Interventional Cardiology. Группа авторов

Interventional Cardiology - Группа авторов


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by permission of Oxford University Press.

      Several randomized trials have compared the outcomes following PCI with medical management for stable angina [8–11]. These include the studies from the balloon angioplasty era such as the second Randomized Intervention Treatment of Angina (RITA‐2) [9] and the Angioplasty Compared to Medicine (ACME) trials [10]. The studies and meta‐analyses of the randomized trials [12,13] demonstrates that PCI does not reduce the likelihood of death or myocardial infarction, but is more effective in relieving angina in patients with single and multivessel disease. Notably, there was an early hazard associated with PCI due to a greater likelihood of periprocedural myocardial infarction, a consistent finding in subsequent interventional trials. In addition, balloon angioplasty was associated with a high rate of emergency CABG, but this is no longer the case in contemporary practice due to the routine use of stents.

      The COURAGE trial randomization 2287 patients to either optimal medical therapy alone or PCI with bare metal stents (with optimal medical therapy) [14]. Approximately two‐thirds had multivessel disease). The inclusion criteria were either a coronary stenosis ≥80% and classic angina without provocative stress testing, or a stenosis ≥70% in at least one proximal epicardial coronary artery and objective evidence of myocardial ischemia. A large number of patients were excluded from the trial because of high risk features such as a strongly positive stress test, persistent CCS class IV angina, an ejection fraction of <30%, refractory heart failure or cardiogenic shock, revascularization within the previous six months, and those with coronary anatomy unsuitable for PCI. During a median follow‐up duration of approximately five years, there was no difference in the primary composite endpoint of death and nonfatal myocardial infarction. These findings must be interpreted in light of the facts that less than 10% of the patients screened met eligibility criteria for enrolment, 85% of patients were male, and that randomization was performed in the cardiac catheterization laboratory following angiography, which may have contributed to selection bias. Revascularization rates during follow‐up were lower in the PCI arm (21.1% vs 32.6%) and may have been lower had drug‐eluting stents (DES) been used. PCI was associated with a small reduction in the requirement for anti‐anginal therapy and greater likelihood of freedom from angina; however, this benefit diminished over time. Crossover to PCI in the medical arm was due to inadequate control of symptoms.

      The importance of risk stratification based on the magnitude of ischemic burden has been investigated in the ISCHEMIA trial. 5179 patients with at least moderate ischemia were randomized to an initial invasive strategy of angiography and revascularization (PCI or CABG), if feasible, in addition to optimal medical therapy or optimal medical therapy initially with revascularization reserved for failure of medical therapy. Importantly, enrollment into the trial was prior to diagnostic angiography to reduce selection bias. There was no significant difference in the primary composite endpoint of cardiovascular death, nonfatal MI, resuscitated cardiac arrest, or hospitalization for unstable angina or heart failure (HR:0.93, CI:80‐1.08;p=0.34) during approximately three year follow‐up. Patients in the invasive‐strategy group had more procedure related myocardial infarctions, but fewer nonprocedural infarctions during follow‐up. The incidence of death from any cause was low and similar in the two groups. These data suggest that an ischemic burden based strategy for revascularization is not superior medical therapy[15]. However, this conclusion needs to be interpreted in light of the facts that the statistical power of the trial was decreased due to lower than planned recruitment and lower event rates than expected, duration of follow‐up was relatively short, high‐risk patients with significant left main disease (on CT angiography), low ejection fraction, severe heart failure, or severe symptoms despite optimal medical interventions were excluded.

      The Medicine, Angioplasty, or Surgery Study (MASS) and MASS II trials have compared medical therapy with PCI and CABG in stable angina. The MASS trial enrolled patients with single vessel disease (>80% proximal left anterior descending artery stenosis) [17]. While balloon angioplasty and medical therapy were associated with greater need for revascularization, there was no difference in rate of death or myocardial infarction in the three groups during follow‐up. The trial was conducted in the pre‐stent era without modern medical therapy which limits the applicability of the findings to contemporary practice. The MASS II trial, however, was conducted in patients with multivessel disease, and had a similar design except that PCI was performed with bare metal stents in most patients, and more contemporary medical therapy was implemented. At five years, the results were similar to the MASS trial in that there was no difference in death or myocardial infarction between the three treatment strategies, but the need for revascularization for refractory angina during follow‐up was much higher with medical therapy and PCI [18].

      The ORBITA trial randomized 230 patients with CCS class II and III angina and single‐vessel disease (≥70% stenosis) to PCI or a sham procedure. The placebo procedure in the control arm and blinding of patients as well as the care team following the procedure are unique features of this trial. At six weeks follow‐up, there was no difference between the groups for the primary end point of exercise time increment (28.4 versus 11.8 seconds, p = 0.2), though the trend favored PCI. Other exercise variables and angina severity also was not different. The very small sample size, surrogate endpoints, exceedingly short duration of follow‐up, and exclusion of patients with complex disease are major limitations of the trial [19].


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