Background Coronary-artery bypass grafting (CABG) and percutaneoustransluminal coronary angioplasty (PTCA) are alternative methodsof revascularization in patients with coronary artery disease.We tested the hypothesis that in selected patients with multivesseldisease suitable for treatment with either procedure, an initialstrategy of PTCA does not result in a poorer five-year clinicaloutcome than CABG.
Methods Patients with multivessel disease were randomly assignedto an initial treatment strategy of CABG (n = 914) or PTCA (n= 915) and were followed for an average of 5.4 years. Analysisof outcome events was performed according to the intention totreat.
Results The respective in-hospital event rates for CABG andPTCA were 1.3 percent and 1.1 percent for mortality, 4.6 percentand 2.1 percent for Q-wave myocardial infarction (P<0.01),and 0.8 percent and 0.2 percent for stroke. The five-year survivalrate was 89.3 percent for those assigned to CABG and 86.3 percentfor those assigned to PTCA (P = 0.19; 95 percent confidenceinterval of the difference in survival, -0.2 percent to 6.0percent). The respective five-year survival rates free fromQ-wave myocardial infarction were 80.4 percent and 78.7 percent.By five years after study entry, 8 percent of the patients assignedto CABG had undergone additional revascularization procedures,as compared with 54 percent of those assigned to PTCA; 69 percentof those assigned to PTCA did not subsequently undergo CABG.Among diabetic patients who were being treated with insulinor oral hypoglycemic agents at base line, a subgroup not specifiedby the protocol, five-year survival was 80.6 percent for theCABG group as compared with 65.5 percent for the PTCA group(P = 0.003).
Conclusions As compared with CABG, an initial strategy of PTCAdid not significantly compromise five-year survival in patientswith multivessel disease, although subsequent revascularizationwas required more often with this strategy. For treated diabetics,five-year survival was significantly better after CABG thanafter PTCA.
Coronary-artery bypass grafting (CABG), introduced in 1968,1results in longer survival and a better quality of life in specificsubgroups of patients with multivessel coronary artery diseasethan does an initial strategy of medical therapy.2,3,4,5,6 Sincethe introduction of percutaneous transluminal coronary angioplasty(PTCA) in 1977,7 the use of this less invasive procedure forcoronary revascularization has rapidly expanded. Initially,PTCA was used in patients with single-vessel disease, but asexperience and technology have advanced, it has been used inthose with multivessel disease as well.
Because of the growing use of both CABG and PTCA and a lackof properly controlled comparative studies, in 1987 the NationalHeart, Lung, and Blood Institute (NHLBI) initiated the BypassAngioplasty Revascularization Investigation (BARI). BARI testedthe hypothesis that in patients with multivessel disease andsevere angina or ischemia, an initial revascularization strategyinvolving PTCA does not result in a poorer clinical outcomethan CABG during a five-year follow-up period.8
Previous clinical trials comparing coronary surgery with medicaltherapy have found that high-risk groups defined by the presenceof left main coronary artery disease,9 triple-vessel diseasewith impaired left ventricular function,2,5,6 or other riskfactors5 benefit from CABG. Conversely, no benefit was foundin lower-risk groups, such as patients with single-vessel disease.Therefore, an analysis of subgroups was included in the designof BARI.
Methods
Patients were eligible for the study if they had angiographicallydocumented multivessel coronary disease with clinically severeangina or objective evidence of ischemia requiring revascularizationand were suitable candidates for both CABG and PTCA as an initialrevascularization procedure. A detailed description of the study'saims, patient selection, exclusion criteria, procedure guidelines,definitions, and administrative structure has been publishedpreviously.8
Between August 1988 and August 1991, 1829 patients were randomlyassigned to undergo CABG or PTCA at 18 centers, 16 in the UnitedStates and 2 in Canada, after providing written informed consent.Another 2013 eligible patients who refused to undergo randomizationand 422 who were ineligible on the basis of angiographic findingsconsented to follow-up by means of a registry. Screening resultsand base-line characteristics of randomized and registry patientshave been published elsewhere.10,11,12,13,14 Randomization wascarried out with the use of blocks of varying length, with stratificationonly according to clinical center. Computers provided to theclinical centers were used to decode the encrypted assignmentsto ensure that treatment remained blinded until randomization.
Base-line data included the clinical profile, interpretationof a 12-lead electrocardiogram (ECG), and information on coronaryangiographic features, angina and functional status, medications,risk factors, and quality of life. The protocol stipulated thatinitial revascularization had to be performed within two weeksafter randomization. Scheduled multiple stages of PTCA werecounted as a single procedure. New interventional devices, suchas stents, were not used during the initial revascularization.Data obtained during hospitalizations and coronary proceduresincluded electrocardiographic information obtained before andafter each procedure and in the setting of a suspected myocardialinfarction. Follow-up visits were conducted at the clinics atweeks 4 through 14 after study entry and at 1, 3, and 5 years,with telephone contacts at 6 months and 2 and 4 years. The importanceof risk-factor modification was emphasized throughout the studyto the patients and their primary physicians.
All ECGs obtained during rest or exercise were interpreted ata central ECG and myocardial-infarction classification laboratory.All angiograms were evaluated quantitatively (measurement withelectronic calipers) and qualitatively by a central radiographiclaboratory. The coordinating center was responsible for theadministration of the study, data management, and statisticalanalysis. An independent safety and data monitoring board regularlyreviewed interim study results to advise the NHLBI.
Ascertainment of Outcomes
Mortality from all causes was the primary end point. Each patientwas contacted to determine vital status as of June 5, 1995.A Q-wave myocardial infarction was defined as new pathologicQ waves (a worsening by two grades) according to the Minnesotacode15,16 or new left bundle-branch block with abnormal cardiac-enzymelevels (total creatine kinase twice the normal level and anabnormal MB isoenzyme level). A Q-wave myocardial infarctionduring the four-day period following a revascularization procedurewas diagnosed solely on the basis of the Minnesota code.
