2,362 research outputs found
Analysis of food supplement with unusual raspberry ketone content
In recent years food supplement market increased constantly, including slimming products and against obesity. The case of rasberry ketone (RK) is here reported. HPTLC and HPLC-DAD analyses on a marketed product containing raspberry juice evidenced an abnormal quantity of RK, not in accordance with the juice natural content. The reported data confirm the need of adequate controls on marketed food supplements and the necessity of a complete adherence between labelling and real constitution of the product. Practical Applications: Determining the natural origin and assuring the consumers' safety for raspberry-based food supplement
Peptide selfâassembled nanostructures: from models to therapeutic peptides
: Self-assembly is the most suitable approach to obtaining peptide-based materials on the nano- and mesoscopic scales. Applications span from peptide drugs for personalized therapy to light harvesting and electron conductive media for solar energy production and bioelectronics, respectively. In this study, we will discuss the self-assembly of selected model and bioactive peptides, in particular reviewing our recent work on the formation of peptide architectures of nano- and mesoscopic size in solution and on solid substrates. The hierarchical and cooperative characters of peptide self-assembly will be highlighted, focusing on the structural and dynamical properties of the peptide building blocks and on the nature of the intermolecular interactions driving the aggregation phenomena in a given environment. These results will pave the way for the understanding of the still-debated mechanism of action of an antimicrobial peptide (trichogin GA IV) and the pharmacokinetic properties of a peptide drug (semaglutide) currently in use for the therapy of type-II diabetes
Energy performance assessment of HVAC systems by inspection and monitoring
The paper discusses the collection and processing of energy performance data as part of the
inspection of HVAC systems, aimed at identifying technically feasible and cost-effective
Energy Conservation Opportunities (ECO), as required by EPBD. Case studies developed by
the HARMONAC project have shown that low-cost or no-cost ECOâs - mostly related to
system operation and management - can be identified with an effective system monitoring.
Building Management Systems (BMS) may be a powerful tool for this task, provided their
HW and SW architecture is designed with adequate attention to energy monitoring. Dedicated
instrumentation â such as electricity meters and temperature loggers â may also be employed
as an alternative / integration to BMS monitoring. The paper also discusses the application of
data analysis tools â such as âcarpet plotsâ and âenergy signaturesâ â to the identification of
component malfunctioning, control problems, inadequate maintenance, or system schedule
optimization, and to the evaluation of achieved energy savings
hptlc fingerprint analysis of plant staminal cells products
Utilization of natural products is radically changing. Changes were mainly due to the outcome in the market of a plethora of new food supplements, and in particular those generally named botanicals for their common plant origin. The validation of these novel products needs powerful analytical devices tailored for the study of herbal extracts in order to assess composition and face their natural complexity as a resource. The last item is important and crucial for the capacity and utility of the analytical results that means that each product should be analyzed with the right approach. Having in mind these arguments, we selected HPTLC as useful tool for the analysis of products based on plant staminal (stem) cells. Nowadays these products, generally named bud-derivatives, are waiting scientific validation to obtain their own place into food supplements regulation, after gained that in the market. Our analyses, based on HPTLC fingerprints, were able to show bud-derivatives complex compositions that resulted very similar, but also in part different, to those of the corresponding leaf hydro-alcoholic extract
A phenomenological approach to normal form modeling: a case study in laser induced nematodynamics
An experimental setting for the polarimetric study of optically induced
dynamical behavior in nematic liquid crystal films has allowed to identify most
notably some behavior which was recognized as gluing bifurcations leading to
chaos. This analysis of the data used a comparison with a model for the
transition to chaos via gluing bifurcations in optically excited nematic liquid
crystals previously proposed by G. Demeter and L. Kramer. The model of these
last authors, proposed about twenty years before, does not have the central
symmetry which one would expect for minimal dimensional models for chaos in
nematics in view of the time series. What we show here is that the simplest
truncated normal forms for gluing, with the appropriate symmetry and minimal
dimension, do exhibit time signals that are embarrassingly similar to the ones
found using the above mentioned experimental settings. The gluing bifurcation
scenario itself is only visible in limited parameter ranges and substantial
aspect of the chaos that can be observed is due to other factors. First, out of
the immediate neighborhood of the homoclinic curve, nonlinearity can produce
expansion leading to chaos when combined with the recurrence induced by the
homoclinic behavior. Also, pairs of symmetric homoclinic orbits create extreme
sensitivity to noise, so that when the noiseless approach contains a rich
behavior, minute noise can transform the complex damping into sustained chaos.
Leonid Shil'nikov taught us that combining global considerations and local
spectral analysis near critical points is crucial to understand the
phenomenology associated to homoclinic bifurcations. Here this helps us
construct a phenomenological approach to modeling experiments in nonlinear
dissipative contexts.Comment: 25 pages, 9 figure
- âŠ