22 research outputs found
Impact of contrast-enhanced ultrasound in patients with renal function impairment
To investigate the role of contrast enhanced ultrasound (CEUS) in evaluating patients with renal function impairment (RFI) showing: (1) acute renal failure (ARF) of suspicious vascular origin; or (2) suspicious renal lesions
Monoclonal antibodies to human low density lipoprotein identify distinct areas on apolipoprotein B-100 relevant to the low density lipoprotein-receptor interaction.
We have characterized the epitopes for ten murine monoclonal antibodies (Mabs) to human low density lipoprotein (LDL) and studied their ability to interfere with the LDL-receptor interaction. The epitopes for the antibodies were defined by using the following approaches: 1) interaction with apoB-48; 2) interaction with apoB-100 thrombolytic fragments; and 3) interaction with beta-galactosidase-apoB fusion proteins spanning different areas of the apoB-100 sequence. The results obtained are consistent with the following map of epitopes: Mab 6E, amino acids (aa) 1-1297, Mabs 5A and 6B, aa 1480-1693, Mabs 2A, 7A, 3B, and 4B, aa 2152-2377, Mabs 8A and 9A, aa 2657-3248 and 3H, aa 4082-4306. Four Mabs (2A, 5A, 7A, and 9A) whose epitopes are located in three different areas of apoB, dramatically reduced (up to 95%) the LDL-receptor interaction on cultured human fibroblasts; Fab fragments were as effective as the whole antibodies. Mab 3H, on the other hand, increased LDL binding up to threefold. These findings are consistent with the hypothesis that several areas of apoB-100 are involved independently or in concert in modulating the apoprotein B conformation required for interaction with the LDL receptor
Detailed kinetics of PAH and soot formation in combustion processes: analogies and similarities in reaction classes
Kinetic modeling of PAH and soot formation using different soot models for laminar pemixed flames
An experimental and computational investigation of N2 diluted n-heptane counterflow flames
Experimental and kinetic modelling study of JP-8, its surrogates and reference components in laminar nonpremixed flows
Experimental and numerical studies are carried out to construct reliable surrogates that can reproduce aspects of combustion of JP-8 and Jet-A. Surrogate fuels are defined as mixtures of few hydrocarbon compounds with combustion characteristics similar to those of commercial fuels. The combustion characteristics considered here are extinction and autoignition in laminar non premixed flows. The ‘‘reference’’ fuels used as components for the surrogates of jet fuels are n-decane, n-dodecane, methylcyclohexane, toluene, and o-xylene.
Three surrogates are constructed by mixing these components in proportions to their chemical types found in jet fuels. Experiments are conducted in the counterflow system. The fuels tested are the components of the surrogates, the surrogates, and the jet fuels. A fuel stream made up of a mixture of fuel vapors and nitrogen is injected into a mixing layer from one duct of a counterflow burner. Air is injected from the other duct into the same mixing layer. The strain rate at extinction is measured as a function of the mass fraction of fuel in the fuel stream. The temperature of the air at autoignition is measured as a function of the strain rate at a fixed value of the mass fraction of fuel in the fuel stream. The measured values of the critical conditions of extinction and autoignition for the surrogates show that they are slightly more reactive than the jet fuels.
Numerical calculations are carried out using a semi-detailed chemical-kinetic mechanism. The calculated values of the critical conditions of extinction and autoignition for the reference fuels and for the surrogates are found to agree well with experimental data. Sensitivity analysis is used to highlight key elementary reactions that influence the critical conditions of autoignition of an alkane fuel and an aromatic fuel
A General Mathematical Model of Biomass Devolatilization. Note 2. Detailed Kinetics of Volatile Species
Toxic inorganic pollutants in foods from agricultural producing areas of Southern Italy: Level and risk assessment
This study focused on the inorganic environmental contaminants in specific food products which form part of the
food chain of the population residing in the area of Southern Italy (Gela) where there is a high mortality rate
linked to tumor diseases and congenital malformations. Determination of toxic metals was performed by
Inductively Coupled Plasma-Mass Spectrometry (ICP-MS). The toxicological data for every toxic element has
been applied to evaluate the risk for the consumer by calculating the amount of potentially toxic element that
would ingest an average of 60 kg weight individual adult. The analysis of the investigated samples shows a high
level of metal contamination which can be linked both to the polluted water and air. The obtained results give us
an idea about the agricultural products contamination and possible exposure of local people through the food
chain