doi: 10.1161/01.CIR.0000158486.20865.8B
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(Circulation. 2005;111:1383-1389.)
© 2005 American Heart Association, Inc.
Interventional Cardiology |
Short- and Long-Term Clinical Outcome After Drug-Eluting Stent Implantation for the Percutaneous Treatment of Left Main Coronary Artery Disease
Insights From the Rapamycin-Eluting and Taxus Stent Evaluated At Rotterdam Cardiology Hospital Registries (RESEARCH and T-SEARCH)
From Erasmus Medical Center (M.V., C.A.G.v.M., A.T.L.O., J.A., G.A.R.G., E.P.M., P.J.d.F., E.R., W.J.V.d.G., G.S., P.d.J., R.T.V.D., P.W.S.), and Department of Cardiothoracic Surgery (A.P.K.), Thoraxcenter, and Department of Cardiology, Medical Center Rijnmond Zuid (P.C.S.), Rotterdam, the Netherlands.
Correspondence to P.W. Serruys, MD, PhD, Thoraxcenter, Bd-406, Dr Molewaterplein 40, 3015-GD Rotterdam, The Netherlands. E-mail p.w.j.c.serruys{at}erasmusmc.nl
Received August 3, 2004; revision received December 7, 2004; accepted December 21, 2004.
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Abstract |
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Background— The impact of drug-eluting stent (DES) implantation on the incidence of major adverse cardiovascular events in patients undergoing percutaneous intervention for left main (LM) coronary disease is largely unknown.
Methods and Results— From April 2001 to December 2003, 181 patients underwent percutaneous coronary intervention for LM stenosis at our institution. The first cohort consisted of 86 patients (19 protected LM) treated with bare metal stents (pre-DES group); the second cohort comprised 95 patients (15 protected LM) treated exclusively with DES. The 2 cohorts were well balanced for all baseline characteristics. At a median follow-up of 503 days (range, 331 to 873 days), the cumulative incidence of major adverse cardiovascular events was lower in the DES cohort than in patients in the pre-DES group (24% versus 45%, respectively; hazard ratio [HR], 0.52 [95% CI, 0.31 to 0.88]; P=0.01). Total mortality did not differ between cohorts; however, there were significantly lower rates of both myocardial infarction (4% versus 12%, respectively; HR, 0.22 [95% CI, 0.07 to 0.65]; P=0.006) and target vessel revascularization (6% versus 23%, respectively; HR, 0.26 [95% CI, 0.10 to 0.65]; P=0.004) in the DES group. On multivariate analysis, use of DES, Parsonnet classification, troponin elevation at entry, distal LM location, and reference vessel diameter were independent predictors of major adverse cardiovascular events.
Conclusions— When percutaneous coronary intervention is undertaken at LM lesions, routine DES implantation, which reduces the cumulative incidence of myocardial infarction and the need for target vessel revascularization compared with bare metal stents, should currently be the preferred strategy.
Key Words: stents • angioplasty • arteries
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Introduction |
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Despite the recognition that coronary revascularization, in selected patients with multivessel disease, can presently be accomplished by either a surgical or a percutaneous approach with no significant difference in long-term mortality,1,2 coronary artery bypass grafting (CABG) is still considered the treatment of choice in patients with left main (LM) disease.3 Several trials have reported on the safety and feasibility of stent implantation to treat LM stenosis.4,5 However, particularly in this subset of patients, restenosis remains a major, and potentially fatal, complication, precluding more widespread use of percutaneous coronary intervention (PCI).4,6 In the first observational report of patients treated with a sirolimus-eluting stent (SES) for LM disease, a low rate of binary restenosis and a favorable clinical outcome were reported.7 However, the benefit of drug-eluting stents (DES) on the short- and long-term incidence of major adverse cardiovascular events in this setting, compared with bare metal stents (BMS), remains largely unknown.
The purpose of the present study was to investigate, in this subset of patients undergoing revascularization in a tertiary referral center, the differential impact of DES as opposed to conventional BMS on the occurrence of short- and long-term major cardiovascular events.
