Active packaging for fresh food based on the release of carvacrol and thymol

Active packaging is becoming an emerging food technology to improve quality and safety of food products. One of the most common approaches is based on the release of antioxidant/antimicrobial compounds from the packaging material. In this work an antifungal active packaging system based on the release of carvacrol and thymol was optimized to increase the post-harvest shelf life of fresh strawberries and bread during storage. Thermal properties of the developed packaging material were determined by differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA). Volatile compounds in food samples contained in active packaging systems were monitored by using headspace solid phase microextraction followed by gas chromatography analysis (HS-SPME-GC-MS) at controlled conditions. The obtained results provided evidences that exposure to carvacrol and thymol is an effective way to enlarge the quality of strawberries and bread samples during distribution and sale.

Carvacrol and thymol for fresh food packaging

Active packaging is becoming an emerging food technology to improve quality and safety of food products. One of the most common approaches is based on the release of antioxidant/antimicrobial compounds from the packaging material. In this work an antifungal active packaging system based on the release of carvacrol and thymol was optimized to increase the post-harvest shelf life of fresh strawberries and bread during storage. Thermal properties of the developed packaging material were determined by differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA). Volatile compounds in food samples contained in active packaging systems were monitored by using headspace solid phase microextraction followed by gas chromatography analysis (HS-SPMEGC-MS) at controlled conditions. The obtained results provided evidences that exposure to carvacrol and thymol is an effective way to enlarge the quality of strawberries and bread samples during distribution and sale.

Antecedentes históricos de la actividad dietética en España: los trabajos del Laboratorio de Higiene de la Alimentación de la Escuela Nacional de Sanidad (1932-1936)

Se analiza la actividad dietética desarrollada por la Escuela Nacional de Sanidad entre 1932 y 1936. Como principal fuente de información se han utilizado los trabajos publicados por el personal adscrito a su Laboratorio de Higiene de la Alimentación. Con el objeto de poder confeccionar regímenes dietéticos adaptados a la realidad española, se pretendía investigar la composición química (agua, fécula, proteínas, grasa y sales minerales) de los alimentos españoles y su contenido vitamínico. Se estudiaron, siguiendo las recomendaciones y los criterios de los organismos internacionales, algunos de los productos de consumo más frecuente, como aceite de oliva, patatas, tomates frescos y en lata, fresa, fresón, peras, ciruelas e higo chumbo, además de algunas conservas. Los resultados obtenidos ponían de manifiesto las diferencias que existían con los datos ofrecidos por autores extranjeros, entre las que destacaba la mayor riqueza vitamínica de productos como el aceite de oliva andaluz o el tomate fresco valenciano. Estas diferencias se atribuían al factor geoclimático. También se estudiaron, en el caso del cocido, la paella y la yema de huevo, las modificaciones que podían producir los procesos culinarios en la composición de los alimentos empleados.

Stabilizing and Modulating Color by Copigmentation: Insights from Theory and Experiment

Natural anthocyanin pigments/dyes and phenolic copigments/co-dyes form noncovalent complexes, which stabilize and modulate (in particular blue, violet, and red) colors in flowers, berries, and food products derived from them (including wines, jams, purees, and syrups). This noncovalent association and their electronic and optical implications constitute the copigmentation phenomenon. Over the past decade, experimental and theoretical studies have enabled a molecular understanding of copigmentation. This review revisits this phenomenon to provide a comprehensive description of the nature of binding (the dispersion and electrostatic components of π–π stacking, the hydrophobic effect, and possible hydrogen-bonding between pigment and copigment) and of spectral modifications occurring in copigmentation complexes, in which charge transfer plays an important role. Particular attention is paid to applications of copigmentation in food chemistry.