Peak systolic velocity Doppler of middle cerebral artery in small for gestational age (SGA) fetus

Background

Small for gestational age (SGA) has high frequency which increases the risk of long-term adverse outcomes. Thus the aim of this study was to evaluate peak systolic velocity Doppler of middle cerebral artery (MCA) in SGA fetus in order to find appropriate method to diagnosis SGA sooner.

Materials and Methods

This prospective longitudinal study was conducted on 90 pregnant women with a diagnosis of SGA fetus and 90 pregnant women with normal fetus. Then MCA and umbilical artery assessment were performed for all subjects and compared between two groups.

Results

Doppler assessment showed that umbilical artery PI was significantly higher in SGA group as compared to normal group (1.11±0.37 vs 0.98±0.18, P = 0.003), while MCA PI was significantly lower in SGA group (1.77±0.44 vs 1.92±0.47, P = 0.028). On the other hand, PSV did not differ between the groups (P = 0.592). Moreover, we found that PSV was more in SGA group by grouping maternal age (<27 years) (P = 0.006), and gestational age (>34 weeks) (P<0.001).

Conclusion

The results of this study suggest that MCA PI decreased significantly in SGA fetuses, while UA PI increased in this group. Moreover, PSV increased in this group when evaluated in different subgroups (based on maternal age and gestational age).

     

Multiway analysis applied to time‐resolved chemiluminescence for simultaneous determination of paracetamol and codeine in pharmaceuticals

This method is based on the enhancing effect of codeine (COD) and paracetamol (PAR) on the chemiluminescence (CL) reaction of Ru(phen)₃²⁺ with Ce(IV). In the batch mode, COD gives a relatively sharp peak with the highest CL intensity at 4.0 s, whereas the maximum CL intensity of the PAR appears at ~60 s after injection of Ce(IV) solution. Whole CL time profiles allowed use of the time‐resolved CL data in combination with multiway calibration techniques, as multiway partial least squares (N‐PLS), for the quantitative determination of both COD and PAR in binary mixtures. In this work, we found that the impact of Ce(IV) concentration on the CL intensity was different for COD and PAR. Therefore, a Ce(IV) concentration mode was added to the time and sample modes to obtain 3D data. The percent relative standard deviation (%RSD) values for 10 determinations of 1.0 × 10^?5 mol/L of COD and 1.0 × 10^?4 mol/L of PAR were 6.1% and 8.7%, respectively. The limit of detection (LOD) values (S/N = 3) were 0.9 × 10^?8 mol/L and 1.0 × 10^?6 mol/L for COD and PAR, respectively. The proposed method was successfully applied to the determination of PAR and COD in commercial pharmaceutical formulations. Acceptable recoveries (90–110%) were obtained for the quantification of these drugs in the real samples. Copyright © 2016 John Wiley & Sons, Ltd.     

Forskolin alters sensitivity of the cAMP-generating system to stimulatory as well as to inhibitory agonists. A study with intact human platelets and guinea pig myometrium

1. In both the intact guinea pig myometrium and human platelets, cAMP accumulation was enhanced by prostaglandin I2 (prostacyclin, PGI2) and forskolin with potentiated responses in the simultaneous presence of both effectors. Under basal conditions, forskolin caused rises in platelet cAMP concentration through a single low-affinity interaction (Kapp = 90 microM) while in myometrium, activation involved both a low-affinity (Kapp = 10 microM) and a high-affinity (Kapp = 0.8 microM) component. The contribution of the high-affinity component could be reduced when endogenous PGI2 was decreased. In both tissues, the synergistic effect of forskolin in the presence of PGI2 was mediated by a single high-affinity interaction (Kapp = 0.3 microM). The data were consistent with a low-affinity interaction of the diterpene with the cyclase catalytic unit C generating the C...forskolin state and with a high-affinity interaction of the diterpene with the activated complex (stimulatory regulatory protein) and C generating the potentiated Gs-C...forskolin state. 2. Both norepinephrine in platelets and carbachol in the myometrium (via Gi, the inhibitory regulatory protein) inhibited PGI2-mediated cAMP accumulation (EC50 = 100 nM and 8 nM respectively). The persistently activated cAMP-generating system induced by cholera toxin in the myometrium was also susceptible to inhibition but the EC50 for carbachol was increased to 50 nM and the extent of inhibition was decreased. Forskolin-mediated effect in platelets was inhibited by norepinephrine as was the PGI2 response. By contrast, the synergistic state of the cyclase resisted the inhibitory action of norepinephrine and carbachol in platelets and myometrium respectively. In the myometrium, where the cAMP response due to forskolin alone partially involved some synergistic Gs-C ... forskolin species, carbachol at 50 microM elicited no more than 30% inhibition. Inhibition was partly improved (60% inhibition at 1 microM carbachol) when the contribution of the Gs-C species was decreased by lowering the concentration of local PGI2. Partial inhibition by norepinephrine was similarly observed in platelets under partial synergistic conditions. The data suggest that receptor-mediated inhibition of cAMP generation could be differentially expressed depending on the nature of the active species of the cyclase involved in the stimulatory responses.     

Targeted drug delivery of magnetic microbubble for abdominal aortic aneurysm: an in silico study

Biomechanics and Modeling in Mechanobiology - Targeted drug delivery (TDD) to abdominal aortic aneurysm (AAA) using a controlled and efficient approach has recently been a significant challenge. In...     

