BIOMAT Database Logo BIOMAT Database Logo

Distal coronary hemoperfusion during percutaneous transluminal coronary angioplasty. 1996

E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Catheterization Laboratory, University Hospital, Groningen, The Netherlands.

Distal coronary hemoperfusion during percutaneous transluminal coronary angioplasty (PTCA)-with an autoperfusion balloon or active system-facilitates prolonged balloon inflation. Prolonged inflations may tack up intimal dissections and improve the primary angioplasty result in complex lesions. Additionally, distal perfusion may reduce the likelihood of cardiogenic shock during high-risk PTCA. Autoperfusion balloons are most frequently used to treat acute or threatened closure. There currently is no prospective clinical study showing that stent implantation for this complication is more successful and more cost-effective. The blood flow rates through autoperfusion balloons may not abolish myocardial ischemia, and higher flow rates can often be achieved with pumps. Therefore, during high-risk PTCA, pumps may be preferred to prevent hemodynamic collapse. Clinical application of perfusion pumps is hampered by the risk for mechanical hemolysis during prolonged perfusion and the high velocity of the bloodstream that exits the PTCA catheter, causing distal vessel wall trauma.

UI MeSH Term Description Entries
D002404 Catheterization Use or insertion of a tubular device into a duct, blood vessel, hollow organ, or body cavity for injecting or withdrawing fluids for diagnostic or therapeutic purposes. It differs from INTUBATION in that the tube here is used to restore or maintain patency in obstructions. Cannulation,Cannulations,Catheterizations
D003326 Coronary Circulation The circulation of blood through the CORONARY VESSELS of the HEART. Circulation, Coronary
D006328 Cardiac Catheterization Procedures in which placement of CARDIAC CATHETERS is performed for therapeutic or diagnostic procedures. Catheterization, Cardiac,Catheterization, Heart,Heart Catheterization,Cardiac Catheterizations,Catheterizations, Cardiac,Catheterizations, Heart,Heart Catheterizations
D006353 Heart-Assist Devices Small pumps, often implantable, designed for temporarily assisting the heart, usually the LEFT VENTRICLE, to pump blood. They consist of a pumping chamber and a power source, which may be partially or totally external to the body and activated by electromagnetic motors. Artificial Ventricle,Heart Assist Device,Heart Ventricle, Artificial,Pumps, Heart-Assist,Vascular-Assist Device,Vascular-Assist Devices,Ventricle-Assist Device,Ventricular Assist Device,Artificial Heart Ventricle,Artificial Heart Ventricles,Artificial Ventricles,Assist Device, Heart,Assist Device, Ventricular,Assist Devices, Heart,Assist Devices, Ventricular,Device, Heart Assist,Device, Heart-Assist,Device, Vascular-Assist,Device, Ventricle-Assist,Device, Ventricular Assist,Devices, Heart Assist,Devices, Heart-Assist,Devices, Vascular-Assist,Devices, Ventricle-Assist,Devices, Ventricular Assist,Heart Assist Devices,Heart Ventricles, Artificial,Heart-Assist Device,Heart-Assist Pump,Heart-Assist Pumps,Pump, Heart-Assist,Pumps, Heart Assist,Vascular Assist Device,Vascular Assist Devices,Ventricle Assist Device,Ventricle, Artificial,Ventricle, Artificial Heart,Ventricle-Assist Devices,Ventricles, Artificial,Ventricles, Artificial Heart,Ventricular Assist Devices
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D012770 Shock, Cardiogenic Shock resulting from diminution of cardiac output in heart disease. Cardiogenic Shock
D015425 Myocardial Reperfusion Generally, restoration of blood supply to heart tissue which is ischemic due to decrease in normal blood supply. The decrease may result from any source including atherosclerotic obstruction, narrowing of the artery, or surgical clamping. Reperfusion can be induced to treat ischemia. Methods include chemical dissolution of an occluding thrombus, administration of vasodilator drugs, angioplasty, catheterization, and artery bypass graft surgery. However, it is thought that reperfusion can itself further damage the ischemic tissue, causing MYOCARDIAL REPERFUSION INJURY. Coronary Reperfusion,Reperfusion, Myocardial,Coronary Reperfusions,Myocardial Reperfusions,Reperfusion, Coronary,Reperfusions, Coronary,Reperfusions, Myocardial
D015428 Myocardial Reperfusion Injury Damage to the MYOCARDIUM resulting from MYOCARDIAL REPERFUSION (restoration of blood flow to ischemic areas of the HEART.) Reperfusion takes place when there is spontaneous thrombolysis, THROMBOLYTIC THERAPY, collateral flow from other coronary vascular beds, or reversal of vasospasm. Reperfusion Injury, Myocardial,Injury, Myocardial Reperfusion,Myocardial Ischemic Reperfusion Injury,Injuries, Myocardial Reperfusion,Myocardial Reperfusion Injuries,Reperfusion Injuries, Myocardial
D015607 Stents Devices that provide support for tubular structures that are being anastomosed or for body cavities during skin grafting. Stent
D015906 Angioplasty, Balloon, Coronary Dilation of an occluded coronary artery (or arteries) by means of a balloon catheter to restore myocardial blood supply. Angioplasty, Coronary Balloon,Angioplasty, Transluminal, Percutaneous Coronary,Coronary Angioplasty, Transluminal Balloon,Percutaneous Transluminal Coronary Angioplasty,Balloon Dilation, Coronary Artery,Transluminal Coronary Balloon Dilation,Angioplasties, Coronary Balloon,Balloon Angioplasties, Coronary,Balloon Angioplasty, Coronary,Coronary Balloon Angioplasties,Coronary Balloon Angioplasty

Related Publications

E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Distal hemoperfusion during percutaneous transluminal coronary angioplasty.
August 1986, The American journal of cardiology,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Percutaneous transluminal coronary angioplasty with hemoperfusion.
January 1991, ASAIO transactions,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Use of active hemoperfusion during percutaneous transluminal coronary angioplasty.
June 1995, Journal of interventional cardiology,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Distal coronary hemoperfusion and prolonged balloon inflation for acute occlusion: occurring during percutaneous transluminal coronary angioplasty.
January 1990, Texas Heart Institute journal,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Distal coronary artery perfusion during percutaneous transluminal coronary angioplasty.
October 1985, American heart journal,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Distal coronary power injection during percutaneous transluminal coronary angioplasty.
January 1984, Catheterization and cardiovascular diagnosis,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Effects of hemoperfusion during percutaneous transluminal coronary angioplasty on left ventricular function.
June 1991, The American journal of cardiology,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Percutaneous transluminal coronary angioplasty in distal lesions.
February 1992, The Journal of the Association of Physicians of India,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Distal coronary artery dissection following percutaneous transluminal coronary angioplasty.
June 1984, The Annals of thoracic surgery,
E D de Muinck, and P den Heijer, and R B van Dijk, and H J Crijns, and H L Hillige, and K I Lie
Coronary hemodynamics during percutaneous transluminal coronary angioplasty.
May 1982, The American journal of cardiology,
Copied contents to your clipboard!