123 research outputs found
Septate uterus: incidental finding in multiparous woman with breech with bad obstetric history who had an emergency caesarean
The most common anomalies of reproductive tract are Mullerian duct anomalies, among which septate uterus is the commonest with highest reproductive failure rate. As there are some pitfalls in diagnosis therefore the incidence is difficult to be mentioned as many remain asymptomatic. A 20 year old G5P1L0A3 with 36+4 weeks of gestation with breech presentation in active labour came to our hospital. Patient had previous history of intrauterine death at 8 months of amenorrhea and previous abortions at 5, 5 and 4 months of amenorrhoea in the year 2011, 2013, and 2014 respectively. She underwent emergency caesarean section due to breech at 36+4 weeks in active labour with the delivery of a live late preterm female baby extracted by complete breech of weight 2.28kgs with bilateral CTEV of the baby. Intraoperative findings- of septate uterusâseptum extending from fundus to external os, fundal dimpling present. Though rare but uterine anomalies should be suspected in patients with recurrent pregnancy loss, preterm birth and malpresentation
Intracultural Cognizance of Medicinal Plants of Warangal North Forest Division, Northern Telangana, India
Differences in the traditional botanical knowledge of Koya communities inhabiting Eturnagaram Wildlife Sanctuary (Warangal North Forest Division) are investigated. Eighteen villages (16 within the wildlife sanctuary and two outside it) were selected to test the null hypothesis that there exist no cognitive differences among the ethnic inhabitants in their ability to recognize the plants and recall the vernacular names and medicinal uses since they are recipients of the same dry deciduous forest ecosystem services. The Koyas were found to use as medicine 237 species in 66 angiosperm families. Analyses of data gathered from villagers showed that there is significant intracultural diversity in terms of taxonomic groups and growth forms in regard to utilizing the proximate plant resource for their primary healthcare and disease treatment of pets
Obstetric outcome in pregnancy complicated by ovarian cysts
Background: Ovarian masses are diagnosed in 0.5-1% pregnancies. During pregnancy ovarian cysts can undergo: resolution of the cyst, change of ultrasound pattern, occurrence of ovarian torsion and intra-cystic haemorrhage or rupture. Ovarian masses (esp torsion) is a cause of pain abdomen during pregnancy. The choice of treatment is mainly conservative, provided the patient is asymptomatic. Dilemma in management arises when the patient is symptomatic. Optimal timing for a planned surgery is the second trimester as it is shown to have least neonatal outcome. The objective of this study was to evaluate management options for ovarian cyst in pregnancy and its effect on outcome of pregnancy.Methods: This study was conducted for 2 years from June 2014 to June 2016, at RL Jalappa Hospital, Kolar. A total of 46 pregnant women were included. The pregnancy outcome and the management used were studied. Also studied were the complications most likely to occur in pregnancies complicated by ovarian masses ovarian masses.Results: Out of 46 patients, 2 (4.3%) patients with ovarian cyst torsion underwent emergency laparotomy. 8 patients underwent surgery (6 in 2nd trimester and 2 at term) for various complications. Only one patient had miscarriage and remaining patients continued till term. Histopathological report of all the masses excised were obtained and 6 were reported to be benign serous cystadenomas,1 benign mucinous cystadenoma and 3 simple cysts.Conclusions: Optimal management for ovarian cyst is conservative in pregnancy provided patient remain asymptomatic and characteristic of cyst are consistent with benign pathology. Surgical management is to be reserved for symptomatic patient
Comparative Effect of Organics and Biofertilizers on Growth and Yield of Maize (Zea mays. L)
aBStraCt A field experiment to study the "Comparative efficiency of organics and biofertilizers on growth and yield of maize (Zea mays L.)" was conducted during Kharif 2011 at farmer field in Beluguli village, Chikkanayakanahalli taluk (Tumkur district). The maize cultivar Nithyashree (NAH 2049) was used in the study. The field experiment was laid out in Randomized Complete Block Design with fourteen treatments and three replications. Results of the treatment (T 13 ) having recommended dose of NPK + Azotobacter chroococcum + Bacillus megaterium + Pseudomonas fluorescence + enriched compost has showed highest plant height at 30, 60, 90 days after sowing and at harves
Systems analysis of bioenergetics and growth of the extreme halophile Halobacterium salinarum
Halobacterium salinarum is a bioenergetically flexible, halophilic microorganism that can generate energy by respiration, photosynthesis, and the fermentation of arginine. In a previous study, using a genome-scale metabolic model, we have shown that the archaeon unexpectedly degrades essential amino acids under aerobic conditions, a behavior that can lead to the termination of growth earlier than necessary. Here, we further integratively investigate energy generation, nutrient utilization, and biomass production using an extended methodology that accounts for dynamically changing transport patterns, including those that arise from interactions among the supplied metabolites. Moreover, we widen the scope of our analysis to include phototrophic conditions to explore the interplay between different bioenergetic modes. Surprisingly, we found that cells also degrade essential amino acids even during phototropy, when energy should already be abundant. We also found that under both conditions considerable amounts of nutrients that were taken up were neither incorporated into the biomass nor used as respiratory substrates, implying the considerable production and accumulation of several metabolites in the medium. Some of these are likely the products of forms of overflow metabolism. In addition, our results also show that arginine fermentation, contrary to what is typically assumed, occurs simultaneously with respiration and photosynthesis and can contribute energy in levels that are comparable to the primary bioenergetic modes, if not more. These findings portray a picture that the organism takes an approach toward growth that favors the here and now, even at the cost of longer-term concerns. We believe that the seemingly "greedy" behavior exhibited actually consists of adaptations by the organism to its natural environments, where nutrients are not only irregularly available but may altogether be absent for extended periods that may span several years. Such a setting probably predisposed the cells to grow as much as possible when the conditions become favorable