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Methods |
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Study Design and Patient Population
Since April 16, 2002, SES (Cypher, Johnson & Johnson, Cordis unit) have been used as a default strategy for every PCI at our institution as part of the Rapamycin-Eluting Stent Evaluated At Rotterdam Cardiology Hospital (RESEARCH) registry. From the first quarter of 2003, paclitaxel-eluting stents (PES) (Taxus, Boston Scientific Corporation) became commercially available, replacing SES as the strategy of choice in every PCI because of cost-effectiveness considerations, as part of the Taxus Stent Evaluated At Rotterdam Cardiology Hospital (T-SEARCH) registry. As a policy, all elective patients presenting with significant (>50% by visual estimation) LM disease, referred to our institution for coronary revascularization, are evaluated by both interventional cardiologists and cardiac surgeons, and the decision to opt for PCI or surgery is reached by consensus on the basis of a comprehensive evaluation of the following items: suitable anatomy and lesion characteristics for stenting and size and quality of vessels distal to the disease and of arterial and/or venous conduits for grafting. Finally, patient and/or referring physician preferences for a percutaneous approach, with both aware of the procedural risks and contraindications to surgery on the basis of the presence of comorbidity as evaluated by a cardiac surgeon, are also considered.
From April 16, 2002, to December 31, 2003, a total of 95 consecutive patients were treated exclusively with 
1 DES in the LM as part of an elective or nonelective revascularization procedure and constitute the DES group of the present report. Fifty-two patients in the first cohort (of whom procedural details and medium-term follow-up were previously reported for 317), received SES exclusively (available, at that time, in diameters from 2.25 to 3.00 mm), whereas in the following group of 43 patients, PES (available in diameters from 2.25 to 3.5 mm) were implanted. A control group for comparison was composed of 86 consecutive patients who received conventional BMS (available in diameters from 2.5 to 5.00 mm) for LM treatment in the period immediately before the introduction of SES. The following BMS were used: BX Sonic or BX Velocity in 35% (Cordis, Johnson & Johnson Company), R-Stent in 29% (Orbus Medical Technologies), Multi-Link Penta in 28% (Guidant Corp), Multi-Link Tetra in 8% (Guidant Corp), and other stents in 4%. Therefore, the total study population comprised all 181 consecutive patients who underwent percutaneous LM treatment from April 2001 to December 2003 with either BMS or DES in the 2 study phases, respectively. To stratify the study population into high– and low–surgical risk groups, the Parsonnet surgical risk score was calculated for each patient.8 A score >15 was used to identify patients at high risk, as previously suggested.6,9 Protected LM segment was defined as the presence of at least 1 patent arterial or venous conduit to at least 1 left coronary segment. Nonelective treatment was defined as a procedure performed on referral before the beginning of the next working day.10
This protocol was approved by the hospital ethics committee and is in accordance with the Declaration of Helsinki. Written informed consent was obtained from every patient.
Procedures and Postintervention Medications
All interventions were performed according to current standard guidelines, and the final interventional strategy, including the use of glycoprotein IIb/IIIa inhibitors, was left entirely to the discretion of the operator, except for the stent utilization. Angiographic success was defined as residual stenosis <30% by visual analysis in the presence of Thrombolysis in Myocardial Infarction (TIMI) 3 flow grade. All patients were advised to maintain the use of aspirin lifelong. One-month clopidogrel treatment (75 mg/d) was recommended for patients treated in the pre-DES phase. For patients treated with either SES or PES, clopidogrel was prescribed for 6 months.
End Point Definitions and Clinical Follow-Up
The primary outcome was the occurrence of major adverse cardiac events, defined as (1) death, (2) nonfatal myocardial infarction (MI), or (3) target vessel revascularization. Patients with >1 event have been assigned the highest ranked event, according to the previous list. All deaths were considered to be of cardiac origin unless a noncardiac origin was established clinically or at autopsy. MI was diagnosed by a rise in the creatine kinase level to more than twice the upper normal limit with an increased creatine kinase-MB fraction. Target vessel revascularization was defined as a repeated intervention (surgical or percutaneous) to treat a luminal stenosis within the stent or in the 5-mm distal or proximal segments adjacent to the stent, including the ostium of the left anterior descending artery (LAD) and/or circumflex artery. Information about in-hospital outcomes was obtained from an electronic clinical database for patients maintained at our institution and by review of hospital records for those discharged to referring hospitals (patients were referred from a total of 14 local hospitals). Postdischarge survival status was obtained from the Municipal Civil Registries. Information on occurrence of MI or repeated interventions at follow-up was collected by consulting our institutional electronic database and by contacting referring physicians and institutions and all living patients.
