Coronary compression caused by stenting a right pulmonary artery conduit (original) (raw)
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Left main coronary artery compression from right pulmonary artery stenting
Catheterization and Cardiovascular Interventions, 2009
Complications related to pulmonary artery stenting include stent migration, jailing of vessels, vessel rupture, and compression of surrounding structures. Compression of the left main coronary artery (LMCA) as a result of stent placement in the right pulmonary artery (RPA) is extremely rare. We present two patients post repair of congenital heart disease who suffered LMCA compression following RPA stenting. The first patient experienced acute coronary insufficiency in the cardiac catheterization laboratory, whereas the second patient had a more chronic course. We also present a third patient who had a CT angiogram that demonstrated a close spatial relationship between the RPA and the LMCA. Based on our previous experiences, we felt that this patient was at significant risk for LMCA compression if the RPA were stented. Coronary compression is rare complication of pulmonary artery stenting but should be considered in cases with history of repaired congenital heart disease. '
Extrinsic compression of coronary and pulmonary vasculature
Cardiovascular Diagnosis and Therapy, 2021
Coronary artery disease from atherosclerosis induced stenosis remains the leading cause of acute coronary syndrome (ACS) and death worldwide, however extrinsic compression of coronary arteries from adjacent anatomical and pathological structures is an infrequent but important diagnosis to be aware of, especially given the nonspecific symptoms of chest pain that mimic angina in patients with pulmonary hypertension (PHT) and congenital heart disease. Non-invasive CT angiography is an invaluable diagnostic tool for detection of coronary artery compression, pulmonary artery dilatation and pulmonary vascular compression. Although established guidelines are not available for management of left main coronary artery (LMCA) compression syndrome, percutaneous coronary intervention and stent implantation remain a feasible option for the treatment, specifically for patients with a high surgical risk. Treatment of pulmonary vein or artery compression is more varied and determined by etiology. This review article is focused on detailed discussion of extrinsic compression of coronary arteries, mainly the LMCA and brief discussion on pulmonary vasculature compression by surrounding anatomical and pathological entities, with focus on pathophysiology, clinical features, complications and role of imaging in its diagnosis and management.
Endovascular Stenting of Obstructed Right Ventricle–to–Pulmonary Artery Conduits
Circulation, 2006
Background— The optimal treatment for dysfunctional right ventricle–to–pulmonary artery (RV-PA) conduits is unknown. Limited follow-up data on stenting of RV-PA conduits have been reported. Methods and Results— Between 1990 and 2004, deployment of balloon-expandable bare stents was attempted in 242 obstructed RV-PA conduits in 221 patients (median age, 6.7 years). Acute hemodynamic changes after stenting included significantly decreased RV systolic pressure (89±18 to 65±20 mm Hg, P <0.001) and peak RV-PA gradient (59±19 to 27±14 mm Hg, P <0.001). There were no deaths, and, aside from 5 malpositioned stents requiring surgical removal, there were no serious procedural complications. During follow-up of 4.0±3.2 years, 9 patients died and 2 underwent heart transplantation, none related to catheterization or stent malfunction. During 155 follow-up catheterizations in 126 patients, the stent was redilated in 83 patients and additional stents were placed in 41. Stent fractures were d...
Stenting in Primary Pulmonary Hypertension With Compression of the Left Main Coronary Artery
Revista Española de Cardiología (English Edition), 2004
Primary pulmonary hypertension is often associated with angina-like chest pain of uncertain etiology. Left main coronary artery compression by the pulmonary artery is a treatable cause of angina and should be considered in these patients. We describe a patient presenting with primary pulmonary hypertension, clinical angina and extrinsic compression of the left main coronary artery by the pulmonary artery, who was treated with direct stenting.
A novel technique for stenting pulmonary artery and conduit bifurcation stenosis
Catheterization and Cardiovascular Interventions, 2011
Background: Distal conduit obstruction is a recognized complication after surgery for congenital heart disease requiring implantation of a conduit from the right ventricle to the pulmonary arteries. Endovascular stenting of distal conduit obstruction can be challenging due to the proximity to the pulmonary artery bifurcation. Objective: A technique is described, whereby a single stent is mounted onto two balloon angioplasty catheters in tandem. This ensemble was delivered to the distal conduit/pulmonary artery via a large Mullins sheath on two guidewires, one placed in each of the branch pulmonary arteries. The aim was to assess safety and efficacy of this novel technique. Materials and Results: Seven patients (mean age 13.4 (6.7-23.4) years, mean weight 44.2 (23-69) kg were treated with this method. The pressure gradient was reduced from 36 (26-52) mm Hg to 11 (8-15) mm Hg [P< 0.05]. RV/LV pressure ratio decreased from 0.85 (0.6-0.95) to 0.42 (0.35-0.5) [P < 0.05]. There were no significant complications. During follow-up over a median of 2.6 (0.3-6.7) years no patient required re-intervention or surgery. Conclusion: This novel technique appears to be safe and effective for stenting stenoses just proximal to pulmonary artery bifurcation. V C 2011 Wiley-Liss, Inc.
Reversing left bronchus obstruction by compression of a pulmonary artery stent
Catheterization and cardiovascular interventions : official journal of the Society for Cardiac Angiography & Interventions, 2016
We report a case where endovascular stenting as part of the treatment of complex cardiovascular disease led to airway compression. Using a novel technique, this was successfully reversed. Simultaneous inflations of two balloons-one in the obstructed bronchus and one in the aorta combined with external compression of the chest-resulted in compression the stent. This report illustrates that by thinking "out of the box" and bearing in mind spatial relationships inside the chest, it is possible to diminish the anterior-posterior diameters of a stent. This intervention proved to be successful with relief of the left bronchial compression and improvement of chronic airway infection. © 2016 Wiley Periodicals, Inc.