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Hiroki Higashihara,Yusuke Ono,Kaisyu Tanaka,Kosuke Tomotake,Noriyuki Tomiyama 소화기인터벤션의학회 2021 Gastrointestinal Intervention Vol.10 No.4
Conventional transarterial chemoembolization (TACE) using ethiodized oil and gelatin sponge (GS) particles is a standard treatment for unresectable BCLC-B stage hepatocellular carcinoma (HCC). Ethiodized oil can cause temporary embolic micro-interactions in tumor sinuses, portal veins, hepatic venous sinuses, and arteries as a temporary embolic material for the microvasculature. Using GS particles as an added embolic material, strong ischemic effects can be achieved not only in HCC, but also in the surrounding liver parenchyma. In recent years, various technical innovations in TACE using ethiodized oil have been made in Japan to improve the outcomes of TACE, such as a device for emulsifying ethiodized oil and water-soluble anticancer drugs, the use of intraoperative embolization guidance software to plan embolization during TACE, and the introduction of various microcatheters. This report examines some of the technical innovations that have been adopted to improve TACE outcomes.
Hiroki Higashihara,Yusuke Ono,Kaisyu Tanaka,Kosuke Tomotake,Noriyuki Tomiyama 소화기인터벤션의학회 2021 International journal of gastrointestinal interven Vol.10 No.4
Conventional transarterial chemoembolization (TACE) using ethiodized oil and gelatin sponge (GS) particles is a standard treatment for unresectable BCLC-B stage hepatocellular carcinoma (HCC). Ethiodized oil can cause temporary embolic micro-interactions in tumor sinuses, portal veins, hepatic venous sinuses, and arteries as a temporary embolic material for the microvasculature. Using GS particles as an added embolic material, strong ischemic effects can be achieved not only in HCC, but also in the surrounding liver parenchyma. In recent years, various technical innovations in TACE using ethiodized oil have been made in Japan to improve the outcomes of TACE, such as a device for emulsifying ethiodized oil and water-soluble anticancer drugs, the use of intraoperative embolization guidance software to plan embolization during TACE, and the introduction of various microcatheters. This report examines some of the technical innovations that have been adopted to improve TACE outcomes.
Wee Nicole Kessa,Git Kim-Ann,Lee Wen-Jeng,Raval Gaurang,Pattokhov Aziz,Ho Evelyn Lai Ming,Chuapetcharasopon Chamaree,Tomiyama Noriyuki,Ng Kwan Hoong,Tan Cher Heng 대한영상의학회 2024 Korean Journal of Radiology Vol.25 No.7
Artificial intelligence (AI) is rapidly gaining recognition in the radiology domain as a greater number of radiologists are becoming AI-literate. However, the adoption and implementation of AI solutions in clinical settings have been slow, with points of contention. A group of AI users comprising mainly clinical radiologists across various Asian countries, including India, Japan, Malaysia, Singapore, Taiwan, Thailand, and Uzbekistan, formed the working group. This study aimed to draft position statements regarding the application and clinical deployment of AI in radiology. The primary aim is to raise awareness among the general public, promote professional interest and discussion, clarify ethical considerations when implementing AI technology, and engage the radiology profession in the ever-changing clinical practice. These position statements highlight pertinent issues that need to be addressed between care providers and care recipients. More importantly, this will help legalize the use of non-human instruments in clinical deployment without compromising ethical considerations, decision-making precision, and clinical professional standards. We base our study on four main principles of medical care—respect for patient autonomy, beneficence, non-maleficence, and justice.