Angiographic Definitions
A clinically important lesion was defined as stenosis of atleast 50 percent of the diameter of a vessel with a referencediameter of more than 1.5 mm as measured by calipers. The extentof vessel disease was determined on the basis of the numberof myocardial territories (anterior, lateral, and inferoposterior)affected by clinically important lesions. The extent of coronaryartery disease was quantified according to the percentage ofleft ventricular myocardial territory jeopardized17 by clinicallyimportant lesions. The complexity of the lesions was categorizedas type A, B, or C according to the criteria of the AmericanHeart Association–American College of Cardiology ConsensusPanel.18 The proximal left anterior descending artery was definedas the region before the first septal branch, whereas the mid–leftanterior descending artery was defined as the segment betweenthe first septal perforator and the last major diagonal branch.The left ventricular ejection fraction was assessed with thearea–length method on contrast ventriculograms. Abnormalleft ventricular function was defined as an ejection fractionbelow 50 percent, or a total of more than 10 for the sum offive regional-wall-motion scores (each scored on a 5-point scalein which a score of 1 indicates normal motion and a score of5 dyskinesia)19 when ejection fraction was unavailable. Dilatationof a stenotic vessel was considered successful if the degreeof stenosis was reduced by at least 20 percentage points, withresidual stenosis of less than 50 percent of the lumen diameterand normal flow (a grade of 3 according to the Thrombolysisin Myocardial Infarction system).20 Detailed angiographic definitionshave been published.8,11,12,17
Statistical Analysis
We compared the outcomes for CABG and PTCA according to theintention-to-treat principle; however, we compared the ratesof in-hospital complications only among patients who actuallyreceived the assigned treatment. For the assessment of overalloutcomes, we calculated 95 percent confidence intervals of thedifferences between treatments. We used Kaplan–Meier analysis21to estimate the cumulative rates of survival, Q-wave myocardialinfarction, survival free from Q-wave myocardial infarction,and repeated revascularization. The time of the occurrence ofan asymptomatic Q-wave myocardial infarction detected at a routinefollow-up visit was estimated as the midpoint between that follow-upvisit and the ECG preceding it. We compared Kaplan–Meiercurves using the log-rank test,22 with stratification accordingto clinical center. We used Cox regression analysis23 to testfor a departure from a common relative risk across clinicalcenters.
Subgroups of patients were specified a priori by the protocoland were examined by the safety and data monitoring board. Thesesubgroups were defined by four factors: the severity of angina,the number of diseased vessels, left ventricular function, andthe complexity of the lesions. In 1992 the safety and data monitoringboard requested an analysis of diabetic patients on the basisof published reports of adverse outcomes of PTCA after thrombolytictherapy in a subgroup of such patients.24 Treated diabetes wasdefined as diabetes involving the use of insulin or oral hypoglycemicagents at entry into the study. To detect a treatment difference,wider confidence intervals of 99 percent and 99.5 percent forthe a priori and diabetes subgroups, respectively, were usedto correct for multiple comparisons.
Results
Vital status as of June 5, 1995, was ascertained for 1792 patients(98 percent). Data on the remaining 2 percent of patients werecensored when they withdrew consent or were lost to follow-up.The mean length of follow-up was 5.4 years, with a range of3.8 to 6.8. Of the 1229 patients (67 percent) who were followedfor at least five years, 88 percent were alive at five yearsand 79 percent of these survivors had a five-year ECG available.The base-line characteristics11 were not significantly differentbetween the group assigned to PTCA and that assigned to CABG(Table 1). The patients had an average of 3.5 clinically importantlesions; 41 percent had triple-vessel disease. The mean leftventricular ejection fraction was 57 percent.
Table 1. Characteristics of 1829 Patients Assigned to Undergo CABG or PTCA for Multivessel Disease.
Outcome during Hospitalization
Of the 914 patients assigned to undergo CABG, 892 (98 percent)received their assigned treatment, 15 underwent PTCA as theinitial treatment, and 7 were being treated medically at lastcontact. Of the 915 patients assigned to undergo PTCA, 904 (99percent) received the assigned treatment, 9 underwent CABG asthe initial treatment, and 2 were treated medically at lastcontact. Initial revascularizations were performed within twoweeks after treatment assignment in 90.7 percent of cases andwithin eight weeks in 99.6 percent. Among the 892 patients whounderwent CABG as assigned, an average of 3.1 coronary arterieswere bypassed with a mean of 2.8 grafts. All intended vesselswere grafted in 91 percent of patients. The mean duration ofcardiopulmonary bypass was 91 minutes. At least one internal-thoracic-arterygraft was used in 82 percent of patients. The median hospitalstay after CABG was seven days. Among the 904 patients who underwentPTCA as assigned, angioplasty was attempted for an average of2.4 lesions. Multilesion PTCA was attempted in 78 percent ofthe patients, and multivessel PTCA in 70 percent. At least onelesion was successfully dilated in 88 percent of the patients,and all were successfully dilated in 57 percent. Immediate angiographicsuccess was achieved in 78 percent of attempts, with the meandegree of stenosis reduced from 67 percent to 31 percent. Therefore,an average of 1.9 of 3.5 clinically important lesions were successfullydilated (54 percent). The initial PTCA was undertaken in stagesin 158 patients (17 percent). The median hospital stay afterPTCA was three days.
Table 2 summarizes events and complications that occurred inthe hospital after the initial procedures among patients whoreceived their assigned treatment. The rates of in-hospitalmortality and stroke were similar in the two treatment groups.Patients assigned to CABG were more likely to have a Q-wavemyocardial infarction than patients assigned to PTCA (P = 0.004).Patients assigned to PTCA were more likely to require earlyreintervention: 12.8 percent had additional procedures duringhospitalization, and 6.3 percent required emergency CABG. Abruptclosure of a dilated lesion occurred in the laboratory in 86patients who underwent PTCA as assigned. In 35 patients, allstenotic vessels were reopened and considered successfully treated,although 3 patients subsequently underwent CABG during the initialhospitalization. Of the 51 patients with abrupt closure of vesselsthat were not reopened by PTCA, 30 (59 percent) required CABG.
Table 2. Complications of CABG and PTCA That Occurred in the Hospital.
