Improved reproducibility of regional longitudinal strain in echocardiography by deep learning

被引:0
|
作者
Nyberg, J. [1 ]
Ostvik, A. [1 ]
Salte, I. M. [2 ]
Olaisen, S. [1 ]
Karlsen, S. [3 ]
Dahlslett, T. [3 ]
Smistad, E. [1 ]
Eriksen-Volnes, T. [4 ]
Brunvand, H. [3 ]
Edvardsen, T. [5 ]
Haugaa, K. H. [5 ]
Lovstakken, L. [1 ]
Dalen, H. [1 ]
Grenne, B. [1 ]
机构
[1] Norwegian Univ Sci & Technol, Trondheim, Norway
[2] Akershus Univ Hosp, Dept Radiol, Oslo, Norway
[3] Sorlandet Hosp, Dept Med, Arendal, Norway
[4] St Olavs Hosp, Clin Cardiol, Trondheim, Norway
[5] Oslo Univ Hosp, Dept Cardiol, Rikshosp, Oslo, Norway
来源
EUROPEAN HEART JOURNAL | 2024年 / 45卷
关键词
D O I
10.1093/eurheartj/ehae666.031
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
引用
收藏
页数:2
相关论文
共 50 条
  • [31] Improved segmental myocardial strain reproducibility using deformable registration algorithms compared with feature tracking cardiac MRI and speckle tracking echocardiography
    Wang, Jie
    Li, Weihao
    Sun, Jiayu
    Liu, Hong
    Kang, Yu
    Yang, Dan
    Yu, Liuyu
    Greiser, Andreas
    Zhou, Xiaoyue
    Han, Yuchi
    Chen, Yucheng
    JOURNAL OF MAGNETIC RESONANCE IMAGING, 2018, 48 (02) : 404 - 414
  • [32] Inter‐vendor variability and reproducibility of subcostal left ventricular longitudinal strain
    Fei Fei Gong
    Arvind Nishtala
    Kimberly Chow
    Lua Jafari
    Asra Azizuddin
    Haydee Ramirez
    Sarah Chuzi
    Nausheen Akhter
    The International Journal of Cardiovascular Imaging, 2021, 37 : 1669 - 1678
  • [33] IMPROVED REPRODUCIBILITY OF CONTRAST ECHOCARDIOGRAPHY USING SH-U-454 - EXPERIMENTAL STUDIES WITH DIGITAL SUBTRACTION ECHOCARDIOGRAPHY
    GRUBE, E
    FRITZSCH, T
    ZEITSCHRIFT FUR KARDIOLOGIE, 1986, 75 (06): : 355 - 362
  • [34] Improved description of longitudinal strain solitary waves
    Porubov, A. V.
    Maugin, G. A.
    JOURNAL OF SOUND AND VIBRATION, 2008, 310 (03) : 694 - 701
  • [35] StrainNet: Improved Myocardial Strain Analysis of Cine MRI by Deep Learning from DENSE
    Wang, Yu
    Sun, Changyu
    Ghadimi, Sona
    Auger, Daniel C.
    Croisille, Pierre
    Viallon, Magalie
    Mangion, Kenneth
    Berry, Colin
    Haggerty, Christopher M.
    Jing, Linyuan
    Fornwalt, Brandon K.
    Cao, J. Jane
    Cheng, Joshua
    Scott, Andrew D.
    Ferreira, Pedro F.
    Oshinski, John N.
    Ennis, Daniel B.
    Bilchick, Kenneth C.
    Epstein, Frederick H.
    RADIOLOGY-CARDIOTHORACIC IMAGING, 2023, 5 (03):
  • [36] Deep learning for transesophageal echocardiography view classification
    Steffner, Kirsten R.
    Christensen, Matthew
    Gill, George
    Bowdish, Michael
    Rhee, Justin
    Kumaresan, Abirami
    He, Bryan
    Zou, James
    Ouyang, David
    SCIENTIFIC REPORTS, 2024, 14 (01)
  • [37] Radiomics in Echocardiography: Deep Learning and Echocardiographic Analysis
    Kusunose, Kenya
    CURRENT CARDIOLOGY REPORTS, 2020, 22 (09)
  • [38] Deep Learning Brings New Era in Echocardiography
    Ishizu, Tomoko
    CIRCULATION JOURNAL, 2022, 86 (01) : 96 - 97
  • [39] Segmentation of Echocardiography Based on Deep Learning Model
    Huang, Helin
    Ge, Zhenyi
    Wang, Hairui
    Wu, Jing
    Hu, Chunqiang
    Li, Nan
    Wu, Xiaomei
    Pan, Cuizhen
    ELECTRONICS, 2022, 11 (11)
  • [40] Deep learning for transesophageal echocardiography view classification
    Kirsten R. Steffner
    Matthew Christensen
    George Gill
    Michael Bowdish
    Justin Rhee
    Abirami Kumaresan
    Bryan He
    James Zou
    David Ouyang
    Scientific Reports, 14
12345