[Evaluation of Accuracy and Availability of the Antimicrobial Resistance Testing by the Direct Disc Methods Using AmpC/ESBL Differential Discs in the Samples in Which Enterobacterales are Detected in Blood Culture].

The emergence and dissemination of drug-resistant Gram-negative bacilli have been recognized as a serious health concern in worldwide. The isolation rates of Extended-Spectrum ß-lactamases (ESBL) and AmpC ß-lactamases (AmpC) producing gram negative rods are increasing in our hospital. In the present study, we evaluate the availability of the antimicrobial resistance testing by the direct disc methods using AmpC/ESBL differential discs. One hundred and ten strains of Enterobacterales were isolated during the observation period, of which 19 strains (17%) were ESBL-positive and 6 strains (5%) were AmpC-positive. The positive and negative coincidence rate between direct disc methods and standard disc methods were 100%. We conclude that the direct disc method is a useful and rapid detection method for ESBL and AmpC from blood culture samples.

Successful management of hemodialysis-dependent refractory myeloma with modified daratumumab, bortezomib and dexamethasone regimen.

A 71-year-old petite Japanese woman was diagnosed with IgG λ-type multiple myeloma with acute kidney injury, severe anemia, and a pathological rib fracture. Emergent hemodialysis was initiated combined with chemotherapy including bortezomib, lenalidomide, and pomalidomide, but myeloma had become refractory due to the treatments. Therefore, a combination therapy with weekly daratumumab (16 mg/kg), bortezomib (0.7 mg/m2), and dexamethasone was started. Daratumumab was administered on a non-dialysis day with a reduced infusion speed to avoid acute water load. No infusion-related adverse events were observed throughout the treatment. Daratumumab and bortezomib were administrated weekly for three times in the first cycle and a hematological very good partial response was achieved. Then, the treatment schedule was reduced to once every three weeks from the 2nd cycle, the very good partial response had been maintained. Fourteen months after the initiation of maintenance hemodialysis, the patient was able to reduce dialysis frequency due to improvement of renal function. A modified daratumumab, bortezomib and dexamethasone regimen could be a valuable treatment option for dialysis-dependent myeloma patients.

Enhanced Operational Durability of Thermally Activated Delayed Fluorescence-Based Organic Light-Emitting Diodes with a Triazine Electron Transporter.

In organic light-emitting diodes (OLEDs) based on materials that show thermally activated delayed fluorescence (TADF), the internal quantum efficiency of 100 % can be obtained without using phosphorescence-based organometallics that contain rare metals. Therefore, with TADF-based emitters, it is possible to fabricate high-performing OLEDs at a lower cost. However, compared with fluorescence- and phosphorescence-based OLEDs, an understanding of degradation mechanisms in TADF-based OLEDs is still insufficient for future commercialization. In particular, it is widely recognized that the development of electron transport materials is crucial for improving OLED characteristics, especially driving voltages and operational durability. In this study, it was demonstrated that the operational durability of TADF-based OLEDs was greatly improved by introducing a triazine-based material of 2,4,6-tris(1,1'-biphenyl-4-yl)-[1,3,5]triazine (pT2T) as a hole-blocking layer (HBL) compared with a conventional HBL material of 2,4,6-tris(biphenyl-3-yl)-[1,3,5]triazine (T2T). Several experiments were carried out to make the reasons of the improved durability clearer, and attributed the improved durability to the shift of a carrier recombination zone from the emitting layer/HBL interface and the suppressed formation of excited-state quenchers in the pT2T HBL, because of the higher electron mobility of pT2T and the better stability of its radical anion state.

Highly Efficient Aggregation-Induced Room-Temperature Phosphorescence with Extremely Large Stokes Shift Emitted from Trinuclear Gold(I) Complex Crystals.

Highly efficient (≈75% quantum yield), aggregation-induced phosphorescence is reported. The phosphorescence is emitted at room temperature and in the presence of air from crystals of trinuclear Au(I) complexes, accompanied by an extremely large Stokes shift of 2.2 × 104 cm-1 (450 nm). The mechanism of the aggregation-induced room-temperature phosphorescence from the Au complex crystals was investigated in terms of the crystal packing structure and the primary structure of the molecules. It was found that two kinds of intermolecular interactions occurred in the crystals, and that these multiple dual-mode intermolecular interactions in the crystals play a crucial role in the in-air room-temperature phosphorescence of the trinuclear Au(I) complexes.