“Recently, oxidative stress has been suggested as participating in the development of osteoporosis. Glutathione peroxidase 1 (GPX1) is one of antioxidant enzymes responsible for the defence of cells against oxidative damage and thus for protection against age related diseases such as osteoporosis.
The aim of present study was to associate genetic variances of GPX1 enzyme with bone mineral density (BMD) and biochemical bone turnover markers and to show the influence of antioxidative defence system in genetics of osteoporosis.
We evaluated 682 Slovenian subjects: 571 elderly women and 111 elderly men. All subjects
were genotyped for the presence of GPX1 gene polymorphisms Pro198Leu and polyAla region. BMD and biochemical markers were also measured. General linear model analysis, adjusted to height, and (one-way) analysis of variance were used to Epigenetics inhibitor assess differences between the genotype. and haplotype subgroups, respectively.
The significant or borderline significant associations NCT-501 clinical trial were found between the polyAla or the Pro198Leu polymorphisms and total hip BMD (0.018; 0.023, respectively), femoral neck BMD (0.117; 0.026, respectively) and lumbar spine BMD (0.032; 0.086,
respectively), and with biochemical bone turnover markers such as plasma osteocalcin (0.027; 0.025, respectively) and serum C-terminal telopeptide of type I collagen concentrations (0.114; 0.012, respectively) in whole group. Haplotype analysis revealed that the 6-T
haplotype is associated significantly with VRT752271 low BMD values (p < 0.025) at all measured locations of the skeleton, and with high plasma osteocalcin concentrations (p = 0.008).
This study shows for the first time that the polymorphisms polyAla and Pro198Leu of the GPX1 gene, individually and in combination, are associated with BMD and therefore may be useful as genetic markers for bone disease. Moreover, it implies the important contribution of the oxidative stress to pathogenesis of osteoporosis.”
“The Doppler Tei index is an independent predictor of outcomes in adult heart failure. Tissue Doppler imaging (TDI) may be a superior method to measure the Tei index in children because it is less affected by heart rate variability. We hypothesized that the TDI Tei index reflects severity of illness in pediatric heart failure. Twenty-five pediatric heart failure patients were prospectively enrolled. Listing for heart transplantation or death were the outcomes used to define severity of illness. Baseline demographics, brain natriuretic peptide (BNP), and standard echocardiographic and TDI-derived parameters were analyzed to determine outcome indicators. Ten of the 25 patients (40 %) were listed for transplantation. There were no deaths. Multivariate analysis combining age, heart rate, standard echocardiographic parameters, and BNP resulted in shortening fraction (p = 0.002) as the best indicator of listing for transplantation (R (2) = 0.32).