CHAC1 overexpression in human gastric parietal cells with Helicobacter pylori infection in the secretory canaliculi

Background Cation transport regulator 1 (CHAC1), a newly discovered enzyme that degrades glutathione, is induced in Helicobacter pylori (H. pylori)‐infected gastric epithelial cells in culture. The CHAC1‐induced decrease in glutathione leads to an accumulation of reactive oxygen species and somatic mutations in TP53. We evaluated the possible correlation between H. pylori infection and CHAC1 expression in human gastric mucosa. Materials and Methods Both fresh‐frozen and formalin‐fixed paraffin‐embedded tissue samples of gastric mucosa with or without H. pylori infection were obtained from 41 esophageal cancer patients that underwent esophago‐gastrectomy. Fresh samples were used for real‐time polymerase chain reaction for H. pylori DNA and CHAC1 mRNA, and formalin‐fixed samples were used for immunohistochemistry with anti‐CHAC1 and anti‐H. pylori monoclonal antibodies. Double‐enzyme or fluorescence immunohistochemistry and immuno‐electron microscopy were used for further analysis. Results Significant CHAC1 overexpression was detected in H. pylori‐infected parietal cells that expressed the human proton pump/H,K‐ATPase α subunit, whereas a constitutively low level of CHAC1 mRNA expression was observed in the other samples regardless of the H. pylori infection status, reflecting the weak CHAC1 expression detected by immunohistochemistry in the fundic‐gland areas. Immuno‐electron microscopy revealed intact H. pylori cells in the secretory canaliculi of infected parietal cells. Some parietal cells exhibited positive nuclear signals for Ki67 in the neck zone of the gastric fundic‐gland mucosa with H. pylori infection. Conclusion Cation transport regulator 1 overexpression in H. pylori‐infected parietal cells may cause the H. pylori‐induced somatic mutations that contribute to the development of gastric cancer.This work was supported by the Japan Society for the Promotion of Science KAKENHI (16K19077), and by the Practical Research for Innovative Cancer Control from Japan Agency for Medical Research and development, AMED

Thermoreflectance Measurement of Temperature and Thermal Resistance of Thin Film Gold

To improve performance and reliability of integrated circuits, accurate knowledge of thermal transport properties must be possessed. In particular, reduced dimensions increase boundary scattering and the significance of thermal contact resistance. A thermoreflectance measurement can be used with a valid heat transport model to experimentally quantify the contact thermal resistance of thin film interconnects. In the current work, a quasi-steady state thermoreflectance measurement is used to determine the temperature distribution of a thin film gold interconnect (100 nm) undergoing Joule heating. By comparing the data to a heat transport model accounting for thermal diffusion, dissipation, and Joule heating, a measure of the thermal dissipation or overall thermal resistance of unit area is obtained. The gold film to substrate overall thermal resistance of unit area beneath the wide lead (10 lm) and narrow line (1 lm) of the interconnect are 1.64 Â 10 À6 m 2 K=W and 5.94 Â 10 À6 m 2 K=W, respectively. The thermal resistance of unit area measurements is comparable with published results based on a pump-probe thermoreflectance measurement

Thermoreflectance small scale temperature measurement under ambient conditions

Paper presented at the 9th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Malta, 16-18 July, 2012.dc201

Thermoreflectance of carbon nanofibers: joule heating experiment and calibration

Paper presented to the 10th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Florida, 14-16 July 2014.Thermoreflectance (TR) is a novel, non-contact technique that uses the change in surface reflectivity over optical wavelengths of light to deduce temperature. This reflectivity is also wavelength dependent and material dependent. By calibrating a sample to determine the TR coefficient k, the relative change in intensity per degree change in temperature, the difference between heated and cool images is used to measure the relative temperature change. A two-dimensional, steady state TR method is used to examine the thermoreflectance behavior of carbon nanofibers (CNFs). Signal mixing between the CNF and the substrate at the sub-micron level is minimized by use of gold at its TR cross-point. A TR signal is created by the CNF as it is subject to Joule heating by passing a constant current through it. The calibration coefficient is measured though uniform heating of the sample. Initially, imaging during the heating process suffered from image shifting caused by air currents. Once the visible shifting is removed, the TR coefficient kcomp derived from the heating experiment was 7.93 x 10-5/K. To validate these results, the TR signal from a CNF undergoing Joule heating and the predicted temperature from a heat-transfer model were used to produce a second calibration, yielding a TR coefficient kJoule of 2.45 x 10-5/K. The discrepancy between the two TR coefficients suggests that further experiments are needed to determine more accurately the CNF TR coefficient.cf201

Observation of the Pharynx to the Cervical Esophagus Using Transnasal Endoscopy with Blue Laser Imaging

