Portable infrared pupillometry in critical care

被引:0
|
作者
Merlin D. Larson
Vineeta Singh
机构
[1] University of California,Department of Anesthesia and Perioperative Care
[2] University of California,Department of Neurology
[3] University of California,Departments of Anesthesiology and Neurology
来源
Critical Care | / 20卷
关键词
Pupil; Pupillometry; Critical care; Brain injury;
D O I
暂无
中图分类号
学科分类号
摘要
Infrared pupillometry was introduced in 1962 but portable instruments that use this technology have only recently become available in the hospital setting. Questions surrounding the accuracy of these instruments have been addressed by documenting the inter-observer agreement on pupillary measurements and also by comparisons with standard pen-light examinations. The following commentary summarizes the development of these devices and provides a wider perspective on how the pupil and its reflexes might be used in providing care for patients with critical illness.
引用
收藏
相关论文
共 50 条
  • [21] Evaluation of a near-infrared automated blood glucose monitor for use in critical care settings
    S Hendee
    S Vanslyke
    F Stout
    M Borrello
    D Welsh
    A Ross
    A Fettig
    S Martha
    A Truong
    R Robinson
    R Thompson
    Critical Care, 12 (Suppl 2):
  • [22] "The eyes are the windows of the soul": Portable automated pupillometry to monitor autonomic nervous activity in CO2 narcosis: A case report
    Yamaguchi, Junko
    Kinoshita, Kosaku
    Hosokawa, Toru
    Ihara, Shingo
    MEDICINE, 2023, 102 (19) : E33768
  • [23] Critical care
    Clutton-Brock, T.
    BJOG-AN INTERNATIONAL JOURNAL OF OBSTETRICS AND GYNAECOLOGY, 2011, 118 : 173 - 180
  • [24] Reliability of standard pupillometry practice in neurocritical care: an observational, double-blinded study
    Couret, David
    Boumaza, Delphine
    Grisotto, Coline
    Triglia, Thibaut
    Pellegrini, Lionel
    Ocquidant, Philippe
    Bruder, Nicolas J.
    Velly, Lionel J.
    CRITICAL CARE, 2016, 20
  • [25] Prognostic value of automated pupillometry: an unselected cohort from a cardiac intensive care unit
    Obling, Laust
    Hassager, Christian
    Illum, Charlotte
    Grand, Johannes
    Wiberg, Sebastian
    Lindholm, Matias Greve
    Winther-Jensen, Matilde
    Kondziella, Daniel
    Kjaergaard, Jesper
    EUROPEAN HEART JOURNAL-ACUTE CARDIOVASCULAR CARE, 2020, 9 (07) : 779 - 787
  • [26] Clinical review: Critical care transport and austere critical care
    David H Rice
    George Kotti
    William Beninati
    Critical Care, 12
  • [27] Critical Care Management after Cardiac Arrest
    Friberg, Hans
    Cronberg, Tobias
    SEMINARS IN NEUROLOGY, 2016, 36 (06) : 542 - 549
  • [28] Critical Bias in Critical Care Devices
    Charpignon, Marie-Laure
    Byersb, Joseph
    Cabral, Stephanie
    Celi, Leo Anthony
    Fernandes, Chrystinne
    Gallifantg, Jack
    Lough, Mary E.
    Mlombwa, Donald
    Moukheiber, Lama
    Ong, Bradley Ashley
    Panitchote, Anupol
    Williamo, Wasswa
    Wong, An-Kwok Ian
    Nazer, Lama
    CRITICAL CARE CLINICS, 2023, 39 (04) : 795 - 813
  • [29] Defining the surgical critical care research agenda: Results of a gaps analysis from the Critical Care Committee of the American Association for the Surgery of Trauma
    Kim, Dennis Y.
    Lissauer, Matt
    Martin, Niels
    Brasel, Karen
    JOURNAL OF TRAUMA AND ACUTE CARE SURGERY, 2020, 88 (02) : 320 - 329
  • [30] Noninvasive Neuromonitoring Modalities in Children Part I: Pupillometry, Near-Infrared Spectroscopy, and Transcranial Doppler Ultrasonography
    Marlina E. Lovett
    Jennifer M. MacDonald
    Marina Mir
    Suman Ghosh
    Nicole F. O’Brien
    Kerri L. LaRovere
    Neurocritical Care, 2024, 40 : 130 - 146
12345