Beta para Protección hepática (Reducción de daño)
Beta vulgaris — 6 estudios científicos revisados
Moderate¿Sirve Beta para protección hepática (reducción de daño)?
Según estudios en modelos animales, los compuestos de la acelga pueden ayudar a mitigar la toxicidad hepática inducida por ciertos fármacos mediante actividad antioxidante.
Compuestos activos involucrados: Betanidina, Fenoles, Flavonoides, Geosmina, Indicaxantina, Polifenoles, Compuestos fenólicos
Evidencia Científica
Los siguientes estudios han investigado la relación entre Beta y protección hepática (reducción de daño):
Beta vulgaris mitovirus 1 in diverse cultivars of beet and chard.
Recent results indicate that mitoviruses, which replicate persistently in host mitochondria, are not restricted to fungi, but instead are found also in plants. Beta vulgaris mitovirus 1 (BevuMV1) is an example first discovered in sugar beet cultivars. For the current study, complete coding sequences of 42 BevuMV1 strains were newly determined, derived from not only sugar beet but also fodder beet, table beet, and Swiss chard cultivars of Beta vulgaris, as well as wild sea beet. BevuMV1 is thus a common phytobiome component of this valuable crop species. Most of the new BevuMV1 sequences origin
PubMed: 30853586Genomes of the wild beets Beta patula and Beta vulgaris ssp. maritima.
We present draft genome assemblies of Beta patula, a critically endangered wild beet endemic to the Madeira archipelago, and of the closely related Beta vulgaris ssp. maritima (sea beet). Evidence-based reference gene sets for B. patula and sea beet were generated, consisting of 25 127 and 27 662 genes, respectively. The genomes and gene sets of the two wild beets were compared with their cultivated sister taxon B.
PubMed: 31104348Production of Doubled Haploid Sugar Beet (Beta vulgaris L.) Plants Through Gynogenesis.
Haploid and doubled haploid plant production through unpollinated ovule culture, with diverse benefits and applications, is considered among the most effective and advantageous breeding method for sugar beet (Beta vulgaris L.). It is known that sugar beet is not responsive to androgenesis, which is widely used for most plant species. Sugar beet is a recalcitrant plant in vitro due to the very low spontaneous chromosome doubling and low gynogenesis rate. Thus, a steadily increasing gynogenesis efficiency has always been an important target for an efficient sugar beet breeding program. Given the
PubMed: 34270080Study of interleukin-1 beta expression in acne vulgaris and acne scars.
BACKGROUND: Acne vulgaris is a multifactorial disease that mostly heals by scarring. Interleukin-1 beta (IL-1β) is a proinflammatory cytokine, suggested to play a key role in acne pathogenesis. OBJECTIVE: To study the immunohistochemical (IHC) expression of IL1β in acne vulgaris and acne scars to evaluate its possible role in their pathogenesis and to study the relation between the expression of IL1β and the clinicopathological parameters. PATIENTS AND METHODS: This study was conducted on sixty subjects (twenty patients with acne vulgaris and twenty patients with acne scars), and twenty health
PubMed: 35174608Bioactive potential of beetroot (Beta vulgaris).
Beetroot (Beta vulgaris) is the most well-known and commonly cultivated fruit from the Chenopodiaceae family. Beetroot is a rich source of nutrients including vitamins (B complex and C), minerals, fibre, proteins, and a variety of bioactive phenolic substances, which are chiefly composed of betalains, and other components possessing antioxidant activity, such as coumarins, carotenoids, sesquiterpenoids, triterpenes, and flavonoids (astragalin, tiliroside, rhamnocitrin, kaempferol, rhamnetin). Beetroot and its value-added products provide a variety of health advantages and may help prevent and
PubMed: 35840248Seguridad y Precauciones
El consumo de Beta vulgaris (remolacha y acelga) debe abordarse con precaución en poblaciones específicas debido a su densidad nutricional y composición química. En el caso de mujeres embarazadas y en periodo de lactancia, aunque el consumo de la planta como alimento es generalmente seguro y aporta micronutrientes esenciales, se debe vigilar la ingesta de nitratos naturales. Los nitratos pueden convertirse en nitritos en el cuerpo, lo que en concentraciones elevadas podría teóricamente afectar el transporte de oxígeno en la sangre (metahemoglobinemia), aunque esto es poco común en dietas equilibradas. No existen datos concluyentes que prohíban su uso, pero se recomienda la moderación. Para niños menores de 12 años, la precaucción radica en la alta concentración de fibra y ciertos compuestos que podrían interferir con la absorción de otros minerales esenciales si se consumen en cantidades excesivas. La dosis máxima recomendada no está estandarizada en la literatura clínica para uso terapéutico, pero en contextos de suplementación, se debe evitar el exceso para prevenir malestar gastrointestinal.
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