TY - JOUR
T1 - Clinical practice guidelines for telesurgery 2022
T2 - Committee for the promotion of remote surgery implementation, Japan Surgical Society
AU - Mori, Masaki
AU - Hirano, Satoshi
AU - Hakamada, Kenichi
AU - Oki, Eiji
AU - Urushidani, Shigeo
AU - Uyama, Ichiro
AU - Eto, Masatoshi
AU - Ebihara, Yuma
AU - Kawashima, Kenji
AU - Kanno, Takahiro
AU - Kitsuregawa, Masaru
AU - Kinugasa, Yusuke
AU - Kobayashi, Junjiro
AU - Nakamura, Hiroshige
AU - Noshiro, Hirokazu
AU - Mandai, Masaki
AU - Morohashi, Hajime
N1 - Publisher Copyright:
© The Author(s) 2024.
PY - 2024/8
Y1 - 2024/8
N2 - Telesurgery is expected to improve medical access in areas with limited resources, facilitate the rapid dissemination of new surgical procedures, and advance surgical education. While previously hindered by communication delays and costs, recent advancements in information technology and the emergence of new surgical robots have created an environment conducive to societal implementation. In Japan, the legal framework established in 2019 allows for remote surgical support under the supervision of an actual surgeon. The Japan Surgical Society led a collaborative effort, involving various stakeholders, to conduct social verification experiments using telesurgery, resulting in the development of a Japanese version of the “Telesurgery Guidelines” in June 2022. These guidelines outline requirements for medical teams, communication environments, robotic systems, and security measures for communication lines, as well as responsibility allocation, cost burden, and the handling of adverse events during telesurgery. In addition, they address telementoring and full telesurgery. The guidelines are expected to be revised as needed, based on the utilization of telesurgery, advancements in surgical robots, and improvements in information technology.
AB - Telesurgery is expected to improve medical access in areas with limited resources, facilitate the rapid dissemination of new surgical procedures, and advance surgical education. While previously hindered by communication delays and costs, recent advancements in information technology and the emergence of new surgical robots have created an environment conducive to societal implementation. In Japan, the legal framework established in 2019 allows for remote surgical support under the supervision of an actual surgeon. The Japan Surgical Society led a collaborative effort, involving various stakeholders, to conduct social verification experiments using telesurgery, resulting in the development of a Japanese version of the “Telesurgery Guidelines” in June 2022. These guidelines outline requirements for medical teams, communication environments, robotic systems, and security measures for communication lines, as well as responsibility allocation, cost burden, and the handling of adverse events during telesurgery. In addition, they address telementoring and full telesurgery. The guidelines are expected to be revised as needed, based on the utilization of telesurgery, advancements in surgical robots, and improvements in information technology.
KW - Communication networks
KW - Information technology
KW - Remote robotic surgery
KW - Surgical education
KW - Telemedicine
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U2 - 10.1007/s00595-024-02863-5
DO - 10.1007/s00595-024-02863-5
M3 - Article
C2 - 38829562
AN - SCOPUS:85195175213
SN - 0941-1291
VL - 54
SP - 817
EP - 828
JO - Surgery today
JF - Surgery today
IS - 8
ER -