Mortality and Myocardial Infarction
There was no statistically significant difference in the cumulativesurvival curves (Figure 1) for the two treatment groups (111deaths in the CABG group and 131 in the PTCA group, P = 0.19by the log-rank test). The cumulative survival rates at fiveyears were 89.3 percent for patients assigned to CABG and 86.3percent for those assigned to PTCA. The difference between groupsrounds to 2.9 percentage points, with a 95 percent confidenceinterval of -0.2 percent to 6.0 percent. The results did notvary significantly among the clinical centers (P = 0.76).
Figure 1. Overall Survival (Heavy Lines) and Survival Free from Q-Wave Myocardial Infarction (Light Lines) after Study Entry.
Patients assigned to CABG are indicated by solid lines, and patients assigned to PTCA by dashed lines. The numbers of patients at risk are shown below the graph at base line, three years, and five years.
The rates of survival free of Q-wave myocardial infarction (Figure 1)also did not differ significantly between assigned treatmentgroups (P = 0.84 by the log-rank test). At five years, 80.4percent of the patients assigned to CABG and 78.7 percent ofthose assigned to PTCA were alive and free from Q-wave myocardialinfarction. The difference between groups rounds to 1.6 percentagepoints, with a 95 percent confidence interval of -2.2 percentto 5.4 percent. The cumulative rates of Q-wave myocardial infarctionat five years were 11.7 percent and 10.9 percent for the CABGand PTCA groups, respectively (P = 0.45 by the log-rank test)(data not shown).
Repeated Revascularization
Eight percent of the patients assigned to CABG underwent additionalrevascularization procedures in the first five years: 1 percentunderwent CABG and 7 percent PTCA (Figure 2A, Figure 2B, andFigure 2C). In the PTCA group, 54 percent underwent at leastone subsequent procedure, 31 percent underwent a subsequentCABG, and 34 percent underwent a second PTCA (11 percent underwentboth subsequent PTCA and CABG). Unlike patients assigned toCABG, most patients assigned to PTCA who underwent a secondrevascularization did so in the first year of follow-up. Inthe PTCA group, 60 percent avoided CABG by undergoing the initialPTCA or at most one additional PTCA (Table 3). Multiple additionalrevascularizations, however, were required for 19 percent ofthe patients assigned to PTCA, as compared with 3 percent ofthose assigned to CABG. Reflecting this need for additionalprocedures, patients undergoing PTCA required more hospitalizationsduring follow-up, an average of 2.5 as compared with 1.9 inthe CABG group (P<0.001 by the Mann–Whitney–Wilcoxontest).
Figure 2. Percentage of Patients Who Underwent at Least One Subsequent Revascularization (Panel A), Subsequent CABG (Panel B), or Subsequent PTCA (Panel C) after Study Entry.
The numbers of patients at risk are shown below the graphs at base line, three years, and five years.
Table 3. Comparison of the Need for Subsequent Revascularization Procedures at Five Years in the Two Treatment Groups.
Mortality within Subgroups
Figure 3 shows five-year survival rates for monitored subgroups,with 99 percent and 99.5 percent confidence intervals for treatmentdifference. The only significant difference occurred in thesubgroup of patients with treated diabetes. Five-year survivalwas 65.5 percent among patients with treated diabetes who wereassigned to PTCA, as compared with 80.6 percent among diabeticsassigned to CABG (Figure 4). The difference between groups was15.1 percentage points, with a 99.5 percent confidence intervalof 1.4 percent to 28.9 percent, corresponding to a statisticallysignificant difference in the cumulative survival curves (37deaths in the CABG group vs. 60 deaths in the PTCA group, P= 0.003 by the log-rank test). The in-hospital mortality ratesfor the initial procedure among treated diabetics were similar:0.6 percent for those assigned to PTCA and 1.2 percent for thoseassigned to CABG (P = 1.0 by Fisher's exact test).
Figure 3. Five-Year Survival Rates for All Patients and Patients without Treated Diabetes at Base Line, According to Subgroups Selected on the Basis of Base-Line Characteristics.
Ninety-nine percent confidence intervals (CI) of the difference between five-year survival rates are shown for all subgroups except those with a history of diabetes, for which 99.5 percent confidence intervals are shown. CCS denotes Canadian Cardiovascular Society, and MI myocardial infarction. A type C lesion was defined according to the criteria of the American Heart Association–American College of Cardiology Consensus Panel.18
Figure 4. Survival among Patients Who Were Being Treated for Diabetes at Base Line (Heavy Lines) and All Other Patients (Light Lines).
Patients assigned to CABG are indicated by solid lines, and those assigned to PTCA by dashed lines. The numbers of patients at risk are shown below the graph at base line, three years, and five years.
For the 1476 other patients (81 percent of the BARI population),survival was essentially identical in the two treatment groups(at five years, 91.4 percent for those assigned to CABG and91.1 percent for those assigned to PTCA) (Figure 4), with nosignificant differences among a priori subgroups (Figure 3).
Discussion
This clinical trial was designed to provide an overall comparisonbetween coronary bypass surgery and angioplasty as initial treatmentstrategies in patients with multivessel coronary disease anda comparative assessment of treatment strategies in specifiedsubgroups of patients. An analysis based on an average follow-upof 5.4 years revealed no statistically significant differencein survival between the two treatment strategies, with cumulative5-year survival rates of 89.3 percent for patients assignedto CABG and 86.3 percent for patients assigned to PTCA. Thisslight difference was due to a better long-term outcome of theinitial CABG strategy among patients with treated diabetes mellitus,who made up 19 percent of the entire randomized cohort. Amongpatients with treated diabetes, a difference of 15 percentagepoints in five-year survival was found in favor of CABG. Ofequal importance, five-year survival and survival free of Q-wavemyocardial infarction were nearly identical for the two revascularizationstrategies in the remaining 81 percent of the patients.