Quinazolinone exposure induces apoptosis and changes expressions of Fas/FasL and C-Flip in embryonic mice testicles

Quinazolinones represent a class of sedative and anticancer drugs. Quinazolinones-based compounds have ability to suppress prostate tumor growth via apoptosis. Apoptosis is very common in embryos and adults of normal and injured mammalian testes. Effects a new derivative of quinazolinone (4(3H) quinazolinone-2-ethyl-2-phenyl ethyl (QEPE)), on the testis of Balb/C mice embryos were investigated. QEPE was able to reduce number of germ cells and diameter of seminiferous tubules. TUNEL assay analysis indicated that reduction correlated with an increase in the number of apoptotic cell. Furthermore, electron microscope observations confirmed typical apoptotic morphologies characterized by chromatin fragmentation. Finally, RT-PCR analysis showed QEPE increases the levels of Fas/Fasl and decreases C-Flip mRNAs in the testis of exposed embryos.     

Artificial ubiquitylation is sufficient for sorting of a plasma membrane ATPase to the vacuolar lumen of Arabidopsis cells

Sorting of transmembrane proteins into the inner vesicles of multivesicular bodies for subsequent delivery to the vacuole/lysosome can be induced by attachment of a single ubiquitin or K63-linked ubiquitin chains to the cytosolic portion of the cargo in yeast and mammals. In plants, large efforts have been undertaken to elucidate the mechanisms of vacuolar trafficking of soluble proteins. Sorting of transmembrane proteins, by contrast, is still largely unexplored. As a proof of principle, that ubiquitin is involved in vacuolar sorting in plants we show that a translational fusion of a single ubiquitin to the Arabidopsis plasma membrane ATPase PMA-EGFP is sufficient to induce its endocytosis and sorting into the vacuolar lumen. Sorting of the artificial reporter is not dependent on ubiquitin chain formation, but involves ubiquitin's hydrophobic patch and can be inhibited by coexpression of a dominant-negative version of the ESCRT (endosomal sorting complex required for transport) related protein AtSKD1 (SUPPRESSOR OF K+ TRANSPORT GROWTH DEFECT1). Our results suggest that ubiquitin can in principle act as vacuolar sorting signal in plants.     

The mitochondria-targeted antioxidant MitoQ decreases features of the metabolic syndrome in ATM+/-/ApoE-/- mice

A number of recent studies suggest that mitochondrial oxidative damage may be associated with atherosclerosis and the metabolic syndrome. However, much of the evidence linking mitochondrial oxidative damage and excess reactive oxygen species (ROS) with these pathologies is circumstantial. Consequently the importance of mitochondrial ROS in the etiology of these disorders is unclear. Furthermore, the potential of decreasing mitochondrial ROS as a therapy for these indications is not known. We assessed the impact of decreasing mitochondrial oxidative damage and ROS with the mitochondria-targeted antioxidant MitoQ in models of atherosclerosis and the metabolic syndrome (fat-fed ApoE(-/-) mice and ATM(+/-)/ApoE(-/-) mice, which are also haploinsufficient for the protein kinase, ataxia telangiectasia mutated (ATM). MitoQ administered orally for 14weeks prevented the increased adiposity, hypercholesterolemia, and hypertriglyceridemia associated with the metabolic syndrome. MitoQ also corrected hyperglycemia and hepatic steatosis, induced changes in multiple metabolically relevant lipid species, and decreased DNA oxidative damage (8-oxo-G) in multiple organs. Although MitoQ did not affect overall atherosclerotic plaque area in fat-fed ATM(+/+)/ApoE(-/-) and ATM(+/-)/ApoE(-/-) mice, MitoQ reduced the macrophage content and cell proliferation within plaques and 8-oxo-G. MitoQ also significantly reduced mtDNA oxidative damage in the liver. Our data suggest that MitoQ inhibits the development of multiple features of the metabolic syndrome in these mice by affecting redox signaling pathways that depend on mitochondrial ROS such as hydrogen peroxide. These findings strengthen the growing view that elevated mitochondrial ROS contributes to the etiology of the metabolic syndrome and suggest a potential therapeutic role for mitochondria-targeted antioxidants.     

NF-kappaB activation represses tumor necrosis factor-alpha-induced autophagy

Activation of NF-kappaB and autophagy are two processes involved in the regulation of cell death, but the possible cross-talk between these two signaling pathways is largely unknown. Here, we show that NF-kappaB activation mediates repression of autophagy in tumor necrosis factor-alpha (TNFalpha)-treated Ewing sarcoma cells. This repression is associated with an NF-kappaB-dependent activation of the autophagy inhibitor mTOR. In contrast, in cells lacking NF-kappaB activation, TNFalpha treatment up-regulates the expression of the autophagy-promoting protein Beclin 1 and subsequently induces the accumulation of autophagic vacuoles. Both of these responses are dependent on reactive oxygen species (ROS) production and can be mimicked in NF-kappaB-competent cells by the addition of H2O2. Small interfering RNA-mediated knockdown of beclin 1 and atg7 expression, two autophagy-related genes, reduced TNFalpha- and reactive oxygen species-induced apoptosis in cells lacking NF-kappaB activation and in NF-kappaB-competent cells, respectively. These findings demonstrate that autophagy may amplify apoptosis when associated with a death signaling pathway. They are also evidence that inhibition of autophagy is a novel mechanism of the antiapoptotic function of NF-kappaB activation. We suggest that stimulation of autophagy may be a potential way bypassing the resistance of cancer cells to anti-cancer agents that activate NF-kappaB.