Publicaciones
Papel
Raquel GZ, Jorge U, Juan Carlos SM, et al.: The use of a smartphone application to improve stroke code workflow metrics: A pilot study in a comprehensive stroke centre, DIGITAL HEALTH, 2022, Volume 8
Sato H, Kinoshita M, Tani Y, et al.: The health economic effects of an imaging technology–based telemedicine system for rural neuro-emergency patient care, Neurosurgical Focus, 2022, Volume 52, E2
Tanitame K, Arald H, Nosaka R, et al.: 情報通信技術を用いた夜間休日救急医療における医師間画像情報共有, 広島医学, 2022, Vol. 75 No. 5, 191-197
Sanchez CJ, Su A, Sharperson C, Prater AB, et al.: Expedited communication of CT findings for acute stroke using a HIPAA-compliant messaging system, Neuroscience Informatics, 2022, 2
Ishibashi T, Kaku S, Sonoda S, Murayama Y: Remote neuro-endovascular consultation using a secure telemedicine system: A feasibility study, Surgical Neurology International, 2022, 13(47)
Fujita K, Hirayama K, Tsuji N, et al.: 地方二次救急病院における脳神経救急診療への遠隔画像診断支援アプリ「JOIN」導入効果, Journal of Japan Society of Neurological Emergencies & Critical Care, 2021, Vol. 33 No. 2, 34-41
Daly M, Cummings C, Kittell M, Dubuque A, et al.: Validation of field assessment stroke triage for emergency destination for prehospital use in a rural EMS system, American Journal of Emergency Medicine, 2021, Volume 50, 178–182
Sakano T, Urashima M, Takao H, Takeshita K, Kobashi H, Fujiwara T: Differential Kinetics of Cycle Threshold Values during Admission by Symptoms among Patients with Mild COVID-19: A Prospective Cohort Study, International Journal of Environmental Research and Public Health, 2021, 18(15), 8181
Takao H, Sakai K, Mitsumura H, Komatsu T, et al.: A Smartphone Application as a Telemedicine Tool for Stroke Care Management, Neurologia medico-chirurgica, 2021, 61(4), 260-267
Sakai K, Sato T, Komatsu T, Mitsumura H, et al.: Communication-type smartphone application can contribute to reducing elapsed time to reperfusion therapy, Neurological Sciences, 2021
Gisele Sampaio Silva, Lee H. Schwamm: Advances in Stroke, Stroke, 2021, 52(1), 351–355
Martins SO, Mont’Alverne F, Rebello LC, et al.: Thrombectomy for Stroke in the Public Health Care System of Brazil., N Engl J Med, 2020, 382(24), 2316–26
Sakai K, Komatsu T, Iguchi Y, Takao H, et al.: Reliability of Smartphone for Diffusion-Weighted Imaging-Alberta Stroke Program Early Computed Tomography Scores in Acute Ischemic Stroke Patients: Diagnostic Test Accuracy Study, Journal of Medical Internet Research, 2020, 22(6), e15893
Ishii E, Ebner DK, Kimura S: The advent of medical artificial intelligence: Lessons from the Japanese approach., J Intensive Care, 2020, 8(1), 4–9
武田 聡, 竹下 康平, 高尾 洋之: 情報技術を用いた救急医療・災害医療をつなぐ・支える取り組み, 計測と制御, 2020, 59(4), 263-268
花田 一臣, 石子 智士, 木ノ内 玲子, 守屋 潔, et al.: 前眼部撮影用アタッチメントを装着したスマートフォンと医療用social networking service(SNS)を用いた眼科診断支援, 眼科, 2020, 62(4), 399-406
Martins SCO, Weiss G, Almeida AG, et al.: Validation of a Smartphone Application in the Evaluation and Treatment of Acute Stroke in a Comprehensive Stroke Center., Stroke, 2020, 51(1), 240–6
Lima FO, Mont’Alverne FJA, Bandeira D, Nogueira RG: Pre-hospital Assessment of Large Vessel Occlusion Strokes: Implications for Modeling and Planning Stroke Systems of Care., Front Neurol, 2019, 10, 955
Toyoda K, Inoue M, Koga M: Small but Steady Steps in Stroke Medicine in Japan, J Am Heart Assoc, 2019, 8(16), e013306
Munich SA, Tan LA, Nogueira DM, Keigher KM, et al.: Mobile Real-time Tracking of Acute Stroke Patients and Instant, Secure Inter-team Communication – the Join App., Neurointervention, 2017, 12(2), 69-76
Nogueira RG, Silva GS, Lima FO, et al.: The FAST-ED App: A Smartphone Platform for the Field Triage of Patients With Stroke., Stroke, 2017, 48(5), 1278–1284