INCREASED BLOOD PRESSURE AND DEPTH OF CHEST COMPRESSIONS DOES NOT IMPROVE CARDIAC OUTPUT OR ORGAN PERFUSION IN A SWINE MODEL OF PEDIATRIC CARDIAC ARREST

被引:0
|
作者
Mao, Chad [1 ]
Clay, Mark [2 ]
Bone, Clarence [1 ]
Vinten-Johansen, Jakob [1 ]
Maher, Kevin [1 ]
机构
[1] Emory Univ, Atlanta, GA 30322 USA
[2] Univ Texas SW Med Ctr, Dallas, TX USA
来源
CRITICAL CARE MEDICINE | 2010年 / 38卷 / 12期
关键词
D O I
暂无
中图分类号
R4 [临床医学];
学科分类号
1002 ; 100602 ;
摘要
463
引用
收藏
页码:U129 / U129
页数:1
相关论文
共 50 条
  • [21] Simulated mouth-to-mouth ventilation and chest compressions (bystander cardiopulmonary resuscitation) improves outcome in a swine model of prehospital pediatric asphyxial cardiac arrest
    Berg, RA
    Hilwig, RW
    Kern, KB
    Babar, I
    Ewy, GA
    CRITICAL CARE MEDICINE, 1999, 27 (09) : 1893 - 1899
  • [22] How Quickly Does Arterial Blood Pressure Recover After Pauses in Mechanical Chest Compressions in Humans With Out-ofHospital Cardiac Arrest?
    Yin, Rose T.
    Berve, Per Olav
    Skaalhegg, Tore
    Elola, Andoni
    Taylor, Tyson G.
    Walker, Rob G.
    Aramendi, Elisabete
    Chapman, Fred W.
    Wik, Lars
    CIRCULATION, 2023, 148
  • [23] Cerebral blood flow and cerebrovascular autoregulation in a swine model of pediatric cardiac arrest and hypothermia
    Lee, Jennifer K.
    Brady, Ken M.
    Mytar, Jennifer O.
    Kibler, Kathleen K.
    Carter, Erin L.
    Hirsch, Karen G.
    Hogue, Charles W.
    Easley, Ronald B.
    Jordan, Lori C.
    Smielewski, Peter
    Czosnyka, Marek
    Shaffner, Donald H.
    Koehler, Raymond C.
    CRITICAL CARE MEDICINE, 2011, 39 (10) : 2337 - 2345
  • [24] Intrathoracic pressure regulator during continuous-chest-compression advanced cardiac resuscitation improves vital organ perfusion pressures in a porcine model of cardiac arrest
    Yannopoulos, D
    Nadkarni, VM
    McKnite, SH
    Rao, A
    Kruger, K
    Metzger, A
    Benditt, DG
    Lurie, KG
    CIRCULATION, 2005, 112 (06) : 803 - 811
  • [25] Influence of Cardiopulmonary Resuscitation Coaching on Interruptions in Chest Compressions During Simulated Pediatric Cardiac Arrest*
    Kessler, David O.
    Grabinski, Zoe
    Shepard, Lindsay N.
    Jones, Sara, I
    Lin, Yiqun
    Duff, Jonathan
    Tofil, Nancy M.
    Cheng, Adam
    PEDIATRIC CRITICAL CARE MEDICINE, 2021, 22 (04) : 345 - 353
  • [26] Noninvasive Autoregulation Monitoring in a Swine model of Pediatric Cardiac Arrest
    Lee, Jennifer K.
    Yang, Zeng-Jin
    Wang, Bing
    Larson, Abby C.
    Jamrogowicz, Jessica L.
    Kulikowicz, Ewa
    Kibler, Kathleen K.
    Mytar, Jennifer O.
    Carter, Erin L.
    Burman, Hillary T.
    Brady, Ken M.
    Smielewski, Peter
    Czosnyka, Marek
    Koehler, Raymond C.
    Shaffner, Donald H.
    ANESTHESIA AND ANALGESIA, 2012, 114 (04): : 825 - 836
  • [27] Perfluorocarbon induced intra-arrest hypothermia does not improve survival in a swine model of asphyxial cardiac arrest
    Albaghdadi, Ali S.
    Brooks, Leonard A.
    Pretorius, Andrew M.
    Kerber, Richard E.
    RESUSCITATION, 2010, 81 (03) : 353 - 358
  • [28] Mechanical chest compressions with the LUCAS device does not increase the incidence of injuries in cardiac arrest victims
    Rubertsson, Sten
    Smekal, David
    Huzevka, Tibor
    Johansson, Jakob
    CIRCULATION, 2007, 116 (16) : 930 - 930
  • [29] Post-shock chest compressions without assisted ventilation improves outcome in a swine model of prehospital VF cardiac arrest
    Berg, R
    Berg, M
    Hilwig, R
    Kern, K
    Hayes, M
    CRITICAL CARE MEDICINE, 2003, 31 (12) : A33 - A33
  • [30] The mechanism of blood flow during chest compressions for cardiac arrest is probably influenced by the patient's chest configuration
    Ewy, Gordon A.
    ACUTE MEDICINE & SURGERY, 2018, 5 (03): : 236 - 240
12345