On the Use of Wavelet Transform for Quench Precursors Characterisation in the LHC Superconducting Dipole Magnets

Premature training quenches are caused by transient energy released within the magnet coil while it is energized. Signals recorded across the so-called quench antenna carry information about these disturbances. A new method for identifying and characterizing those events is proposed, which applies the wavelet transform approach to the recorded signals. Such an approach takes into account the time of occurrence as well as frequency content of the events. The choice of the optimal mother wavelet is discussed, and the results obtained from the application of the method to actual signals are given. The criteria to recognize the interesting events are presented as well as the methodology to classify their global behavior

Unusual Novel SnoRNA-Like RNAs in Drosophila melanogaster

A computational screen for novel small nucleolar RNAs in Drosophila melanogaster uncovered 15 novel snoRNAs and snoRNA-like long non-coding RNAs. In contrast to earlier surverys, the novel sequences are mostly poorly conserved and originate from unusual genomic locations. The majority derive from precurors antisense to well-known protein-coding genes, and four of the candidates are produced from exon-coding regions. Only a minority of the new sequences appears to have canonical target sites in ribosomal or small nuclear RNAs. Taken together, these evolutionary young, poorly conserved, and genomically atypical sequences point at a class of snoRNA-like transcripts with predominantly regulatory functions in the fruit fly genome

Unusual Novel SnoRNA-Like RNAs in Drosophila melanogaster

A computational screen for novel small nucleolar RNAs in Drosophila melanogaster uncovered 15 novel snoRNAs and snoRNA-like long non-coding RNAs. In contrast to earlier surverys, the novel sequences are mostly poorly conserved and originate from unusual genomic locations. The majority derive from precurors antisense to well-known protein-coding genes, and four of the candidates are produced from exon-coding regions. Only a minority of the new sequences appears to have canonical target sites in ribosomal or small nuclear RNAs. Taken together, these evolutionary young, poorly conserved, and genomically atypical sequences point at a class of snoRNA-like transcripts with predominantly regulatory functions in the fruit fly genome

The eye may be the spy of injury related to NIV interface and prone positioning

we describe the ocular trauma related to the combined prolonged NIV use via an oro-nasal interface and lateral-positioning of a patient affected by COVID19 severe ARDS. Great caution should be taken with these patients due to the potential onset of side effects “The eye may be the spy of interface/NIV related injury”

Laparoscopic Roux-en-Y Gastric Bypass, but Not Rebanding, Should Be Proposed as Rescue Procedure for Patients With Failed Laparoscopic Gastric Banding

OBJECTIVE: To define whether laparoscopic rebanding or Roux-en-Y gastric bypass represents the best approach for failed laparoscopic gastric banding in patients with morbid obesity. SUMMARY BACKGROUND DATA: Countless laparoscopic gastric bandings have been implanted during the recent years worldwide. Despite excellent short-term results, long-term failures and complications have been reported in more than 20% of patients. Which rescue procedures should be used remains controversial. Therefore, we analyzed our experience with the use of laparoscopic rebanding versus laparoscopic Roux-en-Y gastric bypass after failed gastric banding. METHODS: Using a prospectively collected database, we analyzed the feasibility, safety, and effectiveness of laparoscopic rebanding versus laparoscopic conversion to Roux-en-Y gastric bypass after failed laparoscopic gastric banding. RESULTS: A total of 62 consecutive patients were treated in our institution between May 1995 and December 2002 for failed primary laparoscopic gastric banding, including 30 laparoscopic rebandings and 32 laparoscopic conversions to Roux-en-Y gastric bypass. Rebandings were preferably done during the initial period of the study and Roux-en-Y gastric bypass in the last period. Both groups were comparable before the initial banding procedures. At the time of redo surgery, patients receiving a gastric bypass had more esophageal dysmotility (47% vs. 7%, P = 0.002) and higher body mass index (BMI) than those elected for rebanding procedures (BMI 42.0 vs. 38.4 kg/m(2), P = 0.015). Feasibility and safety: Each procedure was performed laparoscopically. Mean operating time was 215 minutes for gastric bypass and 173 minutes for rebanding (P = 0.03). Early complications occurred in one case in the rebanding group and in 2 cases in the bypass group; all underwent a laparoscopic reexploration without the need for open surgery. There was no mortality in this series. Effectiveness: BMI in the gastric bypass group decreased from 42.0 to 31.8 kg/m(2) (P = 0.02) within 1 year of surgery, while it remained unchanged in the rebanding group. CONCLUSIONS: Laparoscopic conversion to a gastric bypass as well as laparoscopic rebanding are feasible and safe. Conversion to gastric bypass offers a significant advantage in terms of further weight loss after surgery. Therefore, this procedure should be considered as the rescue therapy of choice after a failed laparoscopic gastric banding

A Model for Gastric Banding in the Treatment of Morbid Obesity: The Effect of Chronic Partial Gastric Outlet Obstruction on Esophageal Physiology

OBJECTIVE: This work establishes an animal model for nonadjustable gastric banding and characterizes the effect of gastric banding on esophageal physiology. SUMMARY BACKGROUND DATA: Obstruction at the esophagogastric junction (EGJ) results in esophageal dilation and aperistalsis. Although laparoscopic gastric banding as a primary treatment of morbid obesity has been widely accepted, the effects of this therapy on esophageal function remain unknown. METHODS: Twenty-five opossums were randomly divided into sham (n = 5), EGJ band (n = 5), and gastric band (n = 15) groups. Gastric and EGJ bands were surgically placed, and esophageal manometry was performed prebanding, at 2-week intervals during the banding period (up to 14 weeks), and 2 and 4 weeks after band removal. RESULTS: Manometric measures were equivalent prior to banding in all groups. There were no changes in LES or esophageal pressures during the study period in the sham group. During banding, there was a 36% decrease in baseline mean resting lower esophageal sphincter pressure in the gastric band group (P = 0.003). Mean distal esophageal peristaltic pressure decreased from baseline by 36% in gastric band animals (P < 0.001). The incidence of esophageal motility disorder during the study period for sham, EGJ band, and gastric band groups, was 2.9%, 42.1%, and 31.3%, respectively (P = 0.001, P = 0.381, pairwise comparisons of gastric band vs. sham and gastric band versus EGJ groups, respectively). Immediately prior to band removal, the probability of an abnormal peristaltic sequence with each swallow was 1%, 38%, and 16% for sham, EGJ, and gastric band groups, respectively (P < 0.005, pairwise comparisons of band groups with sham). CONCLUSIONS: Nonadjustable gastric banding results in impaired esophageal body motility, a reduction in esophageal peristaltic pressure, and a reduction in resting lower esophageal sphincter pressure. These findings suggest that gastric banding causes esophageal outlet obstruction and subsequent decompensation of peristaltic function as well as a compromise of the native antireflux mechanism