080/19390211.2017.1401573spa
dcterms.referencesAlwan, A., MacLean, D. R., Riley, L. M., D’Espaignet, E. T., Mathers, C. D., Stevens, G. A., & Bettcher, D. (2010). Monitoring and surveillance of chronic non-communicable diseases: Progress and capacity in high-burden countries. In The Lancet. https://doi.org/10.1016/S0140-6736(10)61853-3spa
dcterms.referencesAstrup, A., Dyerberg, J., Selleck, M., & Stender, S. (2008). Nutrition transition and its relationship to the development of obesity and related chronic diseases. Obesity Reviews. https://doi.org/10.1111/j.1467-789X.2007.00438.spa
dcterms.referencesAyala-Zavala, J. F., Rosas-Domínguez, C., Vega-Vega, V., & González-Aguilar, G. A. (2010). Antioxidant enrichment and antimicrobial protection of fresh-cut fruits using their own byproducts: Looking for integral exploitation. Journal of Food Science, 75(8). https://doi.org/10.1111/j.1750-3841.2010.01792.spa
dcterms.referencesAzevedo, E. C. de C., Diniz, A. da S., Monteiro, J. S., & Cabral, P. C. (2014). [Dietary risk patterns for non-communicable chronic diseases and their association with body fat - a systematic review]. Ciencia & Saude Coletiva, 19(5). https://doi.org/10.1590/1413-81232014195.14572013spa
dcterms.referencesBeaglehole, R., & Yach, D. (2003). Globalisation and the prevention and control of non-communicable disease: The neglected chronic diseases of adults. Lancet. https://doi.org/10.1016/S0140-6736(03)14335-8spa
dcterms.referencesBernstein, C. N. (2017). Review article: changes in the epidemiology of inflammatory bowel disease—clues for aetiology. In Alimentary Pharmacology and Therapeutics (Vol. 46, Issue 10). https://doi.org/10.1111/apt.14338spa
dcterms.referencesBeyra, Á., León, M. del C., Iglesias, E., Ferrándiz, D., Herrera, R., Volpato, G., Godínez, D., Guimarais, M., & Álvarez, R. (2004). Estudios etnobotánicos sobre plantas medicinales en la provincia de Camagüey (Cuba). Anales Del Jardin Botanico de Madrid, 61(2), 185–204. https://doi.org/10.3989/ajbm.2004.v61.i2.4spa
dcterms.referencesBiswas, A., Bari, M. A., Roy, M., & Bhadra, S. K. (2010). Inherited folk pharmaceutical knowledge of tribal people in the Chittagong hill tracts, Bangladesh. Indian Journal of Traditional Knowledge, 9(1), 77–89.spa
dcterms.referencesBogdan, C. (2015). Nitric oxide synthase in innate and adaptive immunity: An update. In Trends in Immunology (Vol. 36, Issue 3). https://doi.org/10.1016/j.it.2015.01.003spa
dcterms.referencesCalder, P. C., Ahluwalia, N., Brouns, F., Buetler, T., Clement, K., Cunningham, K., Esposito, K., Jönsson, L. S., Kolb, H., Lansink, M., Marcos, A., Margioris, A., Matusheski, N., Nordmann, H., O’Brien, J., Pugliese, G., Rizkalla, S., Schalkwijk, C., Tuomilehto, J., … Winklhofer-Roob, B. M. (2011). Dietary factors and low-grade inflammation in relation to overweight and obesity. British Journal of Nutrition. https://doi.org/10.1017/s0007114511005460spa
dcterms.referencesCalder, P. C., Bosco, N., Bourdet-Sicard, R., Capuron, L., Delzenne, N., Doré, J., Franceschi, C., Lehtinen, M. J., Recker, T., Salvioli, S., & Visioli, F. (2017). Health relevance of the modification of low grade inflammation in ageing (inflammageing) and the role of nutrition. In Ageing Research Reviews. https://doi.org/10.1016/j.arr.2017.09.001spa
dcterms.referencesCastro, J., Ocampo, Y., Franco, L., Luis, D., & Franco, A. (2015). Cape Gooseberry [Physalis peruviana L.] Calyces Ameliorate TNBS Acid-induced Colitis in Rats. https://doi.org/10.1093/ecco-jcc/jjv132spa
