Monitoring of virgin olive oil volatile compounds evolution during olive malaxation by an array of metal oxide sensors

In addition to the sanitary aspects of production and the genetic and/or geographic origin of the drupes olive malaxation is a critical control point of virgin olive oil (VOO) production from a qualitative point of view. In particular the sensory peculiarities of malaxation are determined by the presence of C₆ and C₅ aldehydes and alcohols in the VOO head space due to lipoxygenase activity. On-line monitoring of the evolution of these substances during VOO processing could be very useful for defining the operative conditions of malaxation (i.e. time and temperature) in order to improve the VOO sensory quality according to product type.     

Recent progress in understanding the persistent luminescence in SrAl2O4:Eu,Dy

Ever since the discovery of SrAl₂O₄:Eu,Dy persistent afterglow material, that can intensively glow up to 20?h, the mechanism of long-lasting luminescence has been a popular area of research. The research is focused on discovering the mechanism of persistent luminescence in order to prolong the duration and intensity of afterglow in a controlled way. Although most researchers agree on the general things, there are still many unclarities and ambiguities to discuss upon. This review paper briefly sketches in the highlights of past research on the luminescence mechanism in SrAl₂O₄:Eu,Dy, mainly focusing on the research conducted in the past decade dedicated to clearing these ambiguities. This paper provides an overview of the latest persistent luminescence mechanisms offered by researchers.     

Ultrastructural modifications of cell membranes induced by "electroporation" on melanoma xenografts

Electroporation (EP) has been widely employed in the past years as a safe and effective technique to drive drugs and DNA plasmids into target cells both for experimental and therapeutic purposes. Despite the large bulk of literature on this topic, often describing successful outcomes, there is a lack of knowledge about the intimate mechanism(s) controlling this phenomenon. In this paper, we describe a number of ultrastructural alterations in the cellular membranes following the exposure of orthotopic melanomas and red blood cells to trains of biphasic pulses. Specifically, melanoma xenografts grown in nude mice were subject to trains of eight biphasic pulses using an electric field of 1250 or 2450 V/cm, excised after 5 min and processed for electron microscopy. The freeze-fracturing analysis of both cell types evidenced defects in the dynamic assembly of lipids and proteins, which generate "areas with rough structure" and intensive clustering of intramembrane proteins. Such modifications could be the hallmarks of lipid and protein alterations, of protein cohesion reduction, and of changes in lipid orientation inside cell membranes, as postulated in several mathematical models applied to electroporation, and warrant further investigations.     

Dental Mesenchymal Stem Cell Secretome: An Intriguing Approach for Neuroprotection and Neuroregeneration

Mesenchymal stem cells (MSCs) are known for their beneficial effects and regenerative potential. In particular, dental-derived MSCs have the advantage of easier accessibility and a non-invasive isolation method. Moreover, thanks to their neural crest origin, dental MSCs seem to have a more prominent neuroregenerative potential. Indeed, in basal conditions they also express neuronal markers. However, it is now well known that the beneficial actions of MSCs depend, at least in part, on their secretome, referring to all the bioactive molecules released in the conditioned medium (CM) or in extracellular vesicles (EVs). In this review we focus on the applications of the secretome derived from dental MSCs for neuroregeneration and neuroprotection. The secretomes of different dental MSCs have been tested for their effects for neuroregenerative purposes, and the secretomes of dental pulp stem cells and stem cells from human exfoliated deciduous teeth are the most studied. Both the CM and EVs obtained from dental MSCs showed that they are able to promote neurite outgrowth and neuroprotective effects. Interestingly, dental-derived MSC secretome showed stronger neuroregenerative and neuroprotective effects compared to that obtained from other MSC sources. For these reasons, the secretome obtained from dental MSCs may represent a promising approach for neuroprotective treatments.