NMR quality control of fragment libraries for screening
Fragment-based screening has evolved as a remarkable approach within the drug discovery process both in the industry and academia. Fragment screening has become a more structure-based approach to inhibitor development, but also towards development of pathway-specific clinical probes. However, it is often witnessed that the availability, immediate and long-term, of a high quality fragment-screening library is still beyond the reach of most academic laboratories. Within iNEXT (Infrastructure for NMR, EM and X-rays for Translational research), a EU-funded Horizon 2020 program, a collection of 782 fragments were assembled utilizing the concept of "poised fragments" with the aim to facilitate downstream synthesis of ligands with high affinity by fragment ligation. Herein, we describe the analytical procedure to assess the quality of this purchased and assembled fragment library by NMR spectroscopy. This quality assessment requires buffer solubility screening, comparison with LC/MS quality control and is supported by state-of-the-art software for high throughput data acquisition and on-the-fly data analysis. Results from the analysis of the library are presented as a prototype of fragment progression through the quality control process
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SymmetryâInduced Selective Excitation of Topological States in SuâSchriefferâHeeger Waveguide Arrays
The investigation of topological state transition in carefully designed photonic lattices is of high interest for fundamental research, as well as for applied studies such as manipulating light flow in on-chip photonic systems. Herein, the topological phase transition between symmetric topological zero modes (TZM) and antisymmetric TZMs in SuâSchriefferâHeeger mirror symmetric waveguides is reported. The transition of TZMs is realized by adjusting the coupling ratio between neighboring waveguide pairs, which is enabled by selective modulation of the refractive index in the waveguide gaps. Bidirectional topological transitions between symmetric and antisymmetric TZMs can be achieved with proposed switching strategy. Selective excitation of topological edge mode is demonstrated owing to the symmetry characteristics of the TZMs. The flexible manipulation of topological states is promising for on-chip light flow control and may spark further investigations on symmetric/antisymmetric TZM transitions in other photonic topological frameworks
Symmetry induced selective excitation of topological states in SSH waveguide arrays
The investigation of topological state transition in carefully designed
photonic lattices is of high interest for fundamental research, as well as for
applied studies such as manipulating light flow in on-chip photonic systems.
Here, we report on topological phase transition between symmetric topological
zero modes (TZM) and antisymmetric TZMs in Su-Schrieffer-Heeger (SSH) mirror
symmetric waveguides. The transition of TZMs is realized by adjusting the
coupling ratio between neighboring waveguide pairs, which is enabled by
selective modulation of the refractive index in the waveguide gaps.
Bi-directional topological transitions between symmetric and antisymmetric TZMs
can be achieved with our proposed switching strategy. Selective excitation of
topological edge mode is demonstrated owing to the symmetry characteristics of
the TZMs. The flexible manipulation of topological states is promising for
on-chip light flow control and may spark further investigations on
symmetric/antisymmetric TZM transitions in other photonic topological
frameworks
Binding adaptation of GS 441524 diversifies macro domains and downregulate SARS CoV 2 de MARylation capacity
Viral infection in cells triggers a cascade of molecular defense mechanisms to maintain host cell homoeostasis. One of these mechanisms is ADP ribosylation, a fundamental post translational modification PTM characterized by the addition of ADP ribose ADPr on substrates. Poly ADP ribose polymerases PARPs are implicated in this process and they perform ADP ribosylation on host and pathogen proteins. Some viral families contain structural motifs that can reverse this PTM. These motifs known as macro domains MDs are evolutionarily conserved protein domains found in all kingdoms of life. They are divided in different classes with the viral belonging to Macro D type class because of their properties to recognize and revert the ADP ribosylation. Viral MDs are potential pharmaceutical targets, capable to counteract host immune response. Sequence and structural homology between viral and human MDs are an impediment for the development of new active compounds against their function. Remdesivir, is a drug administrated in viral infections inhibiting viral replication through RNA dependent RNA polymerase RdRp . Herein, GS 441524, the active metabolite of the remdesivir, is tested as a hydrolase inhibitor for several viral MDs and for its binding to human homologs found in PARPs. This study presents biochemical and biophysical studies, which indicate that GS 441524 selectively modifies SARS CoV 2 MD de MARylation activity, while it does not interact with hPARP14 MD2 and hPARP15 MD2. The structural investigation of MD GS 441524 complexes, using solution NMR and X ray crystallography, discloses the impact of certain amino acids in ADPr binding cavity suggesting that F360 and its adjacent residues tune the selective binding of the inhibitor to SARS CoV 2 M
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