Background In 2014, the new transnasal endoscopy with Blue laser Imaging (BLI) has been developed. Aim We present the usefulness of the observation of from the pharynx to the cervical esophagus using transnasal endoscopy with BLI. Patients and Methods This study was conducted between June 2014 and October 2014. During this period, 70 consecutive patients (60 men, 10 women; mean age 67.9 years old) with esophageal or head and neck cancer underwent endoscopic screening at the oropharynx and hypopharynx by transnasal endoscopy with BLI system We performed this endoscopic observation from oral cavity to pharynx before inserting into the cervical esophagus.The visibility of subsites of the hypopharynx and the orifice of the esophagus was evaluated. The extent of the view of hypopharyngeal opening was classified into 3 categories (excellent, good, poor). Then, the diagnostic accuracy of transnasal endoscopy with BLI system was estimated. Our screening is as follows. First, the patient is asked to bow their head deeply in the left lateral position. We put a hand on the back of the patient’s head and push it forward. The patient is then asked to lift the chin as far as possible. In order to inspect the oral cavity, we insert an endoscope without a mouthpiece. After observation of the oral cavity, the endoscope was inserted through the nose. When the tip of the endoscope reached caudal to the uvula, the patient opened his mouth wide, stuck his tongue forward as much as possible and made a vocal sound like “ayyy”. The endoscopist caused the endoscope to U-turn and observed the oropharynx, in particular the radix linguae (Intra-oropharyngeal U-turn method). For examination of the hypopharynx and the orifice of the esophagus, the patient is asked to blow hard and puff their cheeks while the mouth remains closed (Trumpet maneuver). Results 8 elderly cases were excluded because they could not perform the adequate ballooning. Finally, 62 cases were investigated. The ballooning the pyriform sinus and posterior wall not only allows accurate assessment of the stretched pharyngeal mucosa but also gives a view of postcricoid subsite and the orifice of the esophagus. The wide endoscopic view of the pharynx was obtained in a series of the procedures (excellent=53/62, 85.4%; good=7/52, 4.5%; and poor=2/62, 7.6%). Among 70 patients, 6 superficial lesions (8.6%) at the oropharynx(n=1) and hypopharynx (n=5) were discovered with BLI system. Mucosal redness, a pale thickened mucosa, white deposits or loss of a normal vascular pattern, well demarcated areas covered with scattered dots are important characteristics to diagnose superficial carcinoma. Conclusion The more progress achieved in transnasal endoscopy rapidly in the last few years, it can improve for observing the blind area using trans-oral endoscopy, therefore the trans-nasal endoscope will be a standard tool for the screening of the upper gastrointestinal tract in the near future

Urban land planning: The role of a Master Plan in influencing local temperatures

Land use planning (LUP) is central for managing issues related to climatic variation in urban environments. However, Master Plans (MPs) usually do not include climatic aspects, and few studies have addressed climate change at the urban scale, especially in developing countries. This paper proposes a framework with ten categories for assessment of climatic variation in urban LUP. Each category comprises attributes that describe a complex of relationships in influencing local temperature variations. They are analyzed for the case of the Master Plan of Porto Alegre (MPPA), the Southernmost metropolis of Brazil. It is concluded that the MPPA is strongly grounded in climate-related land and zoning coordination, but exhibits weaknesses in building, cartographical and social aspects considered synergistically relevant for tackling problems related to urban climate variation. Furthermore, the MPPA does not contain provisions related to monitoring of local climate and greenhouse gases (GHG) emissions and it is ineffective for improving energy efficiency. Specific MPPA failures stemming from these weaknesses include: an increase of 21.79% in the city's urbanized area from 1986 to 2011 to accommodate a similar increase in population, with significant horizontal sprawl; average temperature rise of 0.392. °C from 1991-2000 to 2001-2010, with statistically significant increases in temperature found since 1931; significant vehicle traffic increases, especially since 2007. From these findings, it is possible to conclude that the MPPA does not offer answers to all the imbalances related to land use, and therefore gives insufficient support to tackle the issue of rising temperatures

E-selectin as a prognostic factor of patients hospitalized due to acute inflammatory respiratory diseases

When examining patients with acute inflammatory respiratory diseases, it is difficult to distinguish between infectious pneumonia and interstitial pneumonia and predict patient prognosis at the beginning of treatment. In this study, we assessed whether endothelial selectin (E-selectin) predicts the outcome of patients with acute inflammatory respiratory diseases. We measured E-selectin serum levels in 101 patients who were admitted to our respiratory care unit between January 2013 and December 2013 because of acute inflammatory respiratory diseases that were eventually diagnosed as interstitial pneumonia (n = 38) and lower respiratory tract infection (n = 63). Seven of these patients (n = 101) died. The pneumonia severity score was significantly higher and the oxygen saturation of arterial blood measured by pulse oximeter (SpO2)/fraction of inspiratory oxygen (FiO2) was significantly lower in the deceased patients than in the surviving patients. There were significantly fewer peripheral lymphocytes and significantly higher E-selectin serum levels in the deceased patients than in the surviving patients. In the multiple logistic regression analysis, the E-selectin serum levels and SpO2/FiO2 ratio were independent predictive factors of prognosis. The risk of death during acute respiratory disease was determined using a receiver operating characteristic (ROC) curve analysis. The area under the curve (AUC) was 0.871 as calculated from the ES, and the cutoff value was 6453.04 pg/ml, with a sensitivity of 1.00 and a specificity of 0.72 (p = 0.0027). E-selectin may be a useful biomarker for predicting the prognosis of patients with acute inflammatory respiratory diseases