Development of a Real time Evaluation System for Microteaching

We have developed an evaluation system for microteaching. Unlike conventional evaluation methods using paper medium, our system enables evaluation comments to be inputted in real time. In addition, our system enables evaluation comments to be displayed using a video while microteaching. As a result, an evaluator is able to input a comment while watching the teaching practice and the student is able to check the comments while watching the video

Magnetic Fe-Co films electroplated in a deep-eutectic-solvent-based plating bath

We fabricated Fe-Co films from a deep eutectic solvent (DES)-based plating bath and investigated magnetic properties of the plated films. The plating baths were obtained by stirring the mixture of choline chloride, ethylene glycol, FeCl2・4H2O, and CoCl2・6H2O. The composition of the plated films depended on the amount of FeCl2・4H2O in the plating bath, and Fe content of the films was varied from 0 to 100 at. %. Depending on the Fe content, the saturation magnetization and the coercivity of the films varied. The Fe76Co24 film shows high saturation magnetization and smooth surface, and the change in the saturation magnetization shows good agreement with the expected change by the Slater-Pauling curve. High current efficiency (>90%) could be obtained in the wide film composition. From these results, we concluded that the DES-based plating bath is one of effective baths for the Fe-Co films with high current efficiency

Electroplated Fe?Ni Films Prepared From Deep Eutectic Solvents

Fe-Ni alloy films were prepared by electroplating in a plating bath containing a choline chloride and ethylene glycol-based deep eutectic solvent (DES). The Fe content of the electroplated films was found to vary from 0 at.% to 100 at.% and was dependent on the amount of Fe reagent in the plating bath. The composition of the electroplated films could be controlled easily by changing the composition of the bath. We observed bcc or fcc Fe-Ni crystalline phase in the electroplated films by X-ray diffraction and confirmed that magnetically soft Fe-Ni alloy films could be obtained from the DES-based bath. The current efficiency for the plating process was as high as >88% over a wide range of the Fe reagent concentrations. Therefore, we conclude that the DES is an attractive solvent for preparing the Fe-Ni alloy films

Quantitative evaluation of the neuroprotective effects of a short-acting β-adrenoceptor antagonist at a clinical dose on forebrain ischemia in gerbils: effects of esmolol on ischemic depolarization and histologic outcome of hippocampal CA1.

BACKGROUND: Neuroprotective effects of esmolol in laboratory and clinical settings have been reported. The present study was designed to quantitatively evaluate the neuroprotective effects of esmolol using logistic regression curves and extracellular potentials. MATERIALS AND METHODS: In 42 gerbils, bilateral occlusion of common carotid arteries was performed for 3, 5, or 7 minutes (n=7 in each group). In treated animals, esmolol (200 µg/kg/min) was administered for 90 minutes, 30 minutes before the onset of ischemia. Direct current potentials were measured in the bilateral CA1 regions, in which histologic evaluation was performed 5 days later. Relations of neuronal damage with ischemic duration and duration of ischemic depolarization were determined using logistic regression curves. RESULTS: There was no significant difference in onset time between the 2 groups (the control group vs. the esmolol group: 1.65±0.46 vs. 1.68±0.45 min, P=0.76), and significant differences in durations of ischemic depolarization were not observed with any ischemic duration. However, logistic regression curves indicated that esmolol has a neuroprotective effect from 2.95 to 7.66 minutes of ischemic depolarization (P<0.05), and esmolol prolonged the duration of ischemic depolarization causing 50% neuronal damage from 4.97 to 6.34 minutes (P<0.05). Logistic regression curves also indicated that esmolol has a neuroprotective effect from 3.77 to 7.74 minutes of ischemic duration (P<0.05), and esmolol prolonged the ischemic duration causing 50% neuronal damage from 4.26 to 4.91 minutes (P<0.05)