Oral Propranolol in the Treatment of Ulcerated Bleeding Scrotal Arteriovenous Malformation.

Arteriovenous malformations (AVMs) of the scrotum are very rare, with only 35 adult cases in the literature. An 8-year-old boy presented with an ulcerated bleeding AVM of the scrotum. The patient was resuscitated and managed conservatively initially. After the control of bleeding, oral propranolol was started. There was a decrease in the size of scrotal and penile swelling, healing of ulcer with total healing by 1 month, and no recurrence of bleeding episode. To the best of our knowledge, this was the first case of pediatric scrotal AVM treated by oral propranolol.

Solar Light Responsive Graphitic Carbon Nitride Coupled Porphyrin Photocatalyst that Uses for Solar Fine Chemical Production.

Photocatalysis is a defendable manner for production of several organic chemicals, energy and its storage from solar energy. For the evolution of metal free, cost-effective catalyst a 2D composite has been appear as a photocatalyst. Here, we had reported the synthesis of a light harvesting composite as a photocatalyst which was assembled by a poly-condensation mechanism between graphitic carbon nitride and tetrakis(4-nitrophenyl) porphyrin and the resulting composite manifest the excellent light harvesting properties, suitable energy band and low charge recombination. The photocatalyst [(NO2 )4 TPP@g-C3 N4 ] enables the efficient photocatalytic production of nicotinamide adenine dinucleotide (NADH) from consumed NAD+ also the production of organic chemicals like 4-methoxybenzylimines from 4-methoxybenzylamines. The photocatalytic efficiency of the photocatalyst was estimated by the percentage of NADH regeneration and the percentage yield of organic transformations. It shows the tetrakis(4-nitrophenyl) porphyrin could enhance the charge transfer capacity of graphitic carbon nitride which shows excellent photocatalysis activities and organic transformations.

Dye Degradation and Sulfur Oxidation of Methyl Orange and Thiophenol via Newly Designed Nanocomposite GQDs/NiSe-NiO Photocatalyst Under Homemade LED Light.

Photocatalytic processes triggered by graphene-based photocatalysts under solar light have sparked interest as a new sort of instrument for solar chemical synthesis. Herein we investigated self-assembled graphene quantum dots (GQDs)/NiSe-NiO composite photocatalyst for organic transformation as well as dye degradation. The synthesized GQDs/NiSe-NiO composite photocatalyst has an excellent suitable band gap, high molar extinction coefficient, low toxicity and chemical/thermal stability. The GQDs/NiSe-NiO composite photocatalyst emerges as a new standard for sulfur oxidation and dye degradation reactions under homemade LED light with high yield.

Highly Efficient S-g-CN/Mo-368 Catalyst for Synergistically NADH Regeneration Under Solar Light.

Sulfur-doped graphitic carbon nitride (S-g-CN) has gained significant attention in recent years. Sulfur-doped graphitic carbon nitride (S-g-CN) is a promising metal-free photocatalyst because of its band orientation, natural abundance and groundwork. Improved photocatalytic activity of S-g-CN material for solar chemical production persists a hot yet challenging problem. Herein, we provide an adaptable method for the synthesis of S-g-CN nanocomposite decorated with the moiety of giant polyoxometalate (S-g-CN/Mo-368) that subsequently showed highly efficient photocatalytic activity. The as-synthesized S-g-CN/Mo-368 as a recyclable artificial photocatalyst revealed excellent activity for solar chemical production, that is nicotinamide adenine dinucleotide (NADH) regeneration under visible light. The immobilized Mo-368 on the S-g-CN surface increased the visible light adsorption capacity of the S-g-CN/Mo-368 photocatalyst. The visible light absorption activity, morphology, element compositions, particle size and zeta potential of S-g-CN powder and S-g-CN/Mo-368 were thoroughly investigated. From the application point of view, S-g-CN/Mo-368 was applied to determine the solar chemical production (i.e. NADH regeneration) under visible light with a higher yield% of about ~ 94.85%.

Flavanoids as Potential NEDD-4 Inhibitors: In Silico Discovery Using Molecular Docking and ADME Studies.

NEDD-4 are closely related E3 ubiquitin-protein ligases that include a C2 domain, three or four WW domains and a catalytic HECT ubiquitin ligase domain. The WW domains of NEDD-4 proteins recognize substrates for ubiquitination by binding the sequence L/PPxY (the PY-motif) present in target proteins. NEDD-4 functions as a suppressor of the epithelial Na+ channel (ENaC), which interacts with NEDD-4 WW domains via PY-motifs located at its C-terminus. Fifty compounds, all of them flavanoids, were subjected to molecular docking studies. The chemical structures were built, and docking studies were done using Schrodinger. ADMET studies were also performed. Furthermore, evidence is presented suggesting that interaction between NEDD-4 and the selected compounds from the database may also serve to regulate NEDD-4 stability, as this interaction leads to decreased NEDD-4 self-ubiquitination. Collectively, the studies presented here further our understanding of the substrate specificity and regulation of NEDD-4. We have performed molecular docking and molecular dynamics simulation to study the interactions. The results of molecular dynamics simulation confirmed the binding mode of compounds.