Five-year mortality in the trial was twice as high as expectedat the time of study design. We attribute this difference toa more elderly and higher-risk population than the cohort withmultivessel disease enrolled in the Coronary Artery SurgeryStudy,19 which we used for the original estimates. One-yearmortality in our trial was also higher than in a recent meta-analysisof six randomized trials comparing PTCA and CABG in patientswith multivessel disease.25 The one-year mortality rate forPTCA in our study was 4.2 percent, as compared with a combinedrate of 3.1 percent in the other trials; the corresponding ratesfor CABG were 3.8 percent and 2.8 percent. As compared withthese trials, our trial enrolled older patients, a higher proportionof women, and a higher proportion of patients with a historyof myocardial infarction, hypertension, congestive heart failure,diabetes, and poor left ventricular function. In the Emory Angioplastyversus Surgery Trial (EAST), the randomized patients were similarto those in our trial, except that the prevalence of diseasein the proximal left anterior descending artery was 72 percentin that trial26 as compared with 37 percent in the current study.This difference can be attributed to differences in the definitionsof anatomical boundaries. The EAST reported five-year mortalityrates of 8.8 percent for CABG and 12.1 percent for PTCA,27 valueswithin the range observed among our centers.
Five-year survival free of Q-wave myocardial infarction wassimilar in both treatment groups. During the initial hospitalization,Q-wave myocardial infarction occurred more frequently in patientsundergoing CABG, although this difference was offset by theoccurrence of a higher rate in the PTCA group during follow-up.The total rates of myocardial infarction were underestimatedin the study since non–Q-wave myocardial infarctions werenot counted.
Although the mortality rates and rates of Q-wave myocardialinfarction were similar for CABG and PTCA, there are clear differencesin other aspects of the clinical course. An initial strategyof angioplasty was associated with a substantially greater needfor additional revascularization procedures, especially duringthe first year of follow-up. For patients assigned to PTCA,the rate of additional procedures at one year (42 percent) washigher than the rate of 35 percent reported in the meta-analysisof other trials,25 whereas the 3 percent rate for patients assignedto CABG was identical. Of the patients assigned to PTCA, 31percent subsequently underwent CABG. This five-year rate was5 percentage points higher than the rate reported in the EAST,even though the rate of subsequent CABG during the initial hospitalizationwas 10 percent in both studies.26,27 In spite of the greaterneed for reintervention, 60 percent of the patients assignedto PTCA avoided subsequent CABG by undergoing the initial PTCAor at most one additional PTCA. Thus, for patients who preferto avoid major surgery, angioplasty offers a reasonable alternativewith an expectation of similar overall survival rates and survivalrates free of Q-wave myocardial infarction.
Differences in survival between the treatment groups were notsignificant in any of the a priori subgroups. In 1992 the safetyand data monitoring board requested that diabetic patients bemonitored because of concern aroused by a previous study aboutthe effects of PTCA in diabetics.24 Although the differencebetween treatments in this subgroup exceeded a stringent levelof statistical significance, this finding should be confirmedin other populations. Two-year results for 122 diabetic patientsin the Coronary Angioplasty versus Bypass RevascularizationInvestigation suggest that CABG improves survival to the sameextent as in our trial.28 The EAST reported no difference infive-year survival between treatment groups in 59 diabetic patients.27The more extensive coronary disease among diabetics and theirgreater tendency to have restenosis after angioplasty suggestpotential mechanisms to explain the relatively better outcomeafter bypass surgery found in our trial. The influence of theseand other factors requires further study.
Of equal importance is the finding of no difference betweentreatments in any other subgroup of patients examined, includingthose defined by clinical and angiographic characteristics forwhich CABG had previously been determined to be superior tomedical therapy.2,3,4,5,6
The higher than expected mortality rates for both treatmentstrategies have implications for testing the study's originalhypothesis. Overall, there was a difference between treatmentgroups of 2.9 percentage points, which was not statisticallysignificant. Although a difference of this magnitude would havebeen significant under the original mortality assumptions, higherobserved rates led to wider confidence intervals for the truedifference. The power to detect relative differences betweenthe treatment groups, however, was not compromised.
The coronary revascularization approaches used in BARI havecontinued to undergo refinements.29 For instance, in the wakeof reports that stents reduce the risk of early restenosis,stent implantation is now more common among patients who requirecoronary angioplasty.30,31 Studies are exploring ways to avoidmedian sternotomy by means of "minimally invasive" surgicalprocedures.32 BARI and the other clinical trials of PTCA andCABG begun in the late 1980s will provide benchmarks for theassessment of these newer approaches.
A recent survey of centers participating in the current trialand 75 other U.S. institutions performing coronary revascularization33confirms that our clinical sites are representative of U.S.centers in terms of patient characteristics and treatment choicebased on extent of coronary disease. In combination with dataon patient screening in BARI,10 the survey suggests that approximately12 percent of all patients who require coronary revascularizationwould be eligible for the BARI trial. For the remaining majority,indicators of treatment are better established.
Continuing follow-up will further elucidate the advantages anddisadvantages of PTCA and CABG, since graft failure34 and thedevelopment of new coronary disease2,3,4,35 may have substantialeffects over the long term on mortality, morbidity, and theneed for additional procedures.
Supported by grants (HL38493, HL38504, HL38509, HL38512, HL38514-6,HL38518, HL38524-5, HL38529, HL38532, HL38556, HL38610, HL38642,and HL42145) from the National Heart, Lung, and Blood Institute.
* This article was prepared by Edwin L. Alderman, M.D., KatharineAndrews, M.S., James Bost, Ph.D., Martial Bourassa, M.D., BernardR. Chaitman, M.D., Katherine Detre, M.D., Dr.P.H., David P.Faxon, M.D., Dean Follmann, Ph.D., Robert L. Frye, M.D., MarkHlatky, M.D., Robert H. Jones, M.D., Sheryl F. Kelsey, Ph.D.,William J. Rogers, M.D., Allan D. Rosen, M.S., Hartzell Schaff,M.D., Mary Ann Sellers, B.S.N., M.S., George Sopko, M.D., M.P.H.,Kim Sutton Tyrrell, Dr.P.H., and David O. Williams, M.D., onbehalf of the BARI Investigators. Dr. Frye, as study chairman,assumes responsibility for the overall content and integrityof this article.
