RESUMO
This case report describes a 91-year-old bedridden man with a complex medical history who presented with fever and low oxygen saturation, suspected to be aspiration pneumonia. Further investigation revealed nephrotic syndrome, microscopic hematuria, and joint pain. The diagnosis of polymyalgia rheumatica (PMR) was considered due to the presence of characteristic symptoms and elevated inflammatory markers despite the inability to perform a kidney biopsy. The patient was treated with low-dose prednisolone (PSL), leading to significant improvement in joint pain, renal function, and overall condition. This case highlights the importance of considering PMR in elderly patients with unexplained nephrotic syndrome and systemic inflammation. Early diagnosis and corticosteroid treatment can improve clinical outcomes and enhance activities of daily living. This report underscores the need for awareness of PMR as a potential cause of nephrotic syndrome in the elderly and the effectiveness of PSL in managing such cases.
RESUMO
Since the discovery of ferroelectricity in a wurtzite-type structure, this structural type has gathered much attention as a next-generation ferroelectric material due to its high polarization value combined with its high breakdown strength. However, the main targets of wurtzite-type ferroelectrics have been limited thus far to simple nitride/oxide compounds. The investigation of new ferroelectric materials with wurtzite-type structures is important for understanding ferroelectricity in such structures. We therefore focus on ß-LiGaO2 in this study. Although AlN and ZnO possess well-known wurtzite-type structures (P63mc), ß-LiGaO2 has a distorted wurtzite-type structure (Pna21), and there are no reports of ferroelectricity in LiGaO2. In this study, we have revealed that LiGaO2 exhibits relatively high barrier height energy for polarization switching, however, Sc doping effectively reduces that energy. Then, we conducted thin film preparation and evaluation for Sc-doped LiGaO2 to observe its ferroelectric properties. We successfully observed ferroelectric behavior by using piezoresponse force microscopy measurements for LiGa0.8Sc0.2O2/SrRuO3/(111)SrTiO3.