Chronic stable angina revascularization complications of percutaneous coronary intervention

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [mailto:mgibson@perfuse.org] Phone:617-632-7753; Associate Editor(s)-In-Chief: ; John Fani Srour, M.D.; Jinhui Wu, M.D.

Complications of Percutaneous Coronary Intervention
The improvements in devices, the use of stents, and aggressive antiplatelet therapy have significantly reduced the incidence of major procedural complications of PCI over the past 2 decades despite the increasing complexity of cases. However, as with any invasive procedure, complications can occur. The major complications of PTCA/PCI include coronary artery dissection and acute closure, intramural hematoma, coronary artery perforation, and occlusion of branch vessels: Dissections are found in up to 50 percent of patients immediately after PTCA. Intimal tears or dissections following PTCA have been arbitrarily divided into types A to F.


 * Type A — Luminal haziness


 * Type B — Linear dissection


 * Type C — Extraluminal contrast staining


 * Type D — Spiral dissection


 * Type E — Dissection with reduced flow


 * Type F — Dissection with total occlusion

These problems are now much less frequent since stent placement is performed in most percutaneous coronary procedures. Abrupt closure is most often due to arterial dissection and is manifested as acute ischemic chest pain and ECG changes. The incidence of abrupt closure with conventional balloon angioplasty (PTCA) is approximately 5% and is associated with a 10-fold increase in mortality to about 1 percent and nonfatal MI. The frequency of this complication, however, has now been greatly reduced by pretreatment with the platelet glycoprotein IIb/IIIa receptor blockers and by the insertion of an intracoronary stent. If stenting does not restore adequate flow, emergency CABG can be performed.

Coronary artery intramural hematoma is defined as an accumulation of blood within the medial space displacing the internal elastic membrane inward and the external elastic membrane outward, with or without identifiable entry and exit points. It is identified in 6.7 percent of procedures by intravascular ultrasound (IVUS).

Coronary artery perforation in the stent era is a rare but potentially disastrous complication.

Downstream embolization of thrombus or plaque contents with microvascular obstruction is common after PCI and occlusion of side branches has been reported in up to 19 percent of cases in which a stent was placed across a major side branch. Stent thrombosis is catastrophic complication that usually leads to death or ST segment elevation MI. It is therefore a medical emergency. Stent thrombosis can occur acutely (during or soon after the PCI), subacutely (within 30 days after stent placement), or as a complication. Late stent thrombosis is associated with the cessation of aspirin or clopidogrel therapy. On the other hand, very late stent thrombosis, occurring after one year, is associated with drug-eluting stents.

Restenosis is the result of arterial damage with subsequent neointimal tissue proliferation. It is usually defined as a greater than 50% diameter stenosis. The incidence of angiographic restenosis is approximately 30% to 40% after PTCA. Intracoronary stents reduce the rate of angiographic and clinical restenosis and post-procedural myocardial infarction compared to percutaneous transluminal coronary angioplasty (PTCA) alone. Trials have demonstrated that the sirolimus and paclitaxel drug-eluting stents markedly reduced the incidence of in-stent restenosis and the rate of target lesion revascularization compared to bare metal stents. As a result, stents are currently utilized in nearly all percutaneous coronary interventions. However, the benefits of drug-eluting stents on restenosis must be weighed against rates of stent thrombosis, which often leads to death or MI, if dual antiplatelet therapy is prematurely discontinued. Restenosis occurs more frequently in diabetics, smaller arteries, among total occlusions, and in left anterior descending arteries, particularly proximal lesions. Since not all angiographic restenosis results in recurrent symptoms, the rates of clinical restenosis are lower than these angiographic estimates. Recurrent sever angina occurs in approximately half of the patients who develop angiographic restenosis and usually responds to stenting. In symptomatic patients with BMS restenosis, a repeat stenting using a DES is usually recommended. In symptomatic patients with intracoronary DES restenosis, there are insufficient data to suggest any specific treatment.