著者
Satoshi Hori Kosaku Kinoshita
出版者
日本毒性学会
雑誌
The Journal of Toxicological Sciences (ISSN:03881350)
巻号頁・発行日
vol.41, no.6, pp.765-773, 2016-12-01 (Released:2016-11-16)
参考文献数
12
被引用文献数
10

OBJECTIVE: The purpose of this study was to identify the clinical aspects leading to overdose of multiple psychotropic drugs, in order to determine areas which need attention in the proper treatment of overdose patients. METHODS: Patients who were treated for overdose of psychotropic drugs at our emergency and critical center over two years were targeted. The clinical data was gathered from the medical records and database of all patients, including age, gender, vital signs, and laboratory data, drugs, and medical complications during hospital stay. In addition primary patient care at the emergency department was examined. RESULTS: Among the 277 patients treated during this study period, 255 (74.0%) used two or more types of psychotropic drugs. Risk factors associated with endotracheal intubation and aspiration pneumonitis included the use of antipsychotics and/or barbiturates as types of overdose drugs. The mean number of days in the ICU was 3.4 days. Seventy-four patients (26.7%) stayed 4 days or more in the ICU of which 16 patients (5.8%) still had suicidal thoughts. A significantly higher incidence of extended ICU stay or endotracheal intubation and aspiration pneumonitis was observed in the group who overdosed on more than 50 or 60 tablets of psychotropic drugs, respectively. CONCLUSIONS: Patients who ingested an overdose of more than 60 tablets of psychotropic drugs should be considered a high-risk group requiring intensive care with extended ICU stay. In case of including antipsychotics and/or barbiturates, the patient should be observed carefully due to a higher risk of medical complications.
著者
Kota Suzuki Jinan Cui Jiang Peilu Hanseul Kim Yumi Yamaguchi Satoshi Hori Masaaki Hirayama Ryoji Kanno
出版者
The Ceramic Society of Japan
雑誌
Journal of the Ceramic Society of Japan (ISSN:18820743)
巻号頁・発行日
vol.131, no.10, pp.717-722, 2023-10-01 (Released:2023-10-01)
参考文献数
20

In this study, high-sulfur-containing carbon replica (sulfur-rich S-CR) composites were prepared using a melt-diffusion method. Melt diffusion under vacuum enabled the introduction of four times the weight ratio of sulfur into the mesopores of a carbon replica (CR). The obtained sulfur-rich S-CR exhibited an initial discharge capacity of 700 mAh gsulfur−1, indicating the low utilization of sulfur in the composite. The classification of the particle sizes of the solid electrolyte and CR contributed to the improvement in electrochemical performance. An initial discharge capacity of over 1,200 mAh g−1 was confirmed for the S-CR composite using the smaller solid electrolyte and CR prepared via a dry classification process. An analysis of the effect of the additives indicated that the rational design of electronic and ionic conduction pathways is required for higher cycle performance when using sulfur-rich S-CRs.
著者
Takumi Yabuzaki Miho Sato Hanseul Kim Kenta Watanabe Naoki Matsui Kota Suzuki Satoshi Hori Kazuhiro Hikima Satoshi Obokata Hiroyuki Muto Atsunori Matsuda Ryoji Kanno Masaaki Hirayama
出版者
The Ceramic Society of Japan
雑誌
Journal of the Ceramic Society of Japan (ISSN:18820743)
巻号頁・発行日
vol.131, no.10, pp.675-684, 2023-10-01 (Released:2023-10-01)
参考文献数
36
被引用文献数
1

Sulfide-type solid electrolytes for all-solid-state lithium-ion batteries are required to have high ionic conductivity, high (electro) chemical stability, and suitable mechanical properties. Compositing different materials is widely performed in developing multifunctional materials. However, only a few studies have investigated sulfide electrolytes due to the concern of lowering ionic conductivity. In this study, composite electrolytes comprising Li10GeP2S12 (LGPS)-type electrolytes and nanosized Al2O3 are fabricated by a solid-state reaction. Al2O3 particles are mainly located in the voids between LGPS particles, whereas very limited oxygen content is substituted for sulfur in the LGPS structure. LGPS–Al2O3 composites exhibit ionic conductivities of ∼5 mS cm−1 without significant changes by compositing Al2O3. LGPS–Al2O3 composites are softer and have higher atmospheric stability than uncomposed LGPS. All solid-state cells that use air-exposed LGPS–Al2O3 as a separator layer exhibit an improved cycle retention compared with that using air-exposed LGPS. These results demonstrate that electrolyte compositing is an effective means of improving other properties while maintaining high lithium ionic conductivity.