dcterms.referencesCastro, J., Rivera, D., & Franco, L. A. (2019). Topical anti-inflammatory activity in TPA-induced mouse ear edema model and in vitro antibacterial properties of Cordia alba flowers. Journal of Pharmaceutical Investigation, 49(3). https://doi.org/10.1007/s40005-018-00421-zspa
dcterms.referencesCavicchia, P. P., Steck, S. E., Hurley, T. G., Hussey, J. R., Ma, Y., Ockene, I. S., & Hébert, J. R. (2009). A new dietary inflammatory index predicts interval changes in serum high-sensitivity C-reactive protein. Journal of Nutrition, 139(12). https://doi.org/10.3945/jn.109.114025spa
dcterms.referencesCervantes Ceballos, L., Sánchez Hoyos, F., & Gómez Estrada, H. (2017). Antibacterial activity of Cordia dentata Poir, Heliotropium indicum Linn and Momordica charantia Linn from the Northern Colombian Coast. Revista Colombiana de Ciencias Químico-Farmacéuticas, 46(2). https://doi.org/10.15446/rcciquifa.v46n2.67933spa
dcterms.referencesChang, L. C., Sang-Ngern, M., Pezzuto, J. M., & Ma, C. (2016). The Daniel K. Inouye College of Pharmacy Scripts: Poha Berry (Physalis peruviana) with Potential Anti-inflammatory and Cancer Prevention Activities. Hawai’i Journal of Medicine & Public Health : A Journal of Asia Pacific Medicine & Public Health, 75(11).spa
dcterms.referencesChen, J., Li, W., Yao, H., & Xu, J. (2015). Insights into drug discovery from natural products through structural modification. In Fitoterapia (Vol. 103). https://doi.org/10.1016/j.fitote.2015.04.012spa
dcterms.referencesCicció, J. F., & Chaverri, C. (2015). Essential oil composition of Ambrosia cumanensis (Asteraceae) from Costa Rica. American Journal of Essential Oils and Natural Products, 3(32).spa
dcterms.referencesCosta, G., Francisco, V., C. Lopes, M., T. Cruz, M., & T. Batista, M. (2012). Intracellular Signaling Pathways Modulated by Phenolic Compounds: Application for New Anti-Inflammatory Drugs Discovery. Current Medicinal Chemistry, 19(18). https://doi.org/10.2174/092986712800672049spa
dcterms.referencesDel Rio, D., Rodriguez-Mateos, A., Spencer, J. P. E., Tognolini, M., Borges, G., & Crozier, A. (2013). Dietary (poly)phenolics in human health: Structures, bioavailability, and evidence of protective effects against chronic diseases. In Antioxidants and Redox Signaling (Vol. 18, Issue 14). https://doi.org/10.1089/ars.2012.4581spa
dcterms.referencesDivajeva, D., Marsh, T., Logstrup, S., Kestens, M., Vemer, P., Kriaucioniene, V., Peresson, S., O’Kelly, S., Rito, A., & Webber, L. (2014). Economics of chronic diseases protocol: Cost-effectiveness modelling and the future burden of non-communicable disease in Europe. BMC Public Health, 14(1). https://doi.org/10.1186/1471-2458-14-456spa
dcterms.referencesDuarte, O., & Velho, L. (2010). Análisis del marco legal en colombia para la implementación de prácticas de bioprospección. Acta Biologica Colombiana, 13(2).spa
dcterms.referencesDushenkov, V., & Raskin, I. (2008). New strategy for the search of natural biologically active substances. In Russian Journal of Plant Physiology (Vol. 55, Issue 4). https://doi.org/10.1134/S1021443708040201spa
dcterms.referencesFabricant, D. S., & Farnsworth, N. R. (2001). The value of plants used in traditional medicine for drug discovery. Environmental Health Perspectives, 109(SUPPL. 1). https://doi.org/10.1289/ehp.01109s169spa
dcterms.referencesForester, S. C., & Lambert, J. D. (2011). Antioxidant effects of green tea. Molecular Nutrition and Food Research, 55(6).spa
