Controlled antegrade and retrograde subintimal tracking (CART) is rarely performed in contemporary chronic total occlusion (CTO) percutaneous coronary intervention (PCI). We aim to analyze the indications, procedural characteristics, and outcomes of CART at a high-volume CTO program. We included all patients undergoing a retrograde CTO PCI in which CART was performed at our institution between January 2019 and November 2023. The primary endpoint was technical success. Of 1,582 CTO PCIs, the retrograde approach was performed in 603 procedures (38.1%), and CART was used in 45 cases (7.5%). Mean age was 69.1±10.3 years, 93.3% were men, prior coronary bypass graft surgery was present in 68.9%. The most common target CTO vessel was the right coronary artery (48.9%). Anatomic complexity was high (J-CTO score of 3.8±0.9). The most common collateral used for CART was a saphenous vein graft (62.2%). Advanced calcium modification was required in 15.6% of cases. CART was successful in 73.3%. Technical and procedural success was 82.2%. Coronary perforation was diagnosed in 4 subjects (8.9%), but only one patient (2.2%) suffered tamponade and required pericardiocentesis. No other in-hospital major adverse events were diagnosed. CART is a useful technique in selected very complex CTOs tackled with the retrograde approach. Success rates were high, while complications rates were low, considered the high anatomic complexity and baseline patient risk.
Chronic total occlusion (CTO) percutaneous coronary intervention (PCI) has been shown to reduce angina and improve quality of life, but the frequency of new or residual angina after CTO PCI and its relationship with titration of anti-anginal medications (AAMs) has not been described.Among consecutive CTO PCI patients treated at 12 US centres in the OPEN CTO registry, angina was assessed 6 months after the index PCI using the Seattle Angina Questionnaire (SAQ) Angina Frequency scale (a score <100 defined new or residual angina). We then compared the proportion of patients with AAM escalation (defined as an increase in the number or dosage of AAMs between discharge and follow-up) between those with and without 6-month angina. Of 901 patients who underwent CTO PCI, 197 (21.9%) reported angina at 6-months, of whom 80 (40.6%) had de-escalation, 66 (33.5%) had no change, and only 51 (25.9%) had escalation of their AAM by the 6-month follow-up. Rates of AAM escalation were similar when stratifying patients by the ultimate success of the CTO PCI, completeness of physiologic revascularization, presence or absence of angina at baseline, history of heart failure, and by degree of symptomatic improvement after CTO PCI.One in five patients reported angina 6 months after CTO PCI. Although patients with new or residual angina were more likely to have escalation of AAMs in follow-up compared with those without residual symptoms, only one in four patients with residual angina had escalation of AAMs. Although it is unclear whether this finding reflects maximal tolerated therapy at baseline or therapeutic inertia, these findings suggest an important potential opportunity to further improve symptom control in patients with complex stable ischaemic heart disease.
Background Patients with coronary chronic total occlusions (CTO) often have multivessel coronary artery disease. We utilized the OPEN CTO study to evaluate patients who underwent single-vessel versus multivessel percutaneous coronary intervention (PCI) during CTO PCI. Methods Patients were considered to have undergone single-vessel CTO PCI if they underwent target-vessel only CTO PCI. Patients who underwent multivessel PCI during their index CTO PCI procedure were considered to have undergone multivessel PCI. The additional lesions treated in the multivessel group could be either a separate CTO lesion in a separate epicardial vessel or PCI attempt of any non-CTO stenosis during the same index procedure. Multivariate regression models were used to evaluate predictors of technical success, in-hospital major adverse cardiac and cerebrovascular events (MACCE), and health status measures. Results Eighty hundred twenty-one patients underwent single-vessel CTO PCI and 179 (17.9%) underwent multivessel PCI during their CTO PCI procedure. Baseline comorbidities, index CTO lesion complexity, and successful crossing strategies used were similar between the two groups. Total procedural time (142.6 versus 115.9 minutes, P < 0.01) and contrast administered (293.8 versus 255.0 ml, P < 0.01) were increased in the multivessel CTO PCI group. Single-vessel versus multivessel PCI during these cases did not affect the likelihood of achieving technical success [odds ratio (OR) 1.05, 95% confidence interval (CI) 0.63–1.75] nor the risk for MACCE (OR 1.23, 95% CI 0.72–2.11). Quality of life (QOL) metrics were similar between the two groups at baseline and 30-day follow-up. Conclusion There were no significant differences in technical success, in-hospital MACCE rates, or QOL metrics at 30-day follow-up for patients who underwent single-vessel versus multivessel PCI during CTO PCI.
Background No previous reports have described the comprehensive care pathways involved in chronic total occlusion percutaneous coronary intervention (CTO PCI). Methods In a study of 1,000 consecutive patients undergoing CTO PCI using hybrid approach, a systematic algorithm of selecting CTO PCI strategies, the procedural characteristics, complication rates, and patient reported health status outcomes through 12 months were assessed. Results Technical success of the index CTO PCI was 86%, with 89% of patients having at least one successful CTO PCI within 12 months. A total of 13.8% underwent CTO PCI of another vessel or reattempt of index CTO PCI within 1 year. At 1 year, the unadjusted major adverse cardiac and cerebral event (MACCE) rate was lower in patients with successful index CTO PCI compared to patients with unsuccessful index CTO PCI (9.4% vs. 14.6%, p = .04). The adjusted hazard ratios of myocardial infarction and death at 12 months were numerically lower in patients with successful index CTO PCI, compared to patients with unsuccessful index CTO PCI. Patients with successful index CTO PCI reported significantly greater improvement in health status throughout 12-months compared to patients with unsuccessful index CTO PCI. Conclusion CTO-PCI in the real-world often require treatment of second CTO, non-CTO PCI or repeat procedures to treat initially unsuccessful lesions. Successful CTO PCI is associated with numerically lower MACCE at 1 year and persistent symptomatic improvement compared to unsuccessful CTO PCI. Understanding the relationship between the care pathways following CTO PCI and health status benefit requires further study.