Source Information
Address reprint requests to Dr. Robert L. Frye, c/o BARI Coordinating Center, University of Pittsburgh, Rm. 127, Parran Hall, 130 DeSoto St., Pittsburgh, PA 15261.
References
Favaloro RG. Saphenous vein autograft replacement of severe segmental coronary artery occlusion: operative technique. Ann Thorac Surg 1968;5:334-339. [Medline]
The Veterans Administration Coronary Artery Bypass Surgery Cooperative Study Group. Eleven-year survival in the Veterans Administration randomized trial of coronary bypass surgery for stable angina. N Engl J Med 1984;311:1333-1339. [Abstract]
Varnauskas E, European Coronary Surgery Study Group. Twelve-year follow-up of survival in the randomized European Coronary Surgery Study. N Engl J Med 1988;319:332-337. [Abstract]
Alderman EL, Bourassa MG, Cohen LS, et al. Ten-year follow-up of survival and myocardial infarction in the randomized Coronary Artery Surgery Study. Circulation 1990;82:1629-1646. [Free Full Text]
Detre KM, Peduzzi P, Murphy M, et al. Effect of bypass surgery on survival of patients in low- and high-risk subgroups delineated by the use of simple clinical variables: Veterans Administration cooperative study of surgery for coronary arterial occlusive disease. Circulation 1981;63:1329-1338. [Free Full Text]
Passamani E, Davis KB, Gillespie MJ, Killip T, CASS Principal Investigators. A randomized trial of coronary artery bypass surgery: survival in patients with a low ejection fraction. N Engl J Med 1985;312:1665-1671. [Abstract]
Grüntzig AR, Senning A, Siegenthaler WE. Nonoperative dilatation of coronary-artery stenosis: percutaneous transluminal coronary angioplasty. N Engl J Med 1979;301:61-68. [Abstract]
Protocol for the Bypass Angioplasty Revascularization Investigation. Circulation 1991;84:Suppl V:V-1.
Takaro T, Hultgren HN, Lipton MJ, Detre KM. The VA cooperative randomized study of surgery for coronary arterial occlusive disease. II. Subgroup with significant left main lesions. Circulation 1976;54:Suppl III:III-107.
Bourassa MG, Roubin GS, Detre KM, et al. Bypass Angioplasty Revascularization Investigation: patient screening, selection, and recruitment. Am J Cardiol 1995;75:3C-8C. [CrossRef][Medline]
Rogers WJ, Alderman EL, Chaitman BR, et al. Bypass Angioplasty Revascularization Investigation (BARI): baseline clinical and angiographic data. Am J Cardiol 1995;75:9C-17C. [CrossRef][Medline]
Williams DO, Baim DS, Bates E, et al. Coronary anatomic and procedural characteristics of patients randomized to coronary angioplasty in the Bypass Angioplasty Revascularization Investigation (BARI). Am J Cardiol 1995;75:27C-33C. [CrossRef][Medline]
Schaff HV, Rosen AD, Shemin RJ, et al. Clinical and operative characteristics of patients randomized to coronary artery bypass surgery in the Bypass Angioplasty Revascularization Investigation (BARI). Am J Cardiol 1995;75:18C-26C. [CrossRef][Medline]
Hlatky MA, Charles ED, Nobrega F, et al. Initial functional and economic status of patients with multivessel coronary artery disease randomized in the Bypass Angioplasty Revascularization Investigation (BARI). Am J Cardiol 1995;75:34C-41C. [CrossRef][Medline]
Prineas RJ, Crow RS, Blackburn H. The Minnesota Code manual of electrocardiographic findings: standards and procedures for measurement and classification. Boston: John Wright–PSG, 1982.
Rautaharju PM, Calhoun HP, Chaitman BR. NOVACODE serial ECG classification system for clinical trials and epidemiologic studies. J Electrocardiol 1991;24:Suppl:179-187.
Alderman EL, Stadius M. The angiographic definitions of the Bypass Angioplasty Revascularization Investigation. Coron Artery Dis 1992;3:1189-1207.
Ryan TJ, Faxon DP, Gunnar RM, et al. Guidelines for percutaneous transluminal coronary angioplasty: a report of the American College of Cardiology/American Heart Association Task Force on assessment of diagnostic and therapeutic cardiovascular procedures. J Am Coll Cardiol 1988;12:529-545. [Medline]
Principal Investigators of CASS. National Heart, Lung, and Blood Institute Coronary Artery Surgery Study: a multicenter comparison of the effects of randomized medical and surgical treatment of mildly symptomatic patients with coronary artery disease, and a registry of consecutive patients undergoing coronary angioplasty. Circulation 1981;63:Suppl I:I-1.
Sheehan FH, Braunwald E, Canner P, et al. The effect of intravenous thrombolytic therapy on left ventricular function: a report on tissue-type plasminogen activator and streptokinase from the Thrombolysis in Myocardial Infarction (TIMI phase I) trial. Circulation 1987;75:817-829. [Free Full Text]
Kaplan EL, Meier P. Nonparametric estimation from incomplete observations. J Am Stat Assoc 1958;53:457-81.
Mantel N, Haenszel W. Statistical aspects of the analysis of data from retrospective studies of disease. J Natl Cancer Inst 1959;22:719-748.
Cox DR. Regression models and life-tables. J R Stat Soc [B] 1972;34:187-220.
Mueller HS, Cohen LS, Braunwald E, et al. Predictors of early morbidity and mortality after thrombolytic therapy of acute myocardial infarction: analyses of patient subgroups in the Thrombolysis in Myocardial Infarction (TIMI) trial, phase II. Circulation 1992;85:1254-1264. [Free Full Text]
Pocock SJ, Henderson RA, Rickards AF, et al. Meta-analysis of randomised trials comparing coronary angioplasty with bypass surgery. Lancet 1995;346:1184-1189. [CrossRef][Medline]
King SB III, Lembo NJ, Weintraub WS, et al. A randomized trial comparing coronary angioplasty with coronary bypass surgery. N Engl J Med 1994;331:1044-1050. [Free Full Text]
Kosinski AS, Barnhart HX, Weintraub WS, et al. Five year outcome after coronary surgery or coronary angioplasty: results from the Emory Angioplasty vs Surgery Trial (EAST). Circulation 1995;91:Suppl I:I-543.abstract
Bertrand M. Long-term follow-up of European revascularization trials. Presented at the 68th Scientific Sessions, Plenary Session XII, American Heart Association, Anaheim, Calif., November 16, 1995.
