The "Ice Age" in Cardiac Surgery: Evolution of the "Siberian" Method of Brain Protection During Deep Hypothermic Perfusionless Circulatory Arrest

被引:2
作者
Guvakov, Dmitri [1 ,5 ]
Bezinover, Dmitri [1 ]
Lomivorotov, Vladimir V. [2 ]
Postnov, Vadim G. [2 ]
Weiss, Stuart J. [3 ]
Cheung, Albert T. [4 ]
Swain, Julie [5 ]
Lomivorotov, Vladimir N. [2 ]
机构
[1] Penn State Coll Med, Penn State Milton S Hershey Med Ctr, Dept Anesthesiol & Perioperat Med, Hershey, PA USA
[2] E Meshalkin Natl Med Res Ctr MNMRC, Dept Anesthesiol, Novosibirsk, Russia
[3] Univ Penn Hlth Syst, Dept Anesthesia & Crit Care, Philadelphia, PA USA
[4] Stanford Univ, Dept Anesthesiol Perioperat & Pain Med, Palo Alto, CA 94304 USA
[5] Mt Sinai Hlth Syst, Dept Clin Performance, New York, NY USA
来源
JOURNAL OF CARDIOTHORACIC AND VASCULAR ANESTHESIA | 2019年 / 33卷 / 12期
关键词
deep perfusion-less hypothermic circulatory arrest; cardio-pulmonary bypass; hypothermic brain protection; S-100-beta; neuron-specific enolase; meshalkin clinic; surface body cooling for cardiac surgery; hypothremic brain protection; luria battery; neurocognitive evaluation; OPEN-HEART-SURGERY; PROFOUND HYPOTHERMIA; COLD REPERFUSION; INFANTS; OPERATIONS;
D O I
10.1053/j.jvca.2019.04.001
中图分类号
R614 [麻醉学];
学科分类号
100217 ;
摘要
Deep hypothermic perfusionless circulatory arrest was the first practical neuroprotective technique used for open-heart surgery. It was refined at the Novosibirsk Medical Research Center in Siberia and was actively used from the mid-1950s until 2001. This review describes the development of this technique and its contribution to our understanding of the dynamic changes in human physiology during induced hypothermia for circulatory arrest without extracorporeal perfusion. Deep hypothermic perfusionless circulatory arrest was an important stepping stone in the development of modern approaches in neuroprotection and monitoring during cardiac surgery. (C) 2019 Elsevier Inc. All rights reserved.
引用
收藏
页码:3366 / 3374
页数:9
相关论文
共 44 条
[1]   Does the rate of rewarming from profound hypothermic arrest influence the outcome in a swine model of lethal hemorrhage? [J].
Alam, HB ;
Rhee, P ;
Honma, K ;
Chen, HZ ;
Ayuste, EC ;
Lin, T ;
Toruno, K ;
Mehrani, T ;
Engel, C ;
Chen, Z .
JOURNAL OF TRAUMA-INJURY INFECTION AND CRITICAL CARE, 2006, 60 (01) :134-144
[2]   LURIA APPROACH TO NEUROPSYCHOLOGICAL ASSESSMENT [J].
ARDILA, A .
INTERNATIONAL JOURNAL OF NEUROSCIENCE, 1992, 66 (1-2) :35-43
[3]   Effects of Hypothermia for Perinatal Asphyxia on Childhood Outcomes [J].
Azzopardi, Denis ;
Strohm, Brenda ;
Marlow, Neil ;
Brocklehurst, Peter ;
Deierl, Aniko ;
Eddama, Oya ;
Goodwin, Julia ;
Halliday, Henry L. ;
Juszczak, Edmund ;
Kapellou, Olga ;
Levene, Malcolm ;
Linsell, Louise ;
Omar, Omar ;
Thoresen, Marianne ;
Tusor, Nora ;
Whitelaw, Andrew ;
Edwards, A. David .
NEW ENGLAND JOURNAL OF MEDICINE, 2014, 371 (02) :140-149
[4]   CORRECTIVE SURGERY FOR CONGENITAL HEART-DISEASE IN INFANTS WITH USE OF PROFOUND HYPOTHERMIA AND CIRCULATORY ARREST TECHNIQUES [J].
BARRATTBOYES, BG .
AUSTRALIAN AND NEW ZEALAND JOURNAL OF SURGERY, 1977, 47 (06) :737-744
[5]  
Bigelow W G, 1944, Br Med J, V1, P215
[6]   GENERAL HYPOTHERMIA FOR EXPERIMENTAL INTRACARDIAC SURGERY - THE USE OF ELECTROPHRENIC RESPIRATIONS, AN ARTIFICIAL PACEMAKER FOR CARDIAC STANDSTILL, AND RADIO-FREQUENCY REWARMING IN GENERAL HYPOTHERMIA [J].
BIGELOW, WG ;
CALLAGHAN, JC ;
HOPPS, JA .
ANNALS OF SURGERY, 1950, 132 (03) :531-539
[7]   INTRAVASCULAR AGGLUTINATION (SLUDGED BLOOD), VASCULAR STASIS AND SEDIMENTATION RATE OF THE BLOOD IN TRAUMA [J].
BIGELOW, WG ;
HEIMBECKER, RO ;
HARRISON, RC .
ARCHIVES OF SURGERY, 1949, 59 (03) :667-693
[8]  
Bradford J, 2014, TORPOR INDUCING TRAN, P1
[9]  
Bravve I Iu, 1989, Grudn Khir, P20
[10]   CHOREOATHETOSIS IN INFANTS FOLLOWING CARDIAC-SURGERY WITH DEEP HYPOTHERMIA AND CIRCULATORY ARREST [J].
BRUNBERG, JA ;
DOTY, DB ;
REILLY, EL .
JOURNAL OF PEDIATRICS, 1974, 84 (02) :232-235
12345