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신경병증성 통증에 대한 소건중탕의 임상적 고찰: 후향적 환자군 관찰 연구
조효림,최성경,성원석,권용주,김영수,조선영,김은정,Jo, Hyo-Rim,Choi, Seong-Kyeong,Sung, Won-Suk,Kwon, Yong-Ju,Kim, Young-Soo,Cho, Sun-Young,Kim, Eun-Jung 대한한의학방제학회 2021 大韓韓醫學方劑學會誌 Vol.29 No.4
Objectives: This study aimed to analyze the effectiveness of Sogunjung-tang on neuropathic pain. Methods: This study was conducted on 50 cases of patients with neuropathic pain who were treated in LUA clinic from Jun 2021, to Oct 2021. All patients were treated with Sogunjung-tang, and in some cases, acupuncture or moxibustion was also performed. We measured the efficacy of treatment with a numerical rating scale (NRS), frequency, and duration of pain before treatment, after 1 week, and 3 weeks. Results: Both average pain NRS and worst pain NRS significantly decreased 1 week and 3 weeks after treatment compared to pre-treatment. The frequency and duration of pain did not differ after 1 week of treatment but showed a significant difference after 3 weeks. Conclusions: This study suggests that herbal medicine treatment with Sogunjung-tang reduces pain intensity, frequency, and duration in patients with neuropathic pain.
전자뜸의 시스템 오류에 의한 열폭주 모델 구현 및 해결 방법에 관한 실험적 연구
이병욱 ( Byung Wook Lee ),오용택 ( Yong Taek Oh ),장한솔 ( Hansol Jang ),최성경 ( Seong-kyeong Choi ),조효림 ( Hyo Rim Jo ),성원석 ( Won-suk Sung ),김은정 ( Eun-jung Kim ) 경락경혈학회 2021 Korean Journal of Acupuncture Vol.38 No.4
Objectives : The purpose of this study is to construct a model of the possible thermal runaway of electronic moxibustion and to implement an appropriate risk management method. Methods : To reproduce the system error situation of the electronic moxibustion circuit equipped with microcontroller unit, temperature sensor and heater, a code was set to disable the signal input to temperature sensor and maintain “high” heating signal to heater. The temperature change of electronic moxibustion was compared between 3 types of heater module; module 1 consisting of a combination of heater+0 ohm+0 ohm resistance, module 2 consisting of a combination of heater+Polymeric Positive Temperature Coefficient (PPTC)+0 ohm resistance, and module 3 consisting of a combination of heater+PPTC+10 ohm resistance. The temperature change was measured using a polydimethylsiloxane (PDMS) silicone phantom. After maintaining surface temperature of the phantom at 31∼32℃ for 20 seconds, electronic moxibustion was applied. After operating electronic moxibustion, the temperature change was measured for 660 seconds on the surface and 900 seconds at 2 mm depth. Results : Regardless of the module type, the time-dependent change in temperature showed a rapid rise followed by a gentle curve, and a sharp drop in temperature after reaching the maximum temperature about 10 minutes after the switching the moxibustion on. Temperature measured at the depth of 2 mm below the surface increased slower and to a lesser extent. Module 1 reached highest peak temperature with largest change of temperature at both depths followed by module 2, and 3. Conclusions : Through the combination of PPTC+resistance with the heater of electronic moxibustion, it is possible to limit the rise in temperature even with the software error. Thus, this setting can be used as an independent safety measure for the electronic moxibustion control unit.