Ellis SG, Cowley MJ, Whitlow PL, et al. Prospective case-control comparison of percutaneous transluminal coronary revascularization in patients with multivessel disease treated in 1986-1987 versus 1991: improved in-hospital and 12-month results. J Am Coll Cardiol 1995;25:1137-1142. [Abstract]
Fischman DL, Leon MB, Baim DS, et al. A randomized comparison of coronary-stent placement and balloon angioplasty in the treatment of coronary artery disease. N Engl J Med 1994;331:496-501. [Free Full Text]
Serruys PW, de Jaegere P, Kiemeneij F, et al. A comparison of balloon-expandable-stent implantation with balloon angioplasty in patients with coronary artery disease. N Engl J Med 1994;331:489-495. [Free Full Text]
Benetti FJ, Ballester C. Use of thoracoscopy and a minimal thoracotomy, in mammary-coronary bypass to left anterior descending artery, without extracorporeal circulation: experience in 2 cases. J Cardiovasc Surg (Torino) 1995;36:159-161. [Medline]
Detre KM, Rosen AD, Bost JE, et al. Contemporary practice of coronary revascularization in U.S. hospitals and hospitals participating in the Bypass Angioplasty Revascularization Investigation (BARI). J Am Coll Cardiol (in press).
Campeau L, Lespérance J, Corbara F, Hermann J, Grondin CM, Bourassa MG. Aortocoronary saphenous vein bypass graft changes 5 to 7 years after surgery. Circulation 1978;58:Suppl I:I-170.
Bourassa MG, Enjalbert M, Campeau L, Lesperance J. Progression of atherosclerosis in coronary arteries and bypass grafts: ten years later. Am J Cardiol 1984;53:102C-107C. [CrossRef][Medline]
Appendix
The following institutions and persons participated in the BARItrial: University of Alabama — W. Rogers, W. Baxley, L.Dean, G. Roubin, J.K. Kirklin, J.W. Kirklin, A. Pacifico, G.Zorn, E. Charles, T. Paine, S. Brewer, G. Duke, L. Maske, T.Morgan, K. Doss, K. Anderson, M. Brunner-Scott, F. Harris, T.Bulle, J. Cavender, P. Garrahy; Rhode Island Hospital —D. Williams, T. Drew, A. Singh, G. Cooper, B. Sharaf, J. Wheeler,M. Grogan; Bellevue Hospital — F. Feit, M. Attubato, S.Colvin, A. Galloway, G. Ribakove, P. Pasternack, M. Rey, S.Shapiro; Boston University — A. Jacobs, D. Faxon, G. Garber,N. Ruocco, R. Shemin, G. Aldea, T. Ryan, D. Weiner, B. Hankin,M. Mazur; Cleveland Clinic Foundation — P. Whitlow, S.Ellis, I. Franco, R. Raymond, E. Topol, D. Cosgrove, F. Loop,B. Lytele, R. Stewart, P. Taylor, A. Dimas, A. Lincoff, M. Lowrie,K. Comella; Duke University — R. Califf, R. Bauman, V.Behar, Y. Kong, M. Krucoff, K. Morris, R. Peter, H. Phillips,R. Stack, J. Tcheng, R. Jones, H. Oldham, R. Van Tright, W.Baker, T. Bashore, D. Fortin, K. Lee, E. Ohman, L. Drew, M.Sellers, V. Bass; Beth Israel Hospital — D. Baim, J. Aroesty,B. Lorell, R. Johnson, R. Thurer, R. Weintraub, M. Flatley;Maine Medical Center — M. Kellett, Jr., W. Alpern, R.Anderson, D. Cutler, P. Sweeney, D. Donegan, S. Katz, R. Kramer,C. Lutes, J. Morton, E. Nowicki, J. Tryzelaar, R. White, C.Lambrew, S. Bosworth-Farrell, J. Kane, N. Tooker; Universityof Massachusetts — B. Weiner, J. Moran, O. Okike, A. Pezzella,T. VanderSalm, M. Borbone, K. Quist; Mayo Clinic Foundation— R. Frye (study chair), M. Mock, J. Bresnahan, D. Holmes,G. Reeder, C. Mullany, T. Orszulak, H. Schaff, P. Berger, R.Gibbons, S. Kopecky, R. Schwartz, H. Smith, S. Matheson, L.Kelly, L. Pierre, D. Bresnahan, B. Gersh, F. Nobrega, M. Peterson,R. Vlietstra; Medical College of Virginia — M. Cowley,G. Vetrovec, A. Guerraty, D. Salter, A. Wechsler, K. Kelly Hall;University of Michigan — B. Pitt, E. Bates, D. Muller,S. Bolling, M. Deeb, M. Kirsh, M. Stock, J. Corbett, P. Fox,T. Johnson, K. McNeely, S. Pitt, K. Burek; Montreal Heart Institute— M. Bourassa, R. Bonan, G. Cote, J. Crepeau, P. DeGuise,Y. Leclerc, C. Pelletier, J. Gregoire, G. Hudon, J. Lesperance,J. Trudel, C. Faille; Toronto Hospital — L. Schwartz,H. Aldridge, T. David, C. Feindel, B. Goldman, L. Mickleborough,R. Weisel, C. Lazzam, M. McLoughlin, L. Zelovitsky, P. Liu,L. Lazzam; New York Medical College — M. Weiss, R. Moggio,R. Pooley, G. Reed, M. Sarabu, R. Steinberg; St. Louis University— B. Chaitman, F. Aguirre, M. Kern, G. Kaiser, V. Willman,R. Wiens, C. Huffman, T. Stonner, S. Aubuchon, M. Kramer; JewishHospital — R. Krone, N. Kouchoukos, A. Salimi, T. Wareing,P. Cole, K. Fischer, R. Kleiger, J. Humphrey, D. Bowen, G. Eisenkramer,P. Rice, J. Waldschmidt; Georgetown University (former site);Institute of Clinical and Experimental Medicine, Prague, CzechRepublic (parallel study); Central Electrocardiographic andMyocardial Infarction Classification Laboratory: St. Louis UniversityMedical Center — B. Chaitman, P. Bjerregaard, I. Gussak,R. Wiens, L. Younis, K. Stocke, K. Russell, S. Cannon, C. Homeyer,M. Miller; Central Radiographic Laboratory: Stanford UniversityMedical Center — E. Alderman, M. Stadius, B. Brown, W.Sanders, L. Wexler, B. Hollak; Coordinating Center: Universityof Pittsburgh — K. Detre, S. Kelsey, K. Sutton-Tyrrell,A. Rosen, S. Crow, K. Andrews, J. Bost, M. Brooks, R. Hardison,G. Harger, R. Holubkov, A. Siewers, J. Martin, J. Greenhouse,A. Sampson, C. Ravotti; NHLBI — G. Sopko, D. Follmann,M. Horan; Safety and Data Monitoring Board — J. Bristow,J. Childress, T. Gardner, C. Grines, J. Kennedy, G. Knatterud,J. Waldhausen, C. White; Morbidity and Mortality ClassificationCommittee — R. Prineas, C. Fisch, H. Greene, R. Karp,S. King III, J. Mason, J. Titus.
Hamdalla, H., Moliterno, D. J.
(2008). Late drug-eluting stent thrombosis in unprotected left main coronary artery lesions--sometimes possible, but rarely definite or probable. Eur Heart J
29: 2064-2066
[Full Text]
Mack, M. J., Prince, S. L., Herbert, M., Brown, P. P., Katz, M., Palmer, G., Edgerton, J. R., Eichhorn, E., Magee, M. J., Dewey, T. M.
(2008). Current clinical outcomes of percutaneous coronary intervention and coronary artery bypass grafting.. Ann. Thorac. Surg.
86: 496-503
[Abstract][Full Text]
Kohsaka, S., Goto, M., Virani, S., Lee, V.-V., Aoki, N., Elayda, M. A., Reul, R. M., Wilson, J. M.
(2008). Long-term clinical outcome of coronary artery stenting or coronary artery bypass grafting in patients with multiple-vessel disease.. J. Thorac. Cardiovasc. Surg.
136: 500-506
[Abstract][Full Text]
Herzog, C. A., Strief, J. W., Collins, A. J., Gilbertson, D. T.
(2008). Cause-specific mortality of dialysis patients after coronary revascularization: why don't dialysis patients have better survival after coronary intervention?. Nephrol Dial Transplant
23: 2629-2633
[Abstract][Full Text]
Hlatky, M. A., Bravata, D. M.
(2008). Stents or Surgery?: New Data on the Comparative Outcomes of Percutaneous Coronary Intervention and Coronary Artery Bypass Graft Surgery. Circulation
118: 325-327
[Full Text]
Booth, J., Clayton, T., Pepper, J., Nugara, F., Flather, M., Sigwart, U., Stables, R. H., on Behalf of the SoS Investigators,
(2008). Randomized, Controlled Trial of Coronary Artery Bypass Surgery Versus Percutaneous Coronary Intervention in Patients With Multivessel Coronary Artery Disease: Six-Year Follow-Up From the Stent or Surgery Trial (SoS). Circulation
118: 381-388
[Abstract][Full Text]
Synnergren, M. J., Ekroth, R., Oden, A., Rexius, H., Wiklund, L.
(2008). Incomplete revascularization reduces survival benefit of coronary artery bypass grafting: Role of off-pump surgery. J. Thorac. Cardiovasc. Surg.
136: 29-36
[Abstract][Full Text]
Park, D.-W., Yun, S.-C., Lee, S.-W., Kim, Y.-H., Lee, C. W., Hong, M.-K., Kim, J.-J., Choo, S. J., Song, H., Chung, C. H., Lee, J.-W., Park, S.-W., Park, S.-J.
(2008). Long-Term Mortality After Percutaneous Coronary Intervention With Drug-Eluting Stent Implantation Versus Coronary Artery Bypass Surgery for the Treatment of Multivessel Coronary Artery Disease. Circulation
117: 2079-2086
[Abstract][Full Text]
Brar, S. S., Syros, G., Dangas, G.
(2008). Multivessel Disease: Percutaneous Coronary Intervention for Classic Coronary Artery Bypass Grafting Indications. ANGIOLOGY
59: 83S-88S
[Abstract]
DeMaria, A. N.
(2008). Clinical trials and clinical judgment.. J Am Coll Cardiol
51: 1120-1122
[Full Text]
Ohno, T., Takamoto, S., Motomura, N.
(2008). Diabetic Retinopathy and Coronary Artery Disease From the Cardiac Surgeon's Perspective. Ann. Thorac. Surg.
85: 681-689
[Abstract][Full Text]
Martuscelli, E., Clementi, F., Gallagher, M. M., D'Eliseo, A., Chiricolo, G., Nigri, A., Marino, B., Romeo, F., on behalf of CABRI trialists,
(2008). Revascularization strategy in patients with multivessel disease and a major vessel chronically occluded; data from the CABRI trial. Eur. J. Cardiothorac. Surg.
33: 4-8
[Abstract][Full Text]
Desai, N. D.
(2008). Pitfalls Assessing the Role of Drug-Eluting Stents in Multivessel Coronary Disease. Ann. Thorac. Surg.
85: 25-27
[Full Text]
Brown, M. L., Sundt, T. M. III, Gersh, B. J.
(2008). Indications for Revascularization. Card Surg Adult
3: 551-572
[Full Text]
Gongora, E., Sundt, T. M. III
(2008). Myocardial Revascularization with Cardiopulmonary Bypass. Card Surg Adult
3: 599-632
[Full Text]
Cheng, S., Jarcho, J.
