Aspectos nutricionales y fisioquímicos de Ilex Laurina Kunth (Aquifoliaceae): un estudio comparativo con Ilex paraguariensis / Nutricional and Physicochemical aspects of Ilex laurina Kunth (Aquifoliaceae): A Comparative Study with Ilex Paraguariensis

Resumen Antecedentes: la Ilex laurina K., planta colombiana cuya infusión presenta actividad antioxidante y antiproliferativa, pertenece al género del té de yerba mate. Objetivo: evaluar las propiedades nutricionales y fisicoquímicas de una infusión de hojas de Ilex laurina K. como potencial materia prima, alimento funcional y sustituyente del convencional té de mate Ilex paraguariensis. Materiales y métodos: análisis por HPLC de fitoquímicos y carbohidratos, solubilidad, medición de minerales por espectrofotometría de absorción atómica y análisis sensorial. Resultados: en la infusión de Ilex laurina K. en comparación con la de Ilex paraguariensis se encontraron mayores concentraciones de ácido clorogénico (429,2±20,2 frente a47,4±1,9 mg/kg), de p-cumárico (47,3±2,4 versus 24,4±0,9 mg/kg), de metilxantinas (1,4-1,8 veces), hierro, cobre y zinc, y similares de ácido cafeico (52,6±18,8 versus 47,4±1,9 mg/L) (p>0,05). Se detectaron ácido ferúlico (21,5±1,6 mg/L) y fructosa (0,4±0,003 g/L), mientras en la de Ilex paraguariensis se encontró glucosa (0,8±0,007 g/L) y mayores concentraciones de magnesio y manganeso (p<0,05). La infusión de Ilex laurina K. fue aceptada por el 64 % de los consumidores, independiente del sexo; así como el color (51 %), olor (47 %), sabor (42 %) y dulzor (47 %). Conclusiones: la infusión de Ilex laurina K. además de tener buena aceptación contiene mayor cantidad de compuestos fenólicos, metilxantinas, hierro, cobre, zinc y fructosa que la de Ilex paraguariensis; y menor aporte de glucosa, magnesio y manganeso.

Abstract Background: Ilex laurina K., a Colombian plant whose infusion presents antioxidant and antiproliferative properties, belongs to a species of Yerba Mate tea. Objective: Evaluate the nutritional and physiochemical properties of an infusion using Ilex laurina K. leaves as a potential raw material, functional food and substitute for the conventional Ilex paraguariensis tea. Objective: To evaluate the nutritional and physiochemical properties of an infusion using Ilex laurina K. leaves as a potential raw material, functional food and substitute for the conventional Ilex paraguariensis tea. Materials and Methods: Phytochemicals and carbohydrates by HPLC analysis, solubility, mineral measurement using atomic absorption spectrophotometry, and sensorial analysis. Results: The Ilex laurina K. infusión compared with Ilex paraguariensis infusion found higher concentrations of chlorogenic acid (429.2 ± 20.2 versus 47.4 ± 1.9 mg / kg), p-coumaric (47.3 ± 2.4 versus 24.4 ± 0.9 mg / kg), xanthines (1.4-1.8 times), iron, copper, zinc, and the likes of caffeic acid (52.6 ± 18.8 versus 47.4 ± 1.9 mg / L) (p> 0.05). Ferulic acid (21.5 ± 1.6 mg / L) and fructose (0.4 ± 0.003 g / L) were detected, while glucose (0.8 ± 0.007 g / L) and higher concentrations of magnesium and manganese (p<0.05) we found in the Ilex paraguariensis. Ilex laurina K. infusion was accepted by 64% of consumers, regardless of gender; and respective acceptability of the following characteristics: color (51%), smell (47%), flavor (42%) and sweetness (47%). Conclusions: Ilex laurina K. infusion is well accepted by consumers, and contains a higher concentration of phenol compounds, xanthines, iron, copper, zinc and fructose than Ilex paraguariensis infusion, and contributes less glucose, magnesium and manganese.

Erosive effect of energy drinks alone and mixed with alcohol on human enamel surface: an in vitro study

Objective: to assess the erosive effect of energy drinks (ED) alone and mixed with alcohol on the human enamel surface in vitro. Methods: Twenty non-erupted human third molars were vertically sectioned in half. Specimens were exposed to 5mL of ED plus 5mL of artificial saliva or 5mL of ED plus 5mL of artificial saliva plus 5mL of alcohol (Pisco). Exposure times were set at 30min and 60min. Erosive assessments were made using scanning electron microscopy (SEM) and energy-dispersive x-ray spectroscopy (EDS). The ED analyzed were Mr. Big, Kem Extreme, Red Bull, and Monster Energy. ED pH measurements were performed at 25°C and titration was done with NaOH 0.1mol/L. Results: The pH ranges were: ED alone 2.55 to 3.46, ED mixed with artificial saliva 2.60 to 3.55, ED mixed with Pisco 2.82 to 3.70, and ED mixed with both 2.92 to 3.86. The pH of Pisco was 6.13, and Pisco mixed with artificial saliva had a pH of 6.23. Titration showed a pH range from 3.5 to 5.7. SEM-EDS analysis showed that Mr. Big and Monster led to clear demineralization at 30 min and remineralization at 60m in. Pisco slightly decreased the erosive effect of these ED. Kem Xtreme and Red Bull led to no demineralization in the first hour. Conclusion: According to the pH, acidity and EDS analysis, the ED of the present study likely caused enamel erosion in human teeth surface dependent on exposure time.