UTERUS DIDELPHYS IN NULLIPAROUS AND MULTIPAROUS WOMEN – A RARE ENTITY

Uterus didelphys is a rare congenital uterine abnormality in which the embryogenetic fusion of the Mullerian ducts fails to occur. It will lead to the formation of a double uterus with two separate cervices and most often a double vagina with a longitudinal septum as well. Here, we present two different cases of uterus didelphys with varied presentations. The first case is a nulliparous woman presented with post-coital bleeding. On examination, two cervical openings with a longitudinal complete vaginal septum were found, conservative management was done. Findings of didelphys uterus were confirmed on USG. The patient was counseled and discharged. The second case is a multiparous woman with previous cesarean delivery, rupture of membranes, and meconium in this pregnancy with term pregnancy taken up for emergency cesarean section. Dense adhesions and a mass on the right side of uterus were found intraoperatively, which on further inspection confirmed to be patent right horn of uterus. Diagnosis of uterus didelphys was made after doing per speculum and per vaginal examination post-cesarean

A novel plasmonic interferometry and the potential applications

In this article, we have proposed the plasmonic interferometry concept and analytical details given. By using the conventional optical interferometry, which can be simply calculated by using the relationship between the electric field and electron mobility, the interference mobility visibility (fringe visibility) can be observed. The surface plasmons in the sensing arm of the Michelson interferometer is constructed by the stacked layers of the silicon-graphene-gold, allows to characterize the spatial resolution of light beams in terms of the electron mobility down to 100-nm scales, with measured coherence lengths as low as ∼100 nm for an incident wavelength of 1550 nm. We have demonstrated a compact plasmonic interferometer that can apply to the electron mean free paths measurement, from which the precise determination can be used for the high-resolution mean free path measurement and sensing applications. This system provides the practical simulation device parameters that can be fabricated and tested by the experimental platform

Bacillus amyloliquefaciens induces production of a novel blennolide K in coculture of Setophoma terrestris

The discovery of known bioactive chemical leads from microbial monocultures hinders the efficiency of drug discovery programmes. Therefore, in recent years, the use of fungal–bacterial coculture experiments has gained considerable attention due to their ability to generate new bioactive leads. In this work, fungal strain Setophoma terrestris was cocultured with Bacillus amyloliquifaciens to discover novel bioactive compounds

Identification of novel single nucleotide polymorphisms in the DGAT1 gene of buffaloes by PCR-SSCP

Diacylglycerol O-acyltransferase 1 (DGAT1) is a microsomal enzyme that catalyzes the final step of triglyceride synthesis. The DGAT1 gene is a strong functional candidate for determining milk fat content in cattle. In this work, we used PCR-SSCP (polymerase chain reaction-single-strand conformation polymorphism) and DNA sequencing to examine polymorphism in the region spanning exon 7 to exon 9 of the DGAT1 gene in Murrah and Pandharpuri buffaloes. Three alleles (A, B and C) and four novel single-nucleotide polymorphisms were identified in the buffalo DGAT1 gene. The frequencies of the alleles differed between the two buffalo breeds, with allele C being present in Murrah but not in Pandharpuri buffalo. The allele variation detected in this work may influence DGAT1 expression and function. The results described here could be useful in examining the association between the DGAT1 gene and milk traits in buffalo