Amstrupryan9603
D + time) methods, and a deep temporal connection module produced reliable segmentation results.
Bone metastases (BM) may influence negatively the prognosis of midgut neuroendocrine tumors (NET). The diagnostic sensitivity of
F-DOPA PET for midgut NET and associated metastases is high. This study aimed to assess the prognostic impact of BM detected by
F-DOPA PET in metastatic midgut NET.
All patients with a metastatic midgut NET, who underwent a
F-DOPA PET between June 2011 and June 2018, were included. BM were defined following imaging criteria and were classified as poly-BM or oligo-BM, according to their number (< 5 or ≥ 5, respectively). The variables associated with the presence of BM were evaluated by logistic regression. The factors associated with overall survival were explored by Cox regression models.
Among 155 patients included, 46 had BM (29.7%). A carcinoid syndrome (OR 2.96, p = 0.009) and ≥ 3 extra-skeletal metastatic organs (OR 4.99, p = 0.002) were independently associated with the presence of BM. BM were mainly osteoblastic (78%), rarely symptomatic (8.9%), and had a shore prognostic impact in metastatic midgut neuroendocrine tumors. • Bone oligo-metastases ( less then 5) do not influence the prognosis and may not impact therapeutic decisions.A sensitive electrochemical sensor was proposed via combining molecular imprinting technique with the graphene material-doped titanium nitride. The novel graphene with 3-dimensional structure displayed more binding sites and better electrochemical properties. Moreover, this study focused on coating pyrrole with electrical conductivity on the surface of silica as a monomer, and BPA as the template. The interaction made specific detection possible, between monomer and template. With a series of characterizations and electrochemical measurements, CPE (carbon paste electrode)-contained TiN-rGO composite was proved to have conductivity improved. Also, the modified polymer performed well selectivity which reflected in that it was almost impervious to distractions. Under optimized conditions, a linear dependence was observed from 0.5 to 100 nmol L-1 with a detection limit of 0.19 nmol L-1. The sensor explicated outstanding repeatability via repetitive experiment with the RSD of 0.02%, while the results of stability experiment reached the RSD of 1.90%. Eventually, it was used to analyze BPA residues in 3 kinds of daily supplies. The results indicated the potential of the sensor in environmental detection prospectively.This trend article reviews papers with hyphenated high-resolution mass spectrometry (HRMS) approaches applied in analytical toxicology, particularly in clinical and forensic toxicology published since 2016 and referenced in PubMed. The article focuses on the question of whether HRMS has or will become the all-in-one device in these fields as supposed by the increasing number of HRMS presentations at scientific meetings, corresponding original papers, and review articles. Typical examples for the different application fields are discussed such as targeted or untargeted drug screening, quantification, drug metabolism studies, and metabolomics approaches. Considering the reviewed papers, HRMS is currently the only technique that fulfills the criteria of an all-in-one device for the various applications needed in analytical toxicology.Graphical abstract.Microbial resistance to currently available antibiotics poses a great threat in the global fight against infections. An important step in determining bacterial antibiotic resistance can be selective DNA sequence capture and fluorescence labeling. In this paper, we demonstrate the fabrication of simple, robust, inexpensive microfluidic devices for DNA capture and fluorescence detection of a model antibiotic resistance gene sequence. We laser micromachined polymethyl methacrylate microchannels and enclosed them using pressure-sensitive adhesive tapes. We then formed porous polymer monoliths with DNA capture probes in these microchannels and used them for sequence-specific capture, fluorescent labeling, and laser-induced fluorescence detection of picomolar (pM) concentrations of synthetic and plasmid antibiotic resistance gene targets. The relative fluorescence for the elution peaks increased with loaded target DNA concentration. We observed higher fluorescence signal and percent recovery for synthetic target DNA compared to plasmid DNA at the same loaded target concentration. A non-target gene was used for control experiments and produced less then 3% capture relative to the same concentration of target. The full analysis process including device fabrication was completed in less than 90 min with a limit of detection of 30 pM. The simplicity of device fabrication and good DNA capture selectivity demonstrated herein have potential for application with processes for bacterial plasmid DNA extraction and single-particle counting to facilitate determination of antibiotic susceptibility. Graphical abstract.This review provides a summary of known molecular alterations in commonly used cancer models and strives to stipulate how they may affect ambient mass spectrometry profiles. Immortalized cell lines are known to accumulate mutations, and xenografts derived from cell lines are known to contain tumour microenvironment elements from the host animal. While the use of human specimens for mass spectrometry profiling studies is highly encouraged, patient-derived xenografts with low passage numbers could provide an alternative means of amplifying material for ambient MS research when needed. Similarly, genetic preservation of patient tissue seen in some organoid models, further verified by qualitative proteomic and transcriptomic analyses, may argue in favor of organoid suitability for certain ambient profiling studies. However, to choose the appropriate model, pre-evaluation of the model's molecular characteristics