\n\nResults: In all, 36 of 38 children were overweight/obese; 37 had WC indicative of abdominal Crenolanib in vivo obesity. They displayed fasting hyperinsulinemia (n – 15), hypertriglyceridemia (n – 14), and hypoadiponectinemia (5.5 +/- 1.9 s.d. mu g/ml; n
– 23) and insulin resistance (homeostasis model of insulin resistance (HOMA-IR) > 3; n = 21). Alanine aminotransferase (ALT) was elevated in 28 (43-556 U/l; median = 56). Some inflammatory markers were elevated, whereas antioxidants were decreased. Diet was characterized by high saturated-, low polyunsaturated-fat, high fructose and sucrose intakes. Fructose intake was independently associated with insulin resistance and decreased serum adiponectin, regardless of serum ALT (P < 0.05). Low and subnormal Dinaciclib intakes of omega-3 fatty acids (C20:5 (n-3) and C22:6 (n-3)) were associated with
abnormal serum ALT (P = 0.006) and elevated HOMA-IR (P = 0.01). Findings were similar in children <= 11 and >11 years old. Physical activity was low in both age groups.\n\nConclusions: Children with fatty liver detected sonographically have metabolic features of non-alcoholic fatty liver disease. Their diets are high in fructose and low in polyunsaturated fatty acid. Their activity patterns are sedentary. These lifestyle features may contribute to liver damage and can be a focus for therapeutic intervention. European Journal of Clinical Nutrition (2010) 64, 628-635; doi:10.1038/ejcn.2010.35; click here published online 10 March 2010″
“Background: Although the previous study demonstrated the envelope protein of dengue viruses is under purifying selection pressure, little is known about the genetic differences of full-length viral genomes of DENV-3. In our study, complete genomic sequencing of DENV-3 strains collected from different geographical locations and isolation years were determined and the sequence diversity as well as selection pressure sites in the DENV genome other than within the E gene were also analyzed.\n\nResults: Using maximum likelihood and Bayesian approaches, our phylogenetic
analysis revealed that the Taiwan’s indigenous DENV-3 isolated from 1994 and 1998 dengue/DHF epidemics and one 1999 sporadic case were of the three different genotypes -I, II, and III, each associated with DENV-3 circulating in Indonesia, Thailand and Sri Lanka, respectively. Sequence diversity and selection pressure of different genomic regions among DENV-3 different genotypes was further examined to understand the global DENV-3 evolution. The highest nucleotide sequence diversity among the fully sequenced DENV-3 strains was found in the nonstructural protein 2A ( mean +/- SD: 5.84 +/- 0.54) and envelope protein gene regions ( mean +/- SD: 5.04 +/- 0.32). Further analysis found that positive selection pressure of DENV-3 may occur in the non-structural protein 1 gene region and the positive selection site was detected at position 178 of the NS1 gene.