50 research outputs found
Multicenter experience from the UK and Ireland of use of lumen-apposing metal stent for transluminal drainage of pancreatic fluid collections
Background and study aims:âPancreatic fluid collection (PFC) is a common complication of pancreatitis for which endoscopic ultrasound-guided drainage is first-line treatment. A new single-device, lumen-apposing, covered self-expanding metal stent (LAMS) has been licensed for PFC drainage. We therefore present our multicenter experience with the LAMS for PFC drainage in a multicenter prospective case series to assess success and complication rates.
Patients and methods:âAll adult patients from 11 tertiary centers who had LAMS placement for PFC from July 2015 to July 2016 were included. Data including indications, technical success, clinical success, collection resolution, stent removal, early and late adverse events (AEs), mortality and recurrence at 6 months were collected.
Results:â116 patients, median age 52.5 years (range 16âââ80) and 67â% male, were treated with a single LAMS in each case. The indication was walled off necrosis (WON) in 70 and pseudocyst in 46. Median size of the PFC was 11âcm (5âââ21âcm) and the estimated median necrotic volume in WON was 30â% (5â%âââ90â%). Stent insertion was technically successful in 115 (99.1â%) and clinically successful in 109 (94â%). Early serious AEs (SAEs): nâ=â7 sepsis, nâ=â1 stent blockage with food, nâ=â1 stent migration requiring laparotomy, nâ=â1 stent dislodgement and nâ=â1 bleeding requiring emboliZation. Late AEs: nâ=â1 buried stent and nâ=â1 esophageal fistula. Non-procedure-related deaths: nâ=â3 (2.5â%).
Conclusion:âThis multicenter case series demonstrates that use of the new LAMS is feasible, effective and relatively safe in draining PFC with a technical success rate of 99â% and cumulative SAE rate of 11.2â%
Cloning and characterization of αs2-casein gene of Riverine buffalo
The present study was carried out to characterize the αs2-casein gene in Riverine buffalo. Total RNA was extracted from the mammary tissue of buffalo and αs2-casein cDNA were synthesized by RT-PCR, then cloned using pDRIVE-cloning vector and sequenced. The sequencing revealed that the size of αs2-casein was 669 bp with GC content of 41.11%. The gene encoded for 222 amino acid precursors and that it possessed 15 amino acids signal peptide. The similarity of buffalo αs2-casein mRNA sequence with that of cattle, sheep, goat, pig and camel were estimated as 97.9, 93.6, 93.4, 73.5 and 73.0%, respectively. In the phylogenetic trees, constructed from the data of the αs2-casein mRNA sequences as well as protein sequences, it has been observed that the cattle and buffalo were in the same group whereas sheep and goat formed another group. The camel and swine were placed in two separate groups
Spectroscopic (FTIR, FT-Raman, UVâVis) studies, NMR, NBO analysis, molecular docking studies on 2-cyano-5-fluoropyridine and 3-cyano-2-fluoropyridine
In this present work, to investigate the physicochemical properties of the molecules, extensive quantum chemical calculations have been performed on 2-cyano-5-fluoropyridine (2C5FP) and 3-cyano-2-fluoropyridine (3C2FP). Infrared and Raman spectra analysis have been carried out to study the vibrational modes of the molecule. Based on density function theory (DFT) with 6â311 ++ G (d, p) basis set, was also used to compute the same modes. As a result of intramolecular interactions, charge transfer or delocalization of charge has been explained by natural bond orbital analysis. The NMR study was also carried out experimentally and theoretically. The nucleophilic and electrophilic sites were predicted by Molecular Electrostatic Potential surface (MEP). By using the same functional and basis set and GIAO method, theoretical predictions were made. The absorption wavelengths of title molecules have been studied both theoretically and experimentally using UVâvisible analysis. The Mullikan population analysis and Natural atomic charges are used to calculate the net charges of the atoms in the molecules, and the calculated net charges are compared to the experimental chemical shift values. A molecular docking study revealed that the title molecules may have antidiabetic properties when bound to protein Glycogen Phosphorylase B Complexed Glucose
Molecular cloning and characterization of buffalo αs1-casein gene
Buffaloes in Indian subcontinent play an important role as the producer of milk and milk products. The αs1-casein constitutes 38% of the total milk proteins. The present study was carried out to characterize the gene in Murrah breed of Riverine buffalo. Buffalo αs1-casein cDNA was synthesized by RT-PCR, then cloned using pDRIVE-cloning vector and sequenced. The sequencing revealed that the size of αs1-casein cDNA was of 645 bp with GC content of 45.58%. The αs1-casein gene coded 214 amino acids precursor with a signal peptide of 15 amino acid residues. The similarity of buffalo αs1-casein mRNA sequence with that of cattle, goat, sheep, pig, camel, equine and human were estimated as 97.2, 93, 92.3, 57.2, 59.5, 55.9 and 46.6%, respectively. A similar trend was observed when compared amino acid sequences of these species. In the phylogenetic trees, constructed from the data of the αs1-casein mRNA as well as protein sequences, it has been observed that buffalo, cattle, goat and sheep formed a cluster with a closer relationship between cattle and buffalo followed by goat and sheep
Marcus inverted region in the photoinduced electron transfer reactions of Ruthenium(II)-Polypyridine complexes with phenolate ions
Ruthenium(II)-polypyridyl complexes of similar size but with variable reduction potential undergo efficient photoinduced electron-transfer reactions with phenolate ions in aqueous medium. All these reactions are exergonic and are in accordance with the Marcus theory of electron transfer. At high negative ΠG° Marcus inverted region is observed in this bimolecular photoinduced charge separation reaction