dcterms.referencesGailea, R., Bratawinata, A. A., Pitopang, R., & Kusuma, I. W. (2016). The use of various plant types as medicines by local community in the enclave of the Lore-Lindu National Park of Central Sulawesi, Indonesia. In Global Journal of Research on Medicinal Plants and Indigenous Medicine (Vol. 5, Issue 1, p. 29).spa
dcterms.referencesGentschew, L., & Ferguson, L. R. (2012). Role of nutrition and microbiota in susceptibility to inflammatory bowel diseases. In Molecular Nutrition and Food Research (Vol. 56, Issue 4). https://doi.org/10.1002/mnfr.201100630spa
dcterms.referencesGermosén Robineau, L., García González, M., Morón, F., Costaguta, M., Delens, M., Olmedo, D., Méndez, M., Boulogne, I., García, R., Durán, R., & others. (2017). Farmacopea vegetal caribeña (Universidad de Cartagena. TRAMIL (ed.); Colombiana). Universidad de Cartagena. TRAMIL.spa
dcterms.referencesGhasemian, A., Ataie-Jafari, A., Khatibzadeh, S., Mirarefin, M., Jafari, L., Nejatinamini, S., Parsaeian, M., Peykari, N., Sobhani, S., Jamshidbeygi, E., Jamshidi, H. R., Ebrahimi, M., Etemad, K., Moradi-Lakeh, M., Larijani, B., & Farzadfar, F. (2014). National and sub-national burden of chronic diseases attributable to lifestyle risk factors in Iran 1990-2013; study protocol. Archives of Iranian Medicine, 17(3).spa
dcterms.referencesGómez-Estrada, H., Díaz-Castillo, F., Franco-Ospina, L., Mercado-Camargo, J., Guzmán-Ledezma, J., Medina, J. D., & Gaitán-Ibarra, R. (2011). Folk medicine in the northern coast of Colombia: an overview. Journal of Ethnobiology and Ethnomedicine, 7. https://doi.org/10.1186/1746-4269-7-27spa
dcterms.referencesGonzález-Stuart, A. (2011). Potential Chemopreventive Effects of Fruits, Vegetables, and Spices Consumed in Mexico. In Nutrients, Dietary Supplements, and Nutriceuticals. https://doi.org/10.1007/978-1-60761-308-4_18spa
dcterms.referencesGreen, L. C., Wagner, D. A., Glogowski, J., Skipper, P. L., Wishnok, J. S., & Tannenbaum, S. R. (1982). Analysis of nitrate, nitrite, and [15N]nitrate in biological fluids. Analytical Biochemistry, 126(1). https://doi.org/10.1016/0003-2697(82)90118-Xspa
dcterms.referencesHassan, H. A., Serag, H. M., Qadir, M. S., & Ramadan, M. F. (2017). Cape gooseberry (Physalis peruviana) juice as a modulator agent for hepatocellular carcinoma-linked apoptosis and cell cycle arrest. Biomedicine and Pharmacotherapy, 94. https://doi.org/10.1016/j.biopha.2017.08.014spa
dcterms.referencesHeber, D. (2004). Vegetables, fruits and phytoestrogens in the prevention of diseases. In Journal of Postgraduate Medicine (Vol. 50, Issue 2).spa
dcterms.referencesHolt, B., Kaviani, N., Sheth, M., & van Driel, M. (2018). Can nurturing the young be the key to tackling chronic diseases in the old? A narrative review with a global perspective. In Ochsner Journal. https://doi.org/10.31486/toj.18.0054spa
dcterms.referencesHou, J. K., Abraham, B., & El-Serag, H. (2011). Dietary intake and risk of developing inflammatory bowel disease: A systematic review of the literature. American Journal of Gastroenterology, 106(4). https://doi.org/10.1038/ajg.2011.44spa
dcterms.referencesIddir, M., Brito, A., Dingeo, G., Del Campo, S. S. F., Samouda, H., La Frano, M. R., & Bohn, T. (2020). Strengthening the immune system and reducing inflammation and oxidative stress through diet and nutrition: Considerations during the covid-19 crisis. In Nutrients (Vol. 12, Issue 6). https://doi.org/10.3390/nu12061562spa
