PULMONARY AND LEFT-VENTRICULAR DECOMPRESSION BY ARTIFICIAL PULMONARY VALVE INCOMPETENCE DURING PERCUTANEOUS CARDIOPULMONARY BYPASS SUPPORT IN CARDIAC-ARREST

被引:9
作者
SCHOLZ, KH
FIGULLA, HR
SCHRODER, T
HERING, JP
BOCK, H
FERRARI, M
KREUZER, H
HELLIGE, G
机构
[1] UNIV GOTTINGEN,DEPT ANESTHESIOL,D-37075 GOTTINGEN,GERMANY
[2] UNIV GOTTINGEN,DEPT CARDIOTHORAC SURG,D-37075 GOTTINGEN,GERMANY
来源
CIRCULATION | 1995年 / 91卷 / 10期
关键词
CARDIOPULMONARY BYPASS; EXTRACORPOREAL CIRCULATION; MYOCARDIUM; HEMODYNAMICS; HEART-ASSIST DEVICE;
D O I
10.1161/01.CIR.91.10.2664
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
Background In cardiac arrest, use of percutaneous cardiopulmonary bypass support (PCPS) may lead to left ventricular loading, with deleterious effects on the myocardium, and is often accompanied by an increase in pulmonary artery pressure. The present study was designed to assess the potential of artificially induced pulmonary valve incompetency to retrogradely decompress the left ventricle during PCPS in ventricular fibrillation. Methods and Results Studies were performed using a standardized experimental animal model in sheep (n=12; body weight, 77 to 112 kg). When PCPS was used during fibrillation, an increase in left ventricular pressure (from 21.4+/-5.0 mm Hg after 1 minute to 28.4+/-9.5 mm Hg after 10 minutes of fibrillation) was observed in all animals, with a simultaneous increase in pulmonary artery pressure in 6 animals from 15.5+/- 3.8 to 24.3+/-5.4 mm Hg (group A). In these animals, artificial pulmonary valve incompetency, which was induced by a special ''pulmonary valve spreading catheter,'' led to effective decompression of both the pulmonary circulation (decrease in pulmonary artery pressure from 24.3 to 11.3 mm Hg) and the left ventricle (decrease in left ventricular pressure from 30.5 to 17.7 mm Hg). We simultaneously measured a decrease in the myocardial release of lactate (increase in arterial coronary-venous difference in lactate content from -0.01 to 0.14 mmol/L), demonstrating the myocardial protective effect of the procedure. In contrast, in 6 animals without an increase in pulmonary artery pressure during PCPS (group B), artificial pulmonary valve incompetency did not reduce left ventricular loading, which was probably because of competent mitral valves in these animals. Conclusions In case of increasing pulmonary artery pressure during PCPS in cardiac arrest, artificial pulmonary valve incompetency might be a useful tool for effective pulmonary and retrograde left ventricular decompression.
引用
收藏
页码:2664 / 2668
页数:5
相关论文
共 13 条
  • [1] AN ALTERNATE METHOD OF VENTRICULAR VENTING - THE PULMONARY-ARTERY SUMP
    BURTON, NA
    GRAEBER, GM
    ZAJTCHUK, R
    [J]. CHEST, 1984, 85 (06) : 814 - 815
  • [2] DUCHANOVA HS, 1979, BASIC RES CARDIOL, V74, P277
  • [3] NEW APPROACH TO LEFT HEART DECOMPRESSION
    HEIMBECKER, RO
    MCKENZIE, FN
    [J]. ANNALS OF THORACIC SURGERY, 1976, 21 (05) : 456 - 457
  • [4] HERING JP, 1992, CORONARY ARTERY DIS, V3, P419
  • [5] LEFT HEART DECOMPRESSION VIA THE PULMONARY-ARTERY
    LAUGHLIN, LL
    HOLLAND, DL
    WAREHAM, EE
    [J]. THORACIC AND CARDIOVASCULAR SURGEON, 1983, 31 (02) : 117 - 118
  • [6] PERCUTANEOUS INITIATION OF CARDIOPULMONARY BYPASS
    PHILLIPS, SJ
    BALLENTINE, B
    SLONINE, D
    HALL, J
    VANDEHAAR, J
    KONGTAHWORN, C
    ZEFF, RH
    SKINNER, JR
    RECKMO, K
    GRAY, D
    [J]. ANNALS OF THORACIC SURGERY, 1983, 36 (02) : 223 - 225
  • [7] LEFT-VENTRICULAR DISTENSION DURING PULMONARY-ARTERY VENTING IN A PATIENT UNDERGOING CORONARY-ARTERY BYPASS-SURGERY
    ROACH, GW
    BELLOWS, WH
    [J]. ANESTHESIOLOGY, 1992, 76 (04) : 655 - 658
  • [8] ROSSI F, 1990, J THORAC CARDIOV SUR, V100, P914
  • [9] MECHANICAL LEFT-VENTRICULAR UNLOADING DURING HIGH-RISK CORONARY ANGIOPLASTY - FIRST USE OF A NEW PERCUTANEOUS TRANSVALVULAR LEFT-VENTRICULAR ASSIST DEVICE
    SCHOLZ, KH
    FIGULLA, HR
    SCHWEDA, F
    SMALLING, RW
    HELLIGE, G
    KREUZER, H
    ABOULHOSN, W
    WAMPLER, RK
    [J]. CATHETERIZATION AND CARDIOVASCULAR DIAGNOSIS, 1994, 31 (01): : 61 - 69
  • [10] NEED FOR ACTIVE LEFT-VENTRICULAR DECOMPRESSION DURING PERCUTANEOUS CARDIOPULMONARY SUPPORT IN CARDIAC-ARREST
    SCHOLZ, KH
    SCHRODER, T
    HERING, JP
    FERRARI, M
    FIGULLA, HR
    CHEMNITIUS, JM
    KREUZER, H
    HELLIGE, G
    [J]. CARDIOLOGY, 1994, 84 (03) : 222 - 230
12