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Zoster-associated limb paresis presenting as femoral neuropathy
Hwang, Inha,Yun, UnKyu,Bae, Heewon,Han, Jeong Ho,Ha, Sang-Won,Kim, Doo-eung The Korean Society of Clinical Neurophysiology 2019 Annals of Clinical Neurophysiology Vol.21 No.1
Zoster-associated limb paresis is a relatively uncommon complication of herpes zoster that is characterized by focal motor weakness. Awareness of this disorder is important to avoid unnecessary invasive investigations and to ensure appropriate treatment. We report a case of a herpes zoster involving the femoral nerve.
Zoster-associated limb paresis presenting as femoral neuropathy
Inha Hwang,UnKyu Yun,Heewon Bae,Jeong Ho Han,Sang-Won Ha,Doo-eung Kim 대한임상신경생리학회 2019 Annals of Clinical Neurophysiology Vol.21 No.1
Zoster-associated limb paresis is a relatively uncommon complication of herpes zoster that is characterized by focal motor weakness. Awareness of this disorder is important to avoid unnecessary invasive investigations and to ensure appropriate treatment. We report a case of a herpes zoster involving the femoral nerve.
정대호,Hwang Inha,손정익 한국원예학회 2022 Horticulture, Environment, and Biotechnology Vol.63 No.6
CO2 is usually supplied to the bottom of crops in greenhouses. However, optimal CO 2 enrichment positions may diff er depending on plant architecture and cultivation conditions. The objective of this study was to estimate the photosynthesis of greenhouse-grown mangoes ( Mangifera indica L. “Irwin”) depending on the vertical position of CO 2 enrichment using a three-dimensional plant model and ray-tracing simulation. Twenty-seven CO 2 sensors were installed at each vertex of a grid around a 4-year-old mango tree. The distributions of CO 2 concentration were measured under four diff erent CO 2 treatments: without CO 2 enrichment (control) and with CO 2 enrichment at 0.5 m (E0.5), 1.0 m (E1.0), and 1.5 m (E1.5). The intercepted light intensity of the plants was estimated using ray-tracing simulations. The leaf photosynthetic rates were calculated using the Faquhar, von Caemmerer, and Berry models. The accumulated CO 2 consumptions from 08:00 to 10:30 were obtained under the four CO 2 treatments. The CO 2 concentrations in E0.5, E1.0, and E1.5 were 45.6%, 48.4%, and 153.6% higher than that of the control (544.6, 455.8, and 406.3 μmol CO 2·mol–1, respectively). Using the leaf photosynthesis model at each position, the CO 2 consumptions per plant in E0.5, E1.0, and E1.5 were estimated to be 50.0%, 63.6%, and 49.8% higher, respectively, than that of the control (1.76 g CO 2·h–1). The highest CO 2 consumption per plant was estimated to be 8.82 g CO2, obtained by enriching CO 2 at 1.2 m. The results confi rm that CO 2 enrichment at adequate positions can enhance crop photosynthesis and CO 2 utilization effi ciency in greenhouses.