(2007). Management of Stable Coronary Disease -- Polling Results. NEJM
357: e28-e28
[Full Text]
Dacey, L. J., Likosky, D. S., Ryan, T. J. Jr, Robb, J. F., Quinn, R. D., DeVries, J. T., Hearne, M. J., Leavitt, B. J., Dunton, R. F., Clough, R. A., Sisto, D., Ross, C. S., Olmstead, E. M., O'Connor, G. T., Malenka, D. J., Northern New England Cardiovascular Disease Study,
(2007). Long-Term Survival After Surgery Versus Percutaneous Intervention in Octogenarians With Multivessel Coronary Disease. Ann. Thorac. Surg.
84: 1904-1911
[Abstract][Full Text]
Bravata, D. M., Gienger, A. L., McDonald, K. M., Sundaram, V., Perez, M. V., Varghese, R., Kapoor, J. R., Ardehali, R., Owens, D. K., Hlatky, M. A.
(2007). Systematic Review: The Comparative Effectiveness of Percutaneous Coronary Interventions and Coronary Artery Bypass Graft Surgery. ANN INTERN MED
147: 703-716
[Abstract][Full Text]
Gibbons, R. J., Fihn, S. D.
(2007). Coronary Revascularization: New Evidence, New Challenges. ANN INTERN MED
147: 732-734
[Full Text]
Fang, C.-C., Yeun Tarl Fresner Ng Jao, , Yi-Chen, , Yu, C.-L., Chen, C.-L., Wang, S.-P.
(2007). Angiographic and Clinical Outcomes of Rosiglitazone in Patients With Type 2 Diabetes Mellitus After Percutaneous Coronary Interventions: A Single Center Experience. ANGIOLOGY
58: 523-534
[Abstract]
Fleisher, L. A., Beckman, J. A., Brown, K. A., Calkins, H., Chaikof, E. L., Fleischmann, K. E., Freeman, W. K., Froehlich, J. B., Kasper, E. K., Kersten, J. R., Riegel, B., Robb, J. F., Smith, S. C. Jr, Jacobs, A. K., Adams, C. D., Anderson, J. L., Antman, E. M., Buller, C. E., Creager, M. A., Ettinger, S. M., Faxon, D. P., Fuster, V., Halperin, J. L., Hiratzka, L. F., Hunt, S. A., Lytle, B. W., Nishimura, R., Ornato, J. P., Page, R. L., Riegel, B., Tarkington, L. G., Yancy, C. W.
(2007). ACC/AHA 2007 Guidelines on Perioperative Cardiovascular Evaluation and Care for Noncardiac Surgery: A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the 2002 Guidelines on Perioperative Cardiovascular Evaluation for Noncardiac Surgery) Developed in Collaboration With the American Society of Echocardiography, American Society of Nuclear Cardiology, Heart Rhythm Society, Society of Cardiovascular Anesthesiologists, Society for Cardiovascular Angiography and Interventions, Society for Vascular Medicine and Biology, and Society for Vascular Surgery. J Am Coll Cardiol
50: e159-e242
[Full Text]
Fleisher, L. A., Beckman, J. A., Brown, K. A., Calkins, H., Chaikof, E. L., Fleischmann, K. E., Freeman, W. K., Froehlich, J. B., Kasper, E. K., Kersten, J. R., Riegel, B., Robb, J. F.
(2007). ACC/AHA 2007 Guidelines on Perioperative Cardiovascular Evaluation and Care for Noncardiac Surgery: A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the 2002 Guidelines on Perioperative Cardiovascular Evaluation for Noncardiac Surgery). Circulation
116: e418-e500
[Full Text]
Javaid, A., Steinberg, D. H., Buch, A. N., Corso, P. J., Boyce, S. W., Pinto Slottow, T. L., Roy, P. K., Hill, P., Okabe, T., Torguson, R., Smith, K. A., Xue, Z., Gevorkian, N., Suddath, W. O., Kent, K. M., Satler, L. F., Pichard, A. D., Waksman, R.
(2007). Outcomes of Coronary Artery Bypass Grafting Versus Percutaneous Coronary Intervention With Drug-Eluting Stents for Patients With Multivessel Coronary Artery Disease. Circulation
116: I-200-I-206
[Abstract][Full Text]
Mohammadi, S., Dagenais, F., Mathieu, P., Kingma, J. G., Doyle, D., Lopez, S., Baillot, R., Perron, J., Charbonneau, E., Dumont, E., Metras, J., Desaulniers, D., Voisine, P.
(2007). Long-Term Impact of Diabetes and Its Comorbidities in Patients Undergoing Isolated Primary Coronary Artery Bypass Graft Surgery. Circulation
116: I-220-I-225
[Abstract][Full Text]
Bair, T. L., Muhlestein, J. B., May, H. T., Meredith, K. G., Horne, B. D., Pearson, R. R., Li, Q., Jensen, K. R., Anderson, J. L., Lappe, D. L.
(2007). Surgical Revascularization Is Associated With Improved Long-Term Outcomes Compared With Percutaneous Stenting in Most Subgroups of Patients With Multivessel Coronary Artery Disease: Results From the Intermountain Heart Registry. Circulation
116: I-226-I-231
[Abstract][Full Text]
Rodriguez, A. E., Maree, A. O., Mieres, J., Berrocal, D., Grinfeld, L., Fernandez-Pereira, C., Curotto, V., Rodriguez-Granillo, A., O'Neill, W., Palacios, I. F.
(2007). Late loss of early benefit from drug-eluting stents when compared with bare-metal stents and coronary artery bypass surgery: 3 years follow-up of the ERACI III registry. Eur Heart J
28: 2118-2125
[Abstract][Full Text]
Anderson, J. L., Adams, C. D., Antman, E. M., Bridges, C. R., Califf, R. M., Casey, D. E. Jr, Chavey, W. E. II, Fesmire, F. M., Hochman, J. S., Levin, T. N., Lincoff, A. M., Peterson, E. D., Theroux, P., Wenