\n\nResults: Four different RPGR ORF15 mutations were found in four probands. All mutations in the ORF15 exon resulted in premature truncation of the RPGR protein. Three were nonsense mutations: c. 507G. T (p.E169stop), c.867G>T (p.G289stop), c.897G>T (p.E299stop) and the fourth a single nucleotide insertion c. 1558-1559insA (p.S522fs 525stop). One family exhibited typical XLRP, two XLCORD and one a combination of the phenotypes.\n\nConclusion: RPGR ORF15 mutations
produce intrafamilial and interfamilial clinical variability with varying degrees of cone degeneration. In an Australian clinic population RPGR ORF15 mutations cause XLCORD in addition to XLRP.”
“Patients with coronary artery calcification have an increased risk NU7441 in vivo of coronary vascular events and mortality. Coronary artery calcification can be quantified using the coronary calcium score AICAR in vitro (CCS) from multi-detected row computed tomography (MDCT), and the score is proportionally related to the severity of atherosclerotic disease. Mean platelet volume (MPV) is gaining interest as a new independent cardiovascular risk factor. Accordingly, the aim of our study was to evaluate the relationship
between CCS and MPV in the general population. A total of 2116 individuals were enrolled from a health promotion center between July 2007 and June 2010. Among them, 259 subjects were included in the final analysis. MDCT was used to measure CCS and CCS>1 was defined as the presence of coronary calcification. The MPV value was significantly higher in the coronary artery calcification group than in the control group. Multivariate analyses showed that MPV was positively associated with coronary calcification (OR, 1.61; 95% CI 1.02-2.55). In summary, there was a significant association between coronary artery calcification and MPV in the general NCT-501 population. Therefore, the detection of elevated MPV should alert clinicians to the coexistence of multiple underlying CVD risk factors warranting early evaluation
and treatment.”
“The concentration and absorption of the nine phenolic acids of wheat were measured in a model experiment with catheterized pigs fed whole grain wheat and wheat aleurone diets. Six pigs in a repeated crossover design were fitted with catheters in the portal vein and mesenteric artery to study the absorption of phenolic acids. The difference between the artery and the vein for all phenolic acids was small, indicating that the release of phenolic acids in the large intestine was not sufficient to create a porto-arterial concentration difference. Although, the porto-arterial difference was small, their concentrations in the plasma and the absorption profiles differed between cinnamic and benzoic acid derivatives.