in the context of the research question(s) being asked will likely provide the most appropriate strategy to move research forward. This can be achieved by performing comparative ambient MS analysis of the disease model of choice against a small amount of patient tissue to verify concordance. Disease models, however, will continue to be useful tools to orthogonally validate metabolic states of patient tissues through controlled genetic alterations that are not possible with patient specimens.Adherence to oral pre-exposure prophylaxis (PrEP) is challenging for adolescent males who have sex with males (AMSM). Once adult trials comparing oral to longer lasting injectable PrEP are completed, there will be a need for adolescent studies. However, lack of data on adolescent consent capacity may sustain guardian permission requirements identified as a barrier to AMSM participation in prior PrEP trials. This online study assessed AMSM's (14-17 years) consent capacity for these trials, comparing performance to MSM (18-19 years) for whom guardian permission is not required. Applying the MacCAT-CR, participants (N = 214) viewed a video and mock consent form followed by open-ended and yes/no items. Cognitive diagnostic models and means testing analyses supported AMSM capacity to consent to these trials 16-17 and most 14-15 year-olds, demonstrated consent understanding, appreciation and reasoning at 18-19 year-old levels. Data also identified vulnerabilities requiring attention during informed consent.Hospital wastewater is regarded as a primary and very important source of antibiotics in the aquatic environment. Studies on the analysis, occurrence, and ecological risk assessment of fluoroquinolone antibiotics in wastewater are still limited in Africa. A quick, easy, cheap, effective, rugged, and safe extraction method was optimized and applied for determination of three fluoroquinolone antibiotics (ciprofloxacin, norfloxacin, and ofloxacin) in wastewater from two Nigerian hospital wastewater treatment plants (WWTPs) and effluent receiving water. Separation, detection, and quantification of target fluoroquinolone antibiotics were performed by high-performance liquid chromatography. Ecological risk of the three fluoroquinolone antibiotics was evaluated for three trophic levels fish, daphnid, and algae. The method LODs were 4.1 µg L-1, 7.0 µg L-1, and 18.5 µg L-1 for ciprofloxacin, norfloxacin, and ofloxacin, respectively. Disufenton Satisfactory recoveries and precisions were achieved, in addition to the correlation coefficients of greater than 0.993. Target fluoroquinolones were quantified in influents up to 228 µg L-1 (UCH influent) for ciprofloxacin, 561 µg L-1 (Ijaiye influent) for norfloxacin, and 198 µg L-1 (UCH influent) for ofloxacin. Norfloxacin had the highest concentration (386 µg L-1) in effluent receiving water. All three fluoroquinolones posed low risk to fish, whereas ciprofloxacin and norfloxacin presented moderate risk to daphnid and algae. To the best of our knowledge, this work presents the first data on the occurrence and risk assessment of the target fluoroquinolones in wastewater from Nigerian hospital WWTPs. The findings revealed the importance of developing local and nationwide surveys of fluoroquinolone antibiotics in the Nigerian aquatic environment.Climate change in Kuwait has resulted in temperature fluctuations, frequent dust storms, and noticeable changes in the amount of precipitation. Pollutants released into the atmosphere from various sources affect the chemical composition of rainwater and impact its usability. The present study on rainwater focused on the determination of trace elements, sources, and their variation with respect to change in temperature and pH. The samples were collected from 12 different locations in both industrial and urban regions during significant rain events (n = 31) from November 2018 to March 2019 and samples were analyzed for trace elements in ICP-OES using standard USEPA 200.7 method. The mean concentration of the 16 elements analyzed followed the trend Co less then Cd less then Cr less then Mo less then V less then Ni less then Pb less then As less then Se less then Fe less then Cu less then Mn less then Zn less then Al less then Ba less then Sr and were inferred to be within the WHO permons in trace element concentrations. There was no significant change observed in pH with rise in temperature, but the concentration of trace elements varied with change in pH. The concentration of V, Cr, and Al were most sensitive to pH variations. The results indicated that industrial emissions, fuel combustion, and dust in Kuwait are the primary sources of Al, Sr, Mn, Zn, and Ba in the rainwater samples. Since, the concentrations of these elements are relatively low, rainwater in Kuwait could be harvested for drinking and domestic purposes and used for recharging aquifers.
Angina is the cardinal symptom of chronic coronary syndrome (CCS), which is the leading cause of death worldwide. As such, the control of angina is important. The current guidelines recommend beta blockers (BB) or calcium channel blockers to reduce angina, yet many patients with stable angina remain symptomatic. It has been suggested that combining trimetazidine (TMZ), an anti-ischemic agent, with a BB is beneficial for symptomatic patients. Bisoprolol, a BB, is often used to treat patients with CCS, yet no data are currently available regarding the efficacy of bisoprolol combined with TMZ in patients who remain symptomatic despite receiving bisoprolol.
The aim of this post-hoc analysis of the CHOICE-2 study was to evaluate the efficacy and safety of TMZ 35mg twice daily in combination with different bisoprolol doses in symptomatic patients with stable angina patients receiving hemodynamic therapy in a real-world clinical setting.
This analysis involved 221 patients (mean [± standard deviation] age 64.8 ± 8.
