Investigation of Coronary Venous Anatomy by Retrograde Venography in Patients With Malignant Ventricular Tachycardia

doi:10.1161/hc2901.093145

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Circulation. 2001;104:442-447
doi: 10.1161/hc2901.093145

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	Electrophysiology
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(Circulation. 2001;104:442.)
© 2001 American Heart Association, Inc.

Clinical Investigation and Reports

Investigation of Coronary Venous Anatomy by Retrograde Venography in Patients With Malignant Ventricular Tachycardia

Eckhard Meisel, MD; Dietrich Pfeiffer, MD; Lothar Engelmann, MD; Jürgen Tebbenjohanns, MD; Bernd Schubert, MD; Stephen Hahn, PhD; Eckart Fleck, MD; Christian Butter, MD

From the Heart and Circulation Center (E.M.), Dresden, Germany; University Hospital (D.P., L.E.), Leipzig, Germany; Hannover Medical School (J.T.), Hannover, Germany; Guidant Corp (B.S., S.H.), Cardiac Rhythm Management Division, European Research Department, Brussels, Belgium; and Humboldt University and German Heart Institute (E.F., C.B.), Berlin, Germany.

Reprint requests to Eckhard Meisel, MD, Heart and Circulation Service, D-01219 Dresden, Germany. E-mail heart{at}meisel.de

Background— The coronary venous system is increasinglyused for left ventricular or biventricular pacing in patientswith severe heart failure. The present study investigated thestructure of the coronary veins in patients presenting withstructural heart disease and malignant ventricular tachyarrhythmias.The availability of veins for possible lead placement was assessed.

Methods and Results— The number, relative size, and locationof coronary veins were evaluated by retrograde venography in129 patients undergoing cardioverter-defibrillator implantation.Detailed x-ray image analysis was performed in 86 patients,for whom optimal coronary sinus occlusion and vein visualizationwas achieved. The anterior interventricular vein and the middlecardiac vein were visible in 85 (99%) of 86 patients and in86 (100%) of 86 patients, respectively. Between these 2 veins,at least 1 additional prominent vein was visible in 85 (99%)of 86 patients. Just 1 vein was present in 44 (51%) of 86 patients.Two veins were observed in 40 (46%) of 86 patients, and >2veins were visualized in 2 (2%) of 86 patients. Venous anatomyallowed positioning of a 0.014-in guidewire in a coronary veinin 115 (93%) of 124 patients.

Conclusions— The presence, diameter, angulation, and tortuosityof veins as visualized by retrograde venography determine theiracceptability for the placement of a lead in a predeterminedlocation. Despite the considerable variability of the coronaryvenous system among patients, a lateral vessel for lead introductionwas available in 82%, and a posterior or lateral vessel wasavailable in 99% of individuals within a patient populationthat could potentially benefit from a lead on the left ventricle.

Key Words: radiography • tachycardia • veins • arrhythmia

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