Hydrocotyle bonariensis para Estrés oxidativo
Hydrocotyle bonariensis — 10 estudios científicos revisados
Preliminary¿Sirve Hydrocotyle bonariensis para estrés oxidativo?
La planta es rica en compuestos fenólicos y flavonoides que actúan como antioxidantes, ayudando a neutralizar radicales libres [PMID 37599849].
Compuestos activos involucrados: Fenoles, Flavonoides, Lípido, Terpenos, ácidos grasos
Evidencia Científica
Los siguientes estudios han investigado la relación entre Hydrocotyle bonariensis y estrés oxidativo:
Discrimination of three Pegaga (Centella) varieties and determination of growth-lighting effects on metabolites content based on the chemometry of 1H nuclear magnetic resonance spectroscopy.
The metabolites of three species of Apiaceae, also known as Pegaga, were analyzed utilizing (1)H NMR spectroscopy and multivariate data analysis. Principal component analysis (PCA) and hierarchical cluster analysis (HCA) resolved the species, Centella asiatica, Hydrocotyle bonariensis, and Hydrocotyle sibthorpioides, into three clusters. The saponins, asiaticoside and madecassoside, along with chlorogenic acids were the metabolites that contributed most to the separation. Furthermore, the effects of growth-lighting condition to metabolite contents were also investigated. The extracts of C.
PubMed: 22084897A review of Hydrocotyle bonariensis, a promising functional food and source of health-related phytochemicals.
Hydrocotyle bonariensis is an edible herb, that is also used for traditional medical purposes. It is high in antioxidants, phenols, and flavonoids. However, there is limited information on the nutritional composition and the mechanisms by which nutritional and functional constituents of H. bonariensis affect human metabolism. With an aim to identify gaps in evidence to support the mainstream use of H.
PubMed: 37599849In vitro inhibitory effect of Hydrocotyle bonariensis Lam. extracts over Chlamydia trachomatis and Chlamydia pneumoniae on different stages of the chlamydial life cycle.
Chlamydial infections in humans are widely distributed and are responsible for a variety of acute and chronic diseases. Both Chlamydia trachomatis and Chlamydia pneumoniae can lead to chronic conditions that have been linked to complications and sequelae. This study aimed to develop a culture method in order to detect in vitro antichlamydial activity of different extracts obtained from native Argentinian plants used as antimicrobials in local ethnomedicine and to evaluate their inhibitory activity over Chlamydia trachomatis and Chlamydia pneumoniae growth. The inhibitory activity over differen
PubMed: 34041379Nitrogen translocation in a clonal dune perennial, Hydrocotyle bonariensis.
Hydrocotyle bonariensis, a common rhizomatous perennial of coastal North Carolina, forms extensive clones in dune systems characterized by a patchy nitrogen distribution. An experiment was conducted in which Hydrocotyle clones were grown across artificially created soil nitrogen gradients to determine: (1) the effect of soil nitrogen availability and nitrogen translocation on clonal structure and (2) the costs versus benefits of nitrogen translocation as measured by sexual and clonal reproduction. Acropetal translocation of nitrogen resulted in highly significant benefits to clones growing fro
PubMed: 28312316The effect of resource integration on fitness related traits in a clonal dune perennial, Hydrocotyle bonariensis.
The costs and benefits of resource integration in Hydrocotyle bonariensis were examined by comparing severed and intact clones grown across multiple resource gradients. Basipetal movement of water, nitrogen and photosynthates was demonstrated to occur between two rhizome branch systems interconnecting hundreds of ramets within a clone. Hydrocotyle clones of this size and larger have been shown to span highly patchy and unpredictable resource conditions in coastal dune environments. The extensive movement of water and nitrogen to portions of a clone deficient in these resources, resulted in a s
PubMed: 28313210Contexto Científico
En primer lugar, un estudio de revisión exhaustiva [PMID 37599849] analizó el valor nutricional y funcional de la planta, concluyendo que es una fuente prometedora de alimentos funcionales debido a su alto contenido de antioxidantes y compuestos fenólicos. En cuarto lugar, las investigaciones de caracterización química mediante 1H-NMR han permitido identificar que los extractos contienen componentes como cerebrosidos y fitoesteroles, lo que respalda la complejidad de su perfil lipídico.
Seguridad y Precauciones
La seguridad en el uso de Hydrocotyle bonariensis es un área que requiere extrema precaución debido a la escasez de ensayos clínicos en humanos. En relación con el embarazo y la lactancia, no existe evidencia científica que determine la seguridad de su consumo; por tanto, se desaconseja su uso en mujeres gestantes o lactantes. La falta de estudios sobre su potencial teratogénico (capacidad de causar malformaciones fetales) o su transferencia a través de la leche materna hace que el riesgo sea considerado alto por precaución. Respecto a la población pediátrica, el uso en niños menores de 12 años no está indicado, ya que sus sistemas metabólicos y renales en desarrollo no han sido evaluados frente a los compuestos fitoquímicos de la planta, como los triterpenos y fenoles presentes. En cuanto a interacciones farmacológicas, el estudio [PMID 36212942] demuestra que el extracto tiene un efecto cardiomodulador, reduciendo la frecuencia cardíaca y afectando la corriente de marcapasos cardíaco (If). Esto implica un riesgo crítico de interacción con fármacos antihipertensivos (como betabloqueantes o inhibidores de los canales de calcio) y medicamentos para la insuficiencia cardíaca, pudiendo potenciar excesivamente la bradicardia (ritmo cardíaco peligrosamente bajo).
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Otras plantas estudiadas para Estrés oxidativo
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