Putative mechanism of a multivitamin treatment against insulin resistance.

Insulin resistance is caused by the abnormal secretion of proinflammatory cytokines in adipose tissue, which is induced by an increase in lipid accumulation in adipocytes, hepatocytes, and myocytes. The inflammatory pathway involves multiple targets such as nuclear factor kappa B, inhibitor of nuclear factor κ-B kinase, and mitogen-activated protein kinase. Vitamins are micronutrients with anti-inflammatory activities that have unclear mechanisms. The present study aimed to describe the putative mechanisms of vitamins involved in the inflammatory pathway of insulin resistance. The strategy to achieve this goal was to integrate data mining and analysis, target prediction, and molecular docking simulation calculations to support our hypotheses. Our results suggest that the multitarget activity of vitamins A, B1, B2, B3, B5, B6, B7, B12, C, D3, and E inhibits nuclear factor kappa B and mitogen-activated protein kinase, in addition to vitamins A and B12 against inhibitor of nuclear factor κ-B kinase. The findings of this study highlight the pharmacological potential of using an anti-inflammatory and multitarget treatment based on vitamins and open new perspectives to evaluate the inhibitory activity of vitamins against nuclear factor kappa B, mitogen-activated protein kinase, and inhibitor of nuclear factor κ-B kinase in an insulin-resistant context.

[Effect of a multivitamin on insulin resistance, inflammation, and oxidative stress in a Wistar rat model of induced obesity]. / Efecto de un multivitamínico sobre la resistencia a la insulina, inflamación y estrés oxidante en un modelo de obesidad inducida en ratas Wistar.

Introduction: Introduction: excessive accumulation of adipose tissue is accompanied by alterations in the inflammatory state and increased oxidative stress, and these variables are associated with insulin resistance and increased glucose and insulin levels. On the other hand, vitamins and minerals reinforce the antioxidant and inflammatory capacity, for this reasons we propose that they could contribute to the control of insulin resistance, glucose and lipid metabolism in a rat model of obesity. Objective: to analyze the effect of a multivitamin supplement on markers of insulin resistance, inflammation, and oxidative stress in obese rats on a cafeteria diet. Methods: thirty-five 28-day-old male Wistar rats were randomly divided into four groups: 1, standard diet control; 2, standard diet plus multivitamin; 3, obese on a cafeteria diet; and 4, obese on a cafeteria diet plus multivitamin. After the treatments, glucose levels, HbA1c, insulin, TNF-α, IL-6, oxidative stress and lipid profile were analyzed by colorimetric methods, as well as the percentage of adipose tissue, Homeostasis Model Assessment (HOMA) index y Quantitative Insulin Sensitivity Check Index (QUICKI). Results: multivitamin supplementation significantly decreased visceral adipose tissue, HOMA index, glucose, HbA1c, oxidant stress, and inflammatory markers in the obese plus multivitamin rat group, compared with the obese cafeteria diet rat group and the standard diet rat control group. However, the group that was administered only the multivitamin without the cafeteria diet had increased levels of total adipose tissue, glucose, and oxidative stress, as well as the QUICKI index relative to the control group with the standard diet. Conclusion: co-administration of a multivitamin supplement may improve insulin sensitivity, glucose metabolism and lipid profile; strengthen antioxidant status; and decrease inflammation during weight gain. However, it was not expected that added sugars in multivitamin supplement can also increase total adipose tissue, oxidative stress and glucose levels, so it is suggested to use sugar-free multivitamins in the future.

Introducción: Introducción: la acumulación excesiva de tejido adiposo se acompaña de alteraciones en el estado inflamatorio y aumento del estrés oxidativo, variables que se asocian con la resistencia a la insulina e incremento en los niveles de glucosa e insulina. las vitaminas y minerales refuerzan la capacidad antioxidante e inflamatoria, por lo que planteamos que podrían coadyuvar en el control de resistencia a la insulina y en el metabolismo de la glucosa y lípidos en un modelo de obesidad en rata. Objetivo: analizar el efecto de un suplemento multivitamínico sobre marcadores de resistencia a la insulina, inflamación y estrés oxidativo en ratas obesas con dieta de cafetería. Métodos: se dividieron aleatoriamente 35 ratas macho Wistar de 28 días de edad en cuatro grupos: 1, control dieta estándar; 2, dieta estándar más multivitamínico; 3, obesas con dieta de cafetería; y 4, obesas con dieta de cafetería más multivitamínico. Después de los tratamientos se analizaron los niveles de glucosa, HbA1c, insulina, TNF-α, IL-6, estrés oxidativo y perfil de lípidos por métodos colorimétricos, así como el porcentaje de tejido adiposo y los índices Homeostasis Model Assessment (HOMA) y Quantitative Insulin Sensitivity Check Index (QUICKI). Resultados: el suplemento multivitamínico disminuyó significativamente el tejido adiposo visceral, el índice HOMA, la glucosa, la HbA1c, el estrés oxidante y los marcadores inflamatorios en el grupo obeso más multivitamínico, en comparación con el grupo obeso con dieta de cafetería y el grupo control con dieta estándar. Sin embargo, en el grupo al que se le administró solo el multivitamínico sin dieta de cafetería aumentaron sus niveles de tejido adiposo total, glucosa y estrés oxidativo, así como el índice QUICKI con relación al grupo control con dieta estándar. Conclusión: la coadministración de un suplemento multivitamínico puede mejorar la sensibilidad a la insulina, el metabolismo de glucosa y el perfil de lípidos; fortalecer el estado antioxidante; y disminuir la inflamación durante el incremento de peso. Sin embargo, no se esperaba que los azúcares añadidos en el suplemento multivitamínico también pueden incrementar el tejido adiposo total y los niveles de estrés oxidativo y glucosa, por lo que se sugiere a futuro utilizar multivitamínicos libres de azúcares.