dcterms.referencesJenny P., C., Luis A., F., & Fredyc, D. (2021). Anti-inflammatory screening of plant species from the Colombian Caribbean Coast. Journal of Applied Pharmaceutical Science. https://doi.org/10.7324/japs.2021.110413spa
dcterms.referencesJimenez-Usuga, N. del S., Malafronte, N., Cotugno, R., De Leo, M., Osorio, E., & De Tommasi, N. (2016). New sesquiterpene lactones from Ambrosia cumanensis Kunth. Fitoterapia, 113. https://doi.org/10.1016/j.fitote.2016.07.019spa
dcterms.referencesJohn James Rodríguez-Echeverry, P. (2010). USO Y MANEJO TRADICIONAL DE PLANTAS MEDICINALES Y MÁGICAS EN EL VALLE DE SIBUNDOY, ALTO PUTUMAYO, Y SU RELACIÓN CON PROCESOS LOCALES DE CONSTRUCCIÓN AMBIENTAL. Revista Cientifica, XXXIV(132).spa
dcterms.referencesKhoo, H. E., Azlan, A., Kong, K. W., & Ismail, A. (2016). Phytochemicals and Medicinal Properties of Indigenous Tropical Fruits with Potential for Commercial Development. In Evidence-based Complementary and Alternative Medicine (Vol. 2016). https://doi.org/10.1155/2016/7591951spa
dcterms.referencesKhoo, H. E., Prasad, K. N., Kong, K. W., Jiang, Y., & Ismail, A. (2011). Carotenoids and their isomers: Color pigments in fruits and vegetables. In Molecules (Vol. 16, Issue 2). https://doi.org/10.3390/molecules16021710spa
dcterms.referencesKim, J. J., Shajib, M. S., Manocha, M. M., & Khan, W. I. (2012). Investigating intestinal inflammation in DSS-induced model of IBD. Journal of Visualized Experiments, 60. https://doi.org/10.3791/3678spa
dcterms.referencesKimokoti, R. W., & Millen, B. E. (2016). Nutrition for the Prevention of Chronic Diseases. In Medical Clinics of North America. https://doi.org/10.1016/j.mcna.2016.06.003spa
dcterms.referencesKindscher, K., Long, Q., Corbett, S., Bosnak, K., Loring, H., Cohen, M., & Timmermann, B. N. (2012). The Ethnobotany and Ethnopharmacology of Wild Tomatillos, Physalis longifolia Nutt., and Related Physalis Species: A Review. Economic Botany, 66(3). https://doi.org/10.1007/s12231-012-9210-7spa
dcterms.referencesKingston, D. G. I. (2011). Modern natural products drug discovery and its relevance to biodiversity conservation. In Journal of Natural Products (Vol. 74, Issue 3). https://doi.org/10.1021/np100550tspa
dcterms.referencesKris-Etherton, P. M., Hecker, K. D., Bonanome, A., Coval, S. M., Binkoski, A. E., Hilpert, K. F., Griel, A. E., & Etherton, T. D. (2002). Bioactive compounds in foods: Their role in the prevention of cardiovascular disease and cancer. American Journal of Medicine, 113(9 SUPPL. 2). https://doi.org/10.1016/s0002-9343(01)00995-0spa
dcterms.referencesLi, L., Wang, L., Wu, Z., Yao, L., Wu, Y., Huang, L., Liu, K., Zhou, X., & Gou, D. (2014). Anthocyanin-rich fractions from red raspberries attenuate inflammation in both RAW264.7 macrophages and a mouse model of colitis. Scientific Reports. https://doi.org/10.1038/srep06234spa
dcterms.referencesLi, Y., Zhang, J. J., Xu, D. P., Zhou, T., Zhou, Y., Li, S., & Li, H. Bin. (2016). Bioactivities and health benefits of wild fruits. In International Journal of Molecular Sciences (Vol. 17, Issue 8). https://doi.org/10.3390/ijms17081258spa
dcterms.referencesLiu, R. H. (2013a). Dietary bioactive compounds and their health implications. Journal of Food Science, 78(SUPPL.1). https://doi.org/10.1111/1750-3841.12101spa
dcterms.referencesLiu, R. H. (2013b). Health-promoting components of fruits and vegetables in the diet. Advances in Nutrition, 4(3). https://doi.org/10.3945/an.112.003517spa
dcterms.referencesMedzhitov, R. (2008). Origin and physiological roles of inflammation. In Nature (Vol. 454, Issue 7203, pp. 428–435). Nature Publishing Group. https://doi.org/10.1038/nature07201spa
dcterms.referencesMeetoo, D. (2008). Chronic diseases: the silent global epidemic. In British journal of nursing (Mark Allen Publishing). https://doi.org/10.12968/bjon.2008.17.21.31731spa
dcterms.referencesMejia, N. M., Castro, J. P., Ocampo, Y. C., Salas, R. D., Delporte, C. L., & Franco, L. A. (2020). Evaluation of antioxidant potential and total phenolic content of exotic fruits grown in Colombia. Journal of Applied Pharmaceutical Science, 10(9). https://doi.org/10.7324/JAPS.2020.10906spa
dcterms.referencesMier-Giraldo, H., Díaz-Barrera, L. E., Delgado-Murcia, L. G., Valero-Valdivieso, M. F., & Cáez-Ramírez, G. (2017). Cytotoxic and Immunomodulatory Potential Activity of Physalis peruviana Fruit Extracts on Cervical Cancer (HeLa) and Fibroblast (L929) Cells. Journal of Evidence-Based Complementary and Alternative Medicine, 22(4). https://doi.org/10.1177/2156587217718751spa
dcterms.referencesMinihane, A. M., Vinoy, S., Russell, W. R., Baka, A., Roche, H. M., Tuohy, K. M., Teeling, J. L., Blaak, E. E., Fenech, M., Vauzour, D., McArdle, H. J., Kremer, B. H. A., Sterkman, L., Vafeiadou, K., Benedetti, M. M., Williams, C. M., & Calder, P. C. (2015). Low-grade inflammation, diet composition and health: Current research evidence and its translation. In British Journal of Nutrition. https://doi.org/10.1017/S0007114515002093spa
dcterms.referencesNiu, L., He, X. hua, Wang, Q. wen, Fu, M. yu, Xu, F., Xue, Y., Wang, Z. zhou, & An, X. jiang. (2015). Polyphenols in Regulation of Redox Signaling and Inflammation During Cardiovascular Diseases. Cell Biochemistry and Biophysics, 72(2). https://doi.org/10.1007/s12013-014-0492-5spa
dcterms.referencesOvadje, P., Roma, A., Steckle, M., Nicoletti, L., Arnason, J. T., & Pandey, S. (2015). Advances in the research and development of natural health products as main stream cancer therapeutics. In Evidence-based Complementary and Alternative Medicine (Vol. 2015). https://doi.org/10.1155/2015/751348spa
dcterms.referencesOveissi, V., Ram, M., Bahramsoltani, R., Ebrahimi, F., Rahimi, R., Naseri, R., Belwal, T., Devkota, H. P., Abbasabadi, Z., & Farzaei, M. H. (2019). Medicinal plants and their isolated phytochemicals for the management of chemotherapy-induced neuropathy: therapeutic targets and clinical perspective. In DARU, Journal of Pharmaceutical Sciences (Vol. 27, Issue 1). https://doi.org/10.1007/s40199-019-00255-6spa
dcterms.referencesPalafox-Carlos, H., Ayala-Zavala, J. F., & González-Aguilar, G. A. (2011). The Role of Dietary Fiber in the Bioaccessibility and Bioavailability of Fruit and Vegetable Antioxidants. In Journal of Food Science (Vol. 76, Issue 1). https://doi.org/10.1111/j.1750-3841.2010.01957.spa
dcterms.referencesPan, M. H., Lai, C. S., Dushenkov, S., & Ho, C. T. (2009). Modulation of inflammatory genes by natural dietary bioactive compounds. In Journal of Agricultural and Food Chemistry (Vol. 57, Issue 11). https://doi.org/10.1021/jf900612nspa
dcterms.referencesPan, M. H., Lai, C. S., & Ho, C. T. (2010). Anti-inflammatory activity of natural dietary flavonoids. In Food and Function. https://doi.org/10.1039/c0fo00103aspa
dcterms.referencesPandey, K. B., & Rizvi, S. I. (2009). Plant polyphenols as dietary antioxidants in human health and disease. In Oxidative Medicine and Cellular Longevity (Vol. 2, Issue 5). https://doi.org/10.4161/oxim.2.5.9498spa
dcterms.referencesPareja-Galeano, H., Garatachea, N., & Lucia, A. (2015). Chapter Twenty-One-Exercise as a Polypill for Chronic Diseases. Progress in Molecular Biology and Translational Science, 135.spa
dcterms.referencesPierson, J. T., Dietzgen, R. G., Shaw, P. N., Roberts-Thomson, S. J., Monteith, G. R., & Gidley, M. J. (2012). Major Australian tropical fruits biodiversity: Bioactive compounds and their bioactivities. In Molecular Nutrition and Food Research (Vol. 56, Issue 3). https://doi.org/10.1002/mnfr.201100441spa
dcterms.referencesPino-De la Fuente, F., Nocetti, D., Sacristán, C., Ruiz, P., Guerrero, J., Jorquera, G., Uribe, E., Bucarey, J. L., Espinosa, A., & Puente, L. (2020). Physalis peruviana l. Pulp prevents liver inflammation and insulin resistance in skeletal muscles of diet-induced obese mice. Nutrients, 12(3). https://doi.org/10.3390/nu12030700spa
dcterms.referencesPrasad, S., Sung, B., & Aggarwal, B. B. (2012). Age-associated chronic diseases require age-old medicine: Role of chronic inflammation. In Preventive Medicine. https://doi.org/10.1016/j.ypmed.2011.11.011spa
dcterms.referencesPuente, L. A., Pinto-Muñoz, C. A., Castro, E. S., & Cortés, M. (2011). Physalis peruviana Linnaeus, the multiple properties of a highly functional fruit: A review. In Food Research International (Vol. 44, Issue 7). https://doi.org/10.1016/j.foodres.2010.09.034spa
dcterms.referencesRahman, I. (2008). Dietary polyphenols mediated regulation of oxidative stress and chromatin remodeling in inflammation. Nutrition Reviews, 66(SUPPL.1). https://doi.org/10.1111/j.1753-4887.2008.00067spa
dcterms.referencesRahman, I., Biswas, S. K., & Kirkham, P. A. (2006). Regulation of inflammation and redox signaling by dietary polyphenols. Biochemical Pharmacology, 72(11). https://doi.org/10.1016/j.bcp.2006.07.004spa
dcterms.referencesRamadan, M. F. (2011). Bioactive phytochemicals, nutritional value, and functional properties of cape gooseberry (Physalis peruviana): An overview. In Food Research International (Vol. 44, Issue 7). https://doi.org/10.1016/j.foodres.2010.12.042spa
dcterms.referencesRein, M. J., Renouf, M., Cruz-Hernandez, C., Actis-Goretta, L., Thakkar, S. K., & da Silva Pinto, M. (2013). Bioavailability of bioactive food compounds: A challenging journey to bioefficacy. British Journal of Clinical Pharmacology, 75(3). https://doi.org/10.1111/j.1365-2125.2012.04425spa
dcterms.referencesRengifo-Salgado, E., & Vargas-Arana, G. (2013). Physalis angulata L. (Bolsa mullaca): Revisión de usos tradicionales, química y farmacología. Boletin Latinoamericano y Del Caribe de Plantas Medicinales y Aromaticas, 12(5).spa
dcterms.referencesRivera, D. E., Ocampo, Y. C., Castro, J. P., Barrios, L., Diaz, F., & Franco, L. A. (2019). A screening of plants used in Colombian traditional medicine revealed the anti-inflammatory potential of Physalis angulata calyces. Saudi Journal of Biological Sciences, 26(7). https://doi.org/10.1016/j.sjbs.2018.05.030spa
dcterms.referencesRodríguez Alviz, E., Chepe Guerrero, L. E., & Valencia Cadavid, E. A. (2014). Estudio Etnobotánico de Especies Medicinales Utilizadas por la Comunidad de la Vereda Campo Alegre del Corregimiento De Siberia – Cauca (Colombia). Revista de Ciencias, 17(2). https://doi.org/10.25100/rc.v17i2.485spa
dcterms.referencesRuby, A., Knight, A., Perel, P., Blanchet, K., & Roberts, B. (2015). The effectiveness of interventions for non-communicable diseases in humanitarian crises: A systematic Review. PLoS ONE. https://doi.org/10.1371/journal.pone.0138303spa
dcterms.referencesRuiz-Núñez, B., Pruimboom, L., Dijck-Brouwer, D. A. J., & Muskiet, F. A. J. (2013). Lifestyle and nutritional imbalances associated with Western diseases: Causes and consequences of chronic systemic low-grade inflammation in an evolutionary context. In Journal of Nutritional Biochemistry. https://doi.org/10.1016/j.jnutbio.2013.02.009spa
dcterms.referencesSalaritabar, A., Darvishi, B., HadjiakhoonDi, F., Manayi, A., Sureda, A., Nabavi, S. F., Fitzpatrick, L. R., Nabavi, S. M., & Bishayee, A. (2017). Therapeutic potential of flavonoids in inflammatory bowel Disease: A comprehensive review. In World Journal of Gastroenterology (Vol. 23, Issue 28). https://doi.org/10.3748/wjg.v23.i28.5097spa
dcterms.referencesSantangelo, C., Varì, R., Scazzocchio, B., Di Benedetto, R., Filesi, C., & Masella, R. (2007). Polyphenols, intracellular signalling and inflammation. Annali Dell’Istituto Superiore Di Sanita, 43(4).spa
dcterms.referencesScudiero, D. A., Shoemaker, R. H., Paull, K. D., Monks, A., Tierney, S., Nofziger, T. H., Currens, M. J., Seniff, D., & Boyd, M. R. (1988). Evaluation of a Soluble Tetrazolium/Formazan Assay for Cell Growth and Drug Sensitivity in Culture Using Human and Other Tumor Cell Lines. Cancer Research, 48(17), 4827–4833.spa
dcterms.referencesSen, T., & Samanta, S. K. (2014). Medicinal plants, human health and biodiversity: A broad review. Advances in Biochemical Engineering/Biotechnology, 147. https://doi.org/10.1007/10_2014_273spa
dcterms.referencesSenthilkumar, K., & Kim, S. K. (2013). Marine invertebrate natural products for anti-inflammatory and chronic diseases. In Evidence-based Complementary and Alternative Medicine. https://doi.org/10.1155/2013/572859spa
dcterms.referencesSeyedsadjadi, N., & Grant, R. (2021). The potential benefit of monitoring oxidative stress and inflammation in the prevention of non-communicable diseases (NCDs). In Antioxidants (Vol. 10, Issue 1). https://doi.org/10.3390/antiox10010015spa
dcterms.referencesSharma, P., Patil, D., & Patil, A. (2013). Crataeva tapia linn.-an important medicinal plant: a review of its traditional uses, phytochemistry and pharmacological properties. International Journal of Pharmaceutical Sciences and Research, 4(2), 582.spa
dcterms.referencesShivappa, N., Steck, S. E., Hurley, T. G., Hussey, J. R., & Hébert, J. R. (2014). Designing and developing a literature-derived, population-based dietary inflammatory index. Public Health Nutrition, 17(8). https://doi.org/10.1017/S1368980013002115spa
dcterms.referencesSlavin, J. L., & Lloyd, B. (2012). Health benefits of fruits and vegetables. In Advances in Nutrition (Vol. 3, Issue 4). https://doi.org/10.3945/an.112.002154spa
dcterms.referencesSong, H. Y., Lee, J. A., Ju, S. M., Yoo, K. Y., Won, M. H., Kwon, H. J., Eum, W. S., Jang, S. H., Choi, S. Y., & Park, J. (2008). Topical transduction of superoxide dismutase mediated by HIV-1 Tat protein transduction domain ameliorates 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced inflammation in mice. Biochemical Pharmacology, 75(6), 1348–1357. https://doi.org/10.1016/j.bcp.2007.11.015spa
dcterms.referencesSpooren, C. E. G. M., Pierik, M. J., Zeegers, M. P., Feskens, E. J. M., Masclee, A. A. M., & Jonkers, D. M. A. E. (2013). Review article: The association of diet with onset and relapse in patients with inflammatory bowel disease. In Alimentary Pharmacology and Therapeutics (Vol. 38, Issue 10). https://doi.org/10.1111/apt.12501spa
dcterms.referencesSzostak, W. B., Cybulska, B., Kłosiewicz-Latoszek, L., & Szostak-Wegierek, D. (2013). Primary prevention of cardiovascular disease and other chronic noncommunicable diseases in the centre of attention of the United Nations: Special importance of a prudent diet. In Kardiologia Polska. https://doi.org/10.5603/KP.2013.0058spa
dcterms.referencesTobasura, I. (2006). Una visón integral de la biodiversidad en colombia. In Revista lunazul universidad de Caldas.spa
dcterms.referencesToma, W., Hiruma-Lima, C. A., Guerrero, R. O., & Souza Brito, A. R. M. (2005). Preliminary studies of Mammea americana L. (Guttiferae) bark/latex extract point to an effective antiulcer effect on gastric ulcer models in mice. Phytomedicine, 12(5). https://doi.org/10.1016/j.phymed.2003.06.009spa
dcterms.referencesToscano Gonzalez, J. (2006). Uso tradicional de plantas medicinales en la vereda San Isidro, municipio de San Jose de Pare-BoyacÁ: un estudio preliminar usando tecnicas cuantitativas. Acta Biológica Colombiana, 11(2).spa
dcterms.referencesWagner, K. H., & Brath, H. (2012). A global view on the development of non-communicable diseases. In Preventive Medicine. https://doi.org/10.1016/j.ypmed.2011.11.012spa
dcterms.referencesWu, X., & Schauss, A. G. (2012). Mitigation of inflammation with foods. In Journal of Agricultural and Food Chemistry. https://doi.org/10.1021/jf3007008spa
dcterms.referencesYahia, E. M., & Guttierrez-Orozco, F. (2011). Mamey apple (Mammea americana L.). In Postharvest Biology and Technology of Tropical and Subtropical Fruits: Cocona to Mango. https://doi.org/10.1533/9780857092885.474spa
dcterms.referencesYoon, J. H., & Baek, S. J. (2005). Molecular targets of dietary polyphenols with anti-inflammatory properties. In Yonsei Medical Journal (Vol. 46, Issue 5). https://doi.org/10.3349/ymj.2005.46.5.585spa
dcterms.referencesZanotti, I., Dall’Asta, M., Mena, P., Mele, L., Bruni, R., Ray, S., & Del Rio, D. (2015). Atheroprotective effects of (poly) phenols: A focus on cell cholesterol metabolism. In Food and Function (Vol. 6, Issue 1). https://doi.org/10.1039/c4fo00670dspa
dcterms.referencesZhu, F., Du, B., & Xu, B. (2018). Anti-inflammatory effects of phytochemicals from fruits, vegetables, and food legumes: A review. Critical Reviews in Food Science and Nutrition. https://doi.org/10.1080/10408398.2016.1251390spa
dspace.entity.typePublication
oaire.accessrightshttp://purl.org/coar/access_right/c_abf2spa
oaire.versionhttp://purl.org/coar/version/c_970fb48d4fbd8a85spa

Archivos

Bloque original

Mostrando 1 - 2 de 2
Miniatura
Nombre:
2021-11-27 Tesis doctoral Jenny Castro. ESPAÑOL docx VERSION FINAL.pdf
Tamaño:
3.42 MB
Formato:
Adobe Portable Document Format
Descripción:
Descargar
Miniatura
Nombre:
FO-GR-011_Cesion_de_derechos_de_autor (2).pdf
Tamaño:
240.09 KB
Formato:
Adobe Portable Document Format
Descripción:
Descargar

Bloque de licencias

Mostrando 1 - 1 de 1
Miniatura
Nombre:
license.txt
Tamaño:
1.71 KB
Formato:
Item-specific license agreed upon to submission
Descripción:
Descargar

Colecciones

Ciencias Biomédicas

Datos de Contacto

Imagen Escudo Universidad de Cartagena

 

 

 

Sede: Claustro de San Agustín, Centro Histórico, Calle de la Universidad Cra. 6 #36-100
Colombia, Bolívar, Cartagena
Ver más...

Línea de Atención

Línea Anticorrupción

Síguenos en: