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Hyo Sub Jun,Kuhyun Yang,Jongyeon Kim,Jin Pyeong Jeon,Jun Hyong Ahn,Seung Jin Lee,Hyuk Jai Choi,Jongwook Choi,Sung Min Cho,Jong Kook Rhim 대한신경외과학회 2023 Journal of Korean neurosurgical society Vol.66 No.5
We aimed to develop a cloud-based telemedicine platform for patients with intracerebral hemorrhage (ICH) at local hospitals in rural and underserved areas in Gangwon-do using artificial intelligence and non-face-to-face collaboration treatment technology. This is a prospective and multi-center development project in which neurosurgeons from four university hospitals in Gangwondo will participate. Information technology experts will verify and improve the performance of the cloud-based telemedicine collaboration platform while treating ICH patients in the actual medical field. Problems identified will be resolved, and the function, performance, security, and safety of the telemedicine platform will be checked through an accredited certification authority. The project will be carried out over 4 years and consists of two phases. The first phase will be from April 2022 to December 2023, and the second phase will be from April 2024 to December 2025. The platform will be developed by dividing the work of the neurosurgeons and information technology experts by setting the order of items through mutual feedback. This article provides information on a project to develop a cloud-based telemedicine platform for acute ICH patients in Gangwon-do.
Hyo Sub Jun,Kuhyun Yang,Jongyeon Kim,Jin Pyeong Jeon,Sun Jeong Kim,Jun Hyong Ahn,Seung Jin Lee,Hyuk Jai Choi,In Bok Chang,Jeong Jin Park,Jong-Kook Rhim,Sung-Chul Jin,Sung Min Cho,Sung-Pil Joo,Seung Hu The Korean Neurosurgical Society 2024 Journal of Korean neurosurgical society Vol.67 No.4
Previously, we reported the concept of a cloud-based telemedicine platform for patients with intracerebral hemorrhage (ICH) at local emergency rooms in rural and medically underserved areas in Gangwon state by combining artificial intelligence and remote consultation with a neurosurgeon. Developing a telemedicine ICH treatment protocol exclusively for doctors with less ICH expertise working in emergency rooms should be part of establishing this system. Difficulties arise in providing appropriate early treatment for ICH in rural and underserved areas before the patient is transferred to a nearby hub hospital with stroke specialists. This has been an unmet medical need for decades. The available reporting ICH guidelines are realistically applicable in university hospitals with a well-equipped infrastructure. However, it is very difficult for doctors inexperienced with ICH treatment to appropriately select and deliver ICH treatment based on the guidelines. To address these issues, we developed an ICH telemedicine protocol. Neurosurgeons from four university hospitals in Gangwon state first wrote the guidelines, and professors with extensive ICH expertise across the country revised them. Guidelines and recommendations for ICH management were described as simply as possible to allow more doctors to use them easily. We hope that our effort in developing the telemedicine protocols will ultimately improve the quality of ICH treatment in local emergency rooms in rural and underserved areas in Gangwon state.
Chanbo Eun,Hongbum Kim,Suhee Cho,Kuhyun Yang 대한뇌혈관외과학회 2024 Journal of Cerebrovascular and Endovascular Neuros Vol.26 No.2
Isolated middle cerebral artery dissection (MCAD) is rare but increasingly recognized as a significant clinical entity, particularly in younger adults. Ischemic stroke is the most common manifestation in symptomatic cases but symptoms can vary in severity from headaches to severe neurologic deficits. Due to its rarity and unpredictable clinical course, there is no established treatment strategy for isolated MCAD. Through two case reports, we reviewed the post-operative clinical course of MCAD under different treatment modalities. Case 1 was a 21-year-old woman who presented to the emergency department with headaches and left-side hemiparesis. Isolated MCAD was diagnosed and she was successfully treated with the placement of a self-expandable stent and subsequent chemical angioplasty for post-stent vasospasm. Case 2 was a 35-year-old woman who presented to the emergency department with left-side hemiparesis and dysarthria. Isolated MCAD was diagnosed and she was successfully treated with superficial temporal artery (STA) to middle cerebral artery (MCA) anastomosis.
A Ruptured lenticulostriate artery aneurysm in moyamoya disease treated with Onyx embolization
Byeon Yukyeng,Kim Hong Bum,You Seung-Hoon,Yang Kuhyun 대한뇌혈관외과학회 2022 Journal of Cerebrovascular and Endovascular Neuros Vol.24 No.2
Lenticulostriate artery (LSA) aneurysms are uncommon. Here, we report one case of ruptured LSA aneurysm which is related to Moyamoya disease (MMD). Surgical treatment of this aneurysm is challenging because of its deep location and complex neural structures around the LSA. We report one case treated with endovascular Onyx embolization, successfully and review LSA aneurysm associated with MMD.
9 dB의 확장된 Back-Off에서 높은 효율을 갖는 Outphasing 로드 네트워크 기반의 3.3 GHz Doherty 전력증폭기
정호석(Hoseok Jung),오한식(Hansik Oh),진일비(Yifei Chen),최우진(Woojin Choi),최영찬(Youngchan Choi),우승민(Seungmin Woo),권구현(Kuhyun Kwon),양영구(Youngoo Yang) 한국전자파학회 2021 한국전자파학회논문지 Vol.32 No.11
본 논문에서는 outphsing 로드 네트워크를 이용하여 back-off 영역을 9 dB로 확장한 Doherty 전력증폭기를 제안하였으며 3.3 GHz 주파수 대역에서 설계하여 실험적으로 검증하였다. Outphasing 로드 네트워크를 사용하여 출력 전력의 결합 노드에서 carrier 및 peaking 증폭기의 로드 임피던스가 complex conjugate 관계를 갖도록 설계하였다. 이를 통하여 carrier 증폭기의 로드 임피던스의 변조비가 4배가 되도록 함으로서 back-off 영역을 9 dB로 확장하였다. Carrier 증폭기와 peaking 증폭기에 모두 Wolfspeed사의 6 W 트랜지스터(CGH40006P)를 사용하였다. 제작된 Doherty 전력증폭기를 3.3 GHz의 주파수에 대하여 측정한 결과, 최대 출력전력 42.3 dBm에서 76.9 %의 효율 특성을 얻었고 최대 출력 전력으로부터 9 dB back-off 된 33.3 dBm의 출력 전력에서 59.6 %의 효율 특성 및 11.0 dB의 전력 이득 특성을 얻었다. In this paper, a Doherty power amplifier based on an outphasing load network was proposed to have a high efficiency at a back-off of 9 dB. The proposed Doherty power amplifier was designed and experimentally verified at a frequency of 3.3 GHz. The load impedances of the carrier and peaking amplifiers to the combining node were designed to have a complex conjugate relationship based on the outphasing load network. Therefore, the back-off output power for the efficiency peak could be extended to 9 dB by quadrupling the load impedance modulation of the carrier amplifier. A 6 W GaN HEMT (CGH40006P) from Wolfspeed was used to design both the carrier and the peaking amplifiers. The implemented Doherty power amplifier was measured at 3.3 GHz frequency. Drain efficiencies of 76.9 % at the maximum output power of 42.3 dBm and 59.6 % at the 9 dB back-off output power of 33.3 dBm with 11.0 dB power gain were achieved.