Effect of Blackberry Juice Consumption by Pregnant Rats on Brain Length and Cell Density of Dentate Gyrus in Male Wistar Pups.

The aim of this work was to evaluate the effect of blackberry juice consumption during pregnancy on the length of the brain, as well as on the cell density of the dentate gyrus in Wistar rat pups. Pregnant rats were divided into three groups: control (C), fed with standard diet and water ad libitum; BJ1, which received blackberry juice containing polyphenols (7.8 mg/kg) and anthocyanins (1.9 mg/kg); and BJ2, receiving blackberry juice containing polyphenols (9.3 mg/kg) and anthocyanins (3.54 mg/kg). On postnatal day 0, pups per litter, body weight, and length were measured, and cells in the dentate gyrus of male pups were quantified. Maternal body weight and pups per litter were statistically equal across experimental groups during pregnancy. Pups in BJ1 and BJ2 groups showed an increase in body weight (20%) and length (5%) when comparing to controls. An increase in brain length was observed in BJ2 group (8%) as compared to the control. A significant increase in the number of cells/mm2 was observed in the dentate gyrus of the offspring in BJ1 (21.8%) and BJ2 (23.7%) groups when compared to the control group. Given the above, blackberry juice may be considered a potential functional food during pregnancy, while further research on prenatal and postnatal development must be done.

Efecto de un multivitamínico sobre la resistencia a la insulina, inflamación y estrés oxidante en un modelo de obesidad inducida en ratas Wistar / Effect of a multivitamin on insulin resistance, inflammation, and oxidative stress in a Wistar rat model of induced obesity

Introducción: la acumulación excesiva de tejido adiposo se acompaña de alteraciones en el estado inflamatorio y aumento del estrés oxidativo, variables que se asocian con la resistencia a la insulina e incremento en los niveles de glucosa e insulina. las vitaminas y minerales refuerzan la capacidad antioxidante e inflamatoria, por lo que planteamos que podrían coadyuvar en el control de resistencia a la insulina y en el metabolismo de la glucosa y lípidos en un modelo de obesidad en rata. Objetivo: analizar el efecto de un suplemento multivitamínico sobre marcadores de resistencia a la insulina, inflamación y estrés oxidativo en ratas obesas con dieta de cafetería. Métodos: se dividieron aleatoriamente 35 ratas macho Wistar de 28 días de edad en cuatro grupos: 1, control dieta estándar; 2, dieta estándar más multivitamínico; 3, obesas con dieta de cafetería; y 4, obesas con dieta de cafetería más multivitamínico. Después de los tratamientos se analizaron los niveles de glucosa, HbA1c, insulina, TNF-α, IL-6, estrés oxidativo y perfil de lípidos por métodos colorimétricos, así como el porcentaje de tejido adiposo y los índices Homeostasis Model Assessment (HOMA) y Quantitative Insulin Sensitivity Check Index (QUICKI). Resultados: el suplemento multivitamínico disminuyó significativamente el tejido adiposo visceral, el índice HOMA, la glucosa, la HbA1c, el estrés oxidante y los marcadores inflamatorios en el grupo obeso más multivitamínico, en comparación con el grupo obeso con dieta de cafetería y el grupo control con dieta estándar. Sin embargo, en el grupo al que se le administró solo el multivitamínico sin dieta de cafetería aumentaron sus niveles de tejido adiposo total, glucosa y estrés oxidativo, así como el índice QUICKI con relación al grupo control con dieta estándar. (AU)

Introduction: excessive accumulation of adipose tissue is accompanied by alterations in the inflammatory state and increased oxidative stress, and these variables are associated with insulin resistance and increased glucose and insulin levels. On the other hand, vitamins and minerals reinforce the antioxidant and inflammatory capacity, for this reasons we propose that they could contribute to the control of insulin resistance, glucose and lipid metabolism in a rat model of obesity. Objective: to analyze the effect of a multivitamin supplement on markers of insulin resistance, inflammation, and oxidative stress in obese rats on a cafeteria diet. Methods: thirty-five 28-day-old male Wistar rats were randomly divided into four groups: 1, standard diet control; 2, standard diet plus multivitamin; 3, obese on a cafeteria diet; and 4, obese on a cafeteria diet plus multivitamin. After the treatments, glucose levels, HbA1c, insulin, TNF-α, IL-6, oxidative stress and lipid profile were analyzed by colorimetric methods, as well as the percentage of adipose tissue, Homeostasis Model Assessment (HOMA) index y Quantitative Insulin Sensitivity Check Index (QUICKI). Results: multivitamin supplementation significantly decreased visceral adipose tissue, HOMA index, glucose, HbA1c, oxidant stress, and inflammatory markers in the obese plus multivitamin rat group, compared with the obese cafeteria diet rat group and the standard diet rat control group. However, the group that was administered only the multivitamin without the cafeteria diet had increased levels of total adipose tissue, glucose, and oxidative stress, as well as the QUICKI index relative to the control group with the standard diet. (AU)

El confinamiento por COVID-19 modifica los estilos de vida saludables en adultos: Una revisión sistemática / Confinement due to COVID-19 modifies healthy lifestyles in adults: A systematic review

Resumen Objetivo: Analizar las evidencias científicas sobre los cambios ocurridos en los estilos de vida saludables asociados al confinamiento por COVID-19 en población adulta de 19 a 59 años. Materiales y métodos: Se realizó una revisión sistemática siguiendo los criterios de la guía PRISMA durante el período de búsqueda de marzo de 2020 a febrero de 2022 en las bases de datos PubMed, Google académico y Cochrane usando las palabras clave "COVID-19, lifestyles, obesity, confinement, quarantine" previamente validadas en MeSH del NCBI y DeCs. Resultados: La búsqueda en las bases de datos de PUBMED, google académico y Cochrane arrojó un total de 702 artículos, tras eliminar los artículos duplicados, se recuperaron 94 artículos, después del primer y segundo cribado se excluyeron 45 artículos, trabajando finalmente con 49 artículos. La evidencia muestra que el confinamiento modificó negativamente los estilos de vida saludables favoreciendo conductas como sedentarismo, asociado a mayor tiempo en el uso de dispositivos electrónicos. Además, incrementó el consumo de alimentos hipercalóricos, la ingesta de alimentos poco saludables entre comidas, raciones más grandes e incrementó en el número de comidas al día, aunado a la disminución en la actividad física, el incremento del consumo de alcohol y cigarros factores que influyeron en el desarrollo de sobrepeso y obesidad. Conclusiones: Las evidencias muestran cambios negativos en los estilos de vida saludables que se asociaron con sobrepeso y obesidad durante el confinamiento por COVID-19, ante este panorama se requieren de estrategias de intervención integrales basados en programas de nutrición saludable y activación física con la finalidad de disminuir o revertir los efectos causados por el confinamiento.

Abstract Objective: To analyze the scientific evidence on the changes that have occurred in healthy lifestyles associated with confinement by COVID-19 in the adult population between 19 and 59 years of age. Materials and methods: A systematic review was carried out following the criteria of the PRISMA guide during the search period from March 2020 to February 2022 in the PubMed, Google Scholar, and Cochrane databases using the keywords COVID-19, healthy lifestyles, obesity, overweight, confinement, quarantine, lockdown, previously validated in NCBI MeSH and DeCs. Results: The search in the PUBMED, Google Scholar, and Cochrane databases yielded a total of 702 articles. After eliminating duplicate articles, 94 articles were recovered. After the first and second screening, 45 articles were excluded, finally working with 49 articles. Evidence shows that confinement negatively modified healthy lifestyles, favoring behaviors such as a sedentary lifestyle, associated with longer use of electronic devices. In addition, there was an increase in the consumption of hypercaloric foods, the intake of unhealthy foods between meals, larger portions, and an increase in the number of meals per day, together with a decrease in physical activity, an increase in the consumption of alcohol and cigarettes, factors that influenced the development of overweight and obesity. Conclusions: The evidence shows negative changes in healthy lifestyles that were associated with overweight and obesity during the confinement by COVID-19, in view of this panorama, comprehensive intervention strategies are required based on healthy nutrition programs and physical activation with the purpose of to reduce or reverse the effects caused by confinement.