Statistical Analysis
Continuous variables are shown as mean±SD and were compared by Student unpaired t test. Categorical variables are presented as counts and percentages and were compared with the Fisher exact test. Survival curves were generated by the Kaplan-Meier method, and survival among groups was compared with the log-rank test. Cox proportional hazards models were used to assess risk reduction of adverse events. Patients lost to follow-up were considered at risk until the date of last contact, at which point they were censored. Univariate analysis was performed with the consideration of all variables reported in Tables 1 and 2 
. Multivariate analyses, with consideration of all variables with a value of P<0.10, were performed to identify independent predictors of adverse events. Probability was significant at a level of <0.05. All statistical tests were 2-tailed. Statistical analysis was performed with the use of Statistica 6.1 (Statsoft Inc).
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Results |
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Baseline and Procedural Characteristics
Baseline and procedural characteristics are shown in Table 1 and Table 2. The 2 groups were well matched for all baseline characteristics, including comorbidities. Overall, the average left ventricular ejection fraction was slightly >40%, and approximately half of the patients in both groups were admitted with acute coronary syndromes. Acute MI was the indication to the procedure in 19%; 10% of the patients presented with severe hemodynamic compromise at entry. The distal LM was involved in two thirds of cases in both groups, whereas patients treated with DES had significantly more 3-vessel disease, more bifurcation stenting, a higher number of stents, and greater total stent length per patients. The nominal stent diameter, as a result of limited size availability, was on average smaller in the DES group, which explains the more common practice of postdilatation in this group of patients. Procedural success was 99% in patients receiving DES: in 1 patient who presented with acute MI and shock, a final TIMI 1 flow grade was obtained, and the patient died 3 hours after the procedure. The procedural success was 98% in patients treated in the pre-DES phase: in 2 patients with acute MI and TIMI 0 flow grade in the left coronary artery, the LM and proximal LAD were stented, and subsequently CABG was performed because of residual critical stenosis in the left circumflex artery.
Thirty-Day Outcomes
There were no significant differences between the DES and the pre-DES groups in the incidence of major adverse cardiovascular events during the first 30 days (Table 3). In the DES group, all deaths except 3 occurred in patients presenting with ST-segment elevation acute MI and cardiogenic shock at entry. In all these patients except 4 with severe peripheral artery disease, an intra-aortic balloon was placed during PCI. In the elective population, a total of 2 deaths occurred; both patients presented with unstable angina with mild troponin elevation and were refused by surgeons because of old age (84 years), low left ventricular ejection fraction (
30%), and diabetic chronic renal insufficiency in 1 patient and diffuse 3-vessel disease associated with small-caliber vessels in the second. In this second patient the right coronary artery was occluded. The reason for death was pulmonary infection, which developed 19 days after the procedure in the first patient, and cardiogenic shock, which developed during the intervention, resistant to hemodynamic support (left ventricular assist device) in the other patient. In the pre-DES group, all 6 deaths occurred in patients with ST-segment elevation acute MI, of whom 4 were in cardiogenic shock at entry. No documented thrombotic stent occlusion occurred in the first 30 days or thereafter.
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Long-Term Outcome
After a median follow-up of 503 days (range, 331 to 873 days), the cumulative incidence of major adverse cardiovascular events (death, MI, or target vessel revascularization) was significantly lower in the DES patients than in the pre-DES patients (24% versus 45%, respectively; hazard ratio [HR], 0.52 [95% CI, 0.31 to 0.88]; P=0.01) (Figure, A). Mortality was similar in the DES (14%) and pre-DES cohort (16%; HR, 0.79 [95% CI, 0.38 to 1.66]; P=0.54) (Figure, B), whereas there was a significant reduction in both the rate of MI (4% versus 12%, respectively; HR, 0.22 [95% CI, 0.07 to 0.65]; P=0.006) and composite death/MI (Figure, C) as well as in the need for target vessel revascularization (6% versus 23%, respectively; HR, 0.26 [95% CI, 0.10 to 0.65]; P=0.004) (Figure, D) in the DES group. Seventy-four percent of the deaths were cardiac, whereas 3 of 13 in the DES group and 4 of 14 in the pre-DES phase were attributed to extracardiac reasons. In Table 4, the baseline and procedural characteristics of those patients in the DES group who underwent target vessel revascularization during follow-up are reported. In all cases, the lesion was located in the distal LM, in 50% of cases diabetes was present, and all except 1 were women. In 3 cases, in-stent restenosis occurred; in 2 patients intimal hyperplasia developed at the distal edge of the stent, whereas in 1 patient severe ostial side branch restenosis (circumflex artery) necessitated reintervention. In all cases, restenosis was focal (<10 mm in length) and was successfully treated with repeated PCI. In the pre-DES group, 13 cases of pure in-stent restenosis, of which 3 were focal, were treated with PCI (9 patients) or CABG (4 patients). In 2 patients, diffuse intimal hyperplasia associated with progression of atherosclerotic disease in other vessels was treated with CABG, and in 5 patients (3 with ST-segment elevation acute MI as the indication for LM intervention), staged reintervention with CABG (in 4 patients) and PCI (in 1 patient) was performed because revascularization remained incomplete at the time of the index procedure.
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Predictors of Adverse Events
The Parsonnet score, ranging from 2.5 to 55.5 (mean value, 18±2; interquartile range, 16.5) was 16±11 and 19±12 in the pre-DES and DES groups, respectively (P=0.17) (Table 1), with a trend toward a higher rate of patients considered at high surgical risk (58% versus 46%, respectively; P=0.13) in the DES compared with the pre-DES cohort.
On univariate analysis, Parsonnet classification, use of intra-aortic balloon pump, presence of shock at entry, lesion located in the distal LM, nonelective PCI, troponin elevation at entry, TIMI flow grade before and after PCI, reference vessel diameter, left ventricular ejection fraction, and the use of DES were identified as significant predictors of adverse events. On multivariate analysis, Parsonnet classification, troponin elevation at entry, lesions located at distal site, reference vessel diameter, and the use of DES were independent predictors of major adverse cardiovascular events (Table 5).
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Discussion |
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Despite the feasibility and the high procedural success rate of percutaneous LM intervention, the long-term incidence of adverse events in the pre-DES "era" was often reported to be unacceptably high in this subset of patients.4,6 This reflected the inclusion of high-risk patients, such as those not considered "good surgical candidates," as well as the dramatic impact of treated vessel failure in this specific anatomic context. In consecutive patients receiving elective BMS for unprotected LM treatment, the 3-year cumulative incidence of death was recently reported to be
16%.6 In that series, 28% of the population was at high surgical risk. More than 50% of our study population was at high surgical risk according to the Parsonnet classification, thus explaining the relatively high rate of adverse events we observed. In this setting, when patients treated with DES were compared with those treated with BMS, a marked benefit with respect to the rate of major adverse cardiac events, as evidenced by a 47% relative risk reduction, emerged in the former. This was mainly due to the difference in the incidence of MI (67% relative risk reduction) and target vessel revascularization (65% relative risk reduction), with no effect on mortality. The higher prevalence of 3-vessel disease and bifurcation stenting in the DES group makes the observed benefit even more convincing. The difference in the incidence of events between the 2 groups emerged slowly after the procedure, with no clear advantage at 30 days, possibly reflecting the specific mechanism of action of DES on intimal hyperplasia. The overall advantage of DES remained significant after adjustment for the Parsonnet score, the anatomic site of obstruction, and troponin status at entry. Therefore, our data suggest that when percutaneous treatment of LM coronary artery disease is undertaken, DES should be used as the default strategy.
The LM bifurcation was frequently involved (>60%) in our series, and even when the obstruction was more proximally located and did not directly involve the LAD or left circumflex artery ostia, its treatment often required the management of LM bifurcation. To date, the results of SES implantation to treat bifurcated lesions have been relatively disappointing, with high rates of restenosis in the side branch.11 Our present findings are in keeping with these previous observations, confirming that in the DES era distal LM location is an independent predictor of adverse events at follow-up. Furthermore, because the strategy and technical aspects of bifurcation management were left entirely to the preference of treating physicians, no clear conclusions can be drawn in this regard.
Inconsistent findings have been reported thus far with regard to the effect of DES on long-term cumulative incidence of MI. In the first randomized clinical trials comparing SES or PES with BMS, no difference in the incidence of MI was observed.12,13 Second-generation randomized trials assessing the benefit of DES in patients selected to be at intermediate risk for in-stent restenosis or all-inclusive registries reported trends toward MI reduction in the DES group, but none of them reached statistical significance.14,15 Recently, a clear reduction in the cumulative incidence of MI in the DES group was reported in the SES-SMART trial, in which a selected group of high-risk patients has been evaluated.16 Similarly, in our patient population, a reduced incidence of MI was observed in the DES group. Of note, 2 and 1 cases of MI in the pre-DES phase were related to target vessel revascularization and not related to target vessel revascularization, respectively. Whether this difference between studies is the reflection of a type II error in studies enrolling patients at low or intermediate risk remains unclear, but when the retrospective nature of our investigation is considered, data from prospective studies are needed to confirm our findings.
Limitations of the Study
The present study is a single-center experience from a tertiary referral center and lacks the clear advantages of a multicenter randomized study. In keeping with the aim of our investigation, an "all-comers" population has been enrolled, clearly resulting in a heterogeneous group of patients. Further studies, with larger sample sizes, are required to investigate the differential impact of DES versus BMS in prespecified subgroups, stratified according to clinical presentation (stable versus unstable) or protected versus unprotected type of treatment.
Despite the fact that the study was conducted over a relatively short period, we cannot exclude the possibility that improvements in technique or differences in drug prescription could have partially accounted for the difference observed in terms of major adverse cardiovascular events between groups. However, conducting randomized trials that seek to assess the efficacy of DES versus BMS in this specific subset of patients seems unlikely, and our understanding of the benefit of drug-coated stents to treat this group of patients will probably also rely in the near future on well-conducted registries that are able to record and monitor our daily clinical practice.
Conclusions
The use of DES as a default strategy to treat LM disease was associated with a significant reduction in adverse events. The effectiveness of DES persisted even after adjustment for clinical and procedural variables, including the Parsonnet surgical risk score. Our findings apply to a selected group of patients referred for percutaneous LM treatment and suggest that in this setting routine DES implantation, by reducing the cumulative incidence of major adverse cardiovascular events, should be currently regarded as the strategy of choice. Until new evidence is provided by randomized clinical trials directly comparing the surgical and percutaneous approaches, CABG should remain the preferred revascularization treatment in good surgical candidates presenting with LM coronary artery disease.
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Acknowledgments |
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The authors express their gratitude to Dr Pedro A. Lemos for his major contribution to the RESEARCH Registry and acknowledge the expert statistical assistance of Dr Eric Boersma.
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References |
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W. Rademacher, A. Knape, J. Schumm, M. Ferrari, A. Lauten, H. Mudra, and H. R. Figulla Acute and long-term outcome of unprotected left main coronary angioplasty compared to the anticipated surgical risk Interactive CardioVascular and Thoracic Surgery, October 1, 2008; 7(5): 871 - 877. [Abstract] [Full Text] [PDF]
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A. Chieffo, S.-J. Park, E. Meliga, I. Sheiban, M. S. Lee, A. Latib, Y.-H. Kim, M. Valgimigli, D. Sillano, V. Magni, et al. Late and very late stent thrombosis following drug-eluting stent implantation in unprotected left main coronary artery: a multicentre registry Eur. Heart J., September 1, 2008; 29(17): 2108 - 2115. [Abstract] [Full Text] [PDF]
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E. Meliga, M. Valgimigli, P. Buszman, and P. W. Serruys Percutaneous Coronary Intervention or Coronary Artery Bypass Graft for Unprotected Left Main Coronary Artery Disease: The Endless Debate J. Am. Coll. Cardiol., August 12, 2008; 52(7): 582 - 584. [Full Text] [PDF]
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S. Kaul, W. E. Boden, T. B. Ferguson Jr, R. A. Guyton, M. J. Mack, P. T. Sergeant, R. J. Shemin, P. K. Smith, S. Yusuf, and D. P. Taggart Reply J. Am. Coll. Cardiol., August 12, 2008; 52(7): 584 - 586. [Full Text] [PDF]
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E. Meliga, H. M. Garcia-Garcia, M. Valgimigli, A. Chieffo, G. Biondi-Zoccai, A. O. Maree, S. Cook, L. Reardon, C. Moretti, S. De Servi, et al. Longest available clinical outcomes after drug-eluting stent implantation for unprotected left main coronary artery disease: the DELFT (Drug Eluting stent for LeFT main) Registry. J. Am. Coll. Cardiol., June 10, 2008; 51(23): 2212 - 2219. [Abstract] [Full Text] [PDF]
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P. G. Malvindi, J. Dunning, and N. Vitale For which patients with left main stem disease is percutaneous intervention rather than coronary artery bypass grafting the better option? Interactive CardioVascular and Thoracic Surgery, April 1, 2008; 7(2): 306 - 314. [Abstract] [Full Text] [PDF]
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D. P. Taggart, S. Kaul, W. E. Boden, T. B. Ferguson Jr, R. A. Guyton, M. J. Mack, P. T. Sergeant, R. J. Shemin, P. K. Smith, and S. Yusuf Revascularization for unprotected left main stem coronary artery stenosis stenting or surgery. J. Am. Coll. Cardiol., March 4, 2008; 51(9): 885 - 892. [Abstract] [Full Text] [PDF]
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P. E. Buszman, S. R. Kiesz, A. Bochenek, E. Peszek-Przybyla, I. Szkrobka, M. Debinski, B. Bialkowska, D. Dudek, A. Gruszka, A. Zurakowski, et al. Acute and late outcomes of unprotected left main stenting in comparison with surgical revascularization. J. Am. Coll. Cardiol., February 5, 2008; 51(5): 538 - 545. [Abstract] [Full Text] [PDF]
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T. Palmerini, F. Barlocco, A. Santarelli, L. Bacchi-Reggiani, C. Savini, E. Baldini, L. Alessi, M. Ruffini, G. Di Credico, G. Piovaccari, et al. A comparison between coronary artery bypass grafting surgery and drug eluting stent for the treatment of unprotected left main coronary artery disease in elderly patients (aged >=75 years) Eur. Heart J., November 2, 2007; 28(22): 2714 - 2719. [Abstract] [Full Text] [PDF]
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A. A Khattab, C. W Hamm, J. Senges, R. Toelg, V. Geist, T. Bonzel, M. Kelm, B. Levenson, F.-J. Neumann, C. A Nienaber, et al. Sirolimus-eluting stent treatment for unprotected versus protected left main coronary artery disease in widespread clinical routine: 6-month and 3-year clinical follow-up results from the prospective multicentre German Cypher Registry Heart, October 1, 2007; 93(10): 1251 - 1255. [Abstract] [Full Text] [PDF]
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A. Colombo and A. Chieffo Drug-Eluting Stent Update 2007: Part III: Technique and Unapproved/Unsettled Indications (Left Main, Bifurcations, Chronic Total Occlusions, Small Vessels and Long Lesions, Saphenous Vein Grafts, Acute Myocardial Infarctions, and Multivessel Disease) Circulation, September 18, 2007; 116(12): 1424 - 1432. [Full Text] [PDF]
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F. Airoldi, A. Colombo, N. Morici, A. Latib, J. Cosgrave, L. Buellesfeld, E. Bonizzoni, M. Carlino, U. Gerckens, C. Godino, et al. Incidence and Predictors of Drug-Eluting Stent Thrombosis During and After Discontinuation of Thienopyridine Treatment Circulation, August 14, 2007; 116(7): 745 - 754. [Abstract] [Full Text] [PDF]
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G. W. Stone, J. W. Moses, and M. B. Leon Left Main Drug-Eluting Stents: Natural Progression or a Bridge Too Far? J. Am. Coll. Cardiol., August 7, 2007; 50(6): 498 - 500. [Full Text] [PDF]
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A. Chieffo, S. J. Park, M. Valgimigli, Y. H. Kim, J. Daemen, I. Sheiban, A. Truffa, M. Montorfano, F. Airoldi, G. Sangiorgi, et al. Favorable Long-Term Outcome After Drug-Eluting Stent Implantation in Nonbifurcation Lesions That Involve Unprotected Left Main Coronary Artery: A Multicenter Registry Circulation, July 10, 2007; 116(2): 158 - 162. [Abstract] [Full Text] [PDF]
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R. F. Bonvini, V. Verin, and U. Sigwart Unprotected Left Main Disease: Stent or Surgery? J. Am. Coll. Cardiol., October 17, 2006; 48(8): 1727 - 1728. [Full Text] [PDF]
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C. Kimmelstiel Multislice Computed Tomography After Left Main Drug-Eluting Stenting: Are We Putting the CarT Before the Horse? Circulation, August 15, 2006; 114(7): 616 - 619. [Full Text] [PDF]
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C. A.G. Van Mieghem, F. Cademartiri, N. R. Mollet, P. Malagutti, M. Valgimigli, W. B. Meijboom, F. Pugliese, E. P. McFadden, J. Ligthart, G. Runza, et al. Multislice Spiral Computed Tomography for the Evaluation of Stent Patency After Left Main Coronary Artery Stenting: A Comparison With Conventional Coronary Angiography and Intravascular Ultrasound Circulation, August 15, 2006; 114(7): 645 - 653. [Abstract] [Full Text] [PDF]
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J. A. Spertus, R. Kettelkamp, C. Vance, C. Decker, P. G. Jones, J. S. Rumsfeld, J. C. Messenger, S. Khanal, E. D. Peterson, R. G. Bach, et al. Prevalence, Predictors, and Outcomes of Premature Discontinuation of Thienopyridine Therapy After Drug-Eluting Stent Placement: Results From the PREMIER Registry Circulation, June 20, 2006; 113(24): 2803 - 2809. [Abstract] [Full Text] [PDF]
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A. Chieffo, N. Morici, F. Maisano, E. Bonizzoni, J. Cosgrave, M. Montorfano, F. Airoldi, M. Carlino, I. Michev, G. Melzi, et al. Percutaneous Treatment With Drug-Eluting Stent Implantation Versus Bypass Surgery for Unprotected Left Main Stenosis: A Single-Center Experience Circulation, May 30, 2006; 113(21): 2542 - 2547. [Abstract] [Full Text] [PDF]
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A. Hoye, I. Iakovou, L. Ge, C. A.G. van Mieghem, A. T.L. Ong, J. Cosgrave, G. M. Sangiorgi, F. Airoldi, M. Montorfano, I. Michev, et al. Long-Term Outcomes After Stenting of Bifurcation Lesions With the "Crush" Technique: Predictors of an Adverse Outcome J. Am. Coll. Cardiol., May 16, 2006; 47(10): 1949 - 1958. [Abstract] [Full Text] [PDF]
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M. E. Silverman, N. G. Kounis, G. N. Kounis, S. N. Kouni, D. P. Taggart, P. W. Serruys, and A. T.L. Ong Coronary-artery stents. N. Engl. J. Med., May 11, 2006; 354(19): 2076 - 2078. [Full Text] [PDF]
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M. Valgimigli, P. Malagutti, G. A. Rodriguez-Granillo, H. M. Garcia-Garcia, J. Polad, K. Tsuchida, E. Regar, W. J. Van der Giessen, P. de Jaegere, P. De Feyter, et al. Distal Left Main Coronary Disease Is a Major Predictor of Outcome in Patients Undergoing Percutaneous Intervention in the Drug-Eluting Stent Era: An Integrated Clinical and Angiographic Analysis Based on the Rapamycin-Eluting Stent Evaluated At Rotterdam Cardiology Hospital (RESEARCH) and Taxus-Stent Evaluated At Rotterdam Cardiology Hospital (T-SEARCH) Registries J. Am. Coll. Cardiol., April 18, 2006; 47(8): 1530 - 1537. [Abstract] [Full Text] [PDF]
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S. R. Dixon, C. L. Grines, and W. W. O'Neill The Year in Interventional Cardiology J. Am. Coll. Cardiol., April 18, 2006; 47(8): 1689 - 1706. [Full Text] [PDF]
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S. G. Raja Drug-Eluting Stents and the Future of Coronary Artery Bypass Surgery: Facts and Fiction Ann. Thorac. Surg., March 1, 2006; 81(3): 1162 - 1171. [Abstract] [Full Text] [PDF]
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M. S. Lee, N. Kapoor, F. Jamal, L. Czer, J. Aragon, J. Forrester, S. Kar, S. Dohad, R. Kass, N. Eigler, et al. Comparison of Coronary Artery Bypass Surgery With Percutaneous Coronary Intervention With Drug-Eluting Stents for Unprotected Left Main Coronary Artery Disease J. Am. Coll. Cardiol., February 21, 2006; 47(4): 864 - 870. [Abstract] [Full Text] [PDF]
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M. J. Price, E. Cristea, N. Sawhney, J. A. Kao, J. W. Moses, M. B. Leon, R. A. Costa, A. J. Lansky, and P. S. Teirstein Serial Angiographic Follow-Up of Sirolimus-Eluting Stents for Unprotected Left Main Coronary Artery Revascularization J. Am. Coll. Cardiol., February 21, 2006; 47(4): 871 - 877. [Abstract] [Full Text] [PDF]
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D. S. Baim, L. Mauri, and D. C. Cutlip Drug-Eluting Stenting for Unprotected Left Main Coronary Artery Disease: Are We Ready to Replace Bypass Surgery? J. Am. Coll. Cardiol., February 21, 2006; 47(4): 878 - 881. [Full Text] [PDF]
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M. Valgimigli, P. Malagutti, J. Aoki, H. M. Garcia-Garcia, G. A. Rodriguez Granillo, C. A.G. van Mieghem, J. M. Ligthart, A. T.L. Ong, G. Sianos, E. Regar, et al. Sirolimus-Eluting Versus Paclitaxel-Eluting Stent Implantation for the Percutaneous Treatment of Left Main Coronary Artery Disease: A Combined RESEARCH and T-SEARCH Long-Term Analysis J. Am. Coll. Cardiol., February 7, 2006; 47(3): 507 - 514. [Abstract] [Full Text] [PDF]
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P. W. Serruys, M. J.B. Kutryk, and A. T.L. Ong Coronary-Artery Stents N. Engl. J. Med., February 2, 2006; 354(5): 483 - 495. [Full Text] [PDF]
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S. Bull, N. Chahal, C. J. McKenna, M. Valgimigli, C. A.G. van Mieghem, A. T.L. Ong, J. Aoki, G. A. Rodriguez Granillo, E. P. McFadden, P. J. De Feyter, et al. Letter Regarding Article by Valgimigli et al, "Short- and Long-Term Clinical Outcome After Drug-Eluting Stent Implantation for the Percutaneous Treatment of Left Main Coronary Artery Disease" * Response Circulation, November 1, 2005; 112(18): e306 - e306. [Full Text] [PDF]
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S.-J. Park Inflammatory Biomarkers for Prediction of Outcomes After Unprotected Left Main Coronary Intervention Circulation, October 11, 2005; 112(15): 2226 - 2227. [Full Text] [PDF]
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T. Palmerini, A. Marzocchi, C. Marrozzini, P. Ortolani, F. Saia, L. Bacchi-Reggiani, S. Virzi, S. Gianstefani, and A. Branzi Preprocedural Levels of C-Reactive Protein and Leukocyte Counts Predict 9-Month Mortality After Coronary Angioplasty for the Treatment of Unprotected Left Main Coronary Artery Stenosis Circulation, October 11, 2005; 112(15): 2332 - 2338. [Abstract] [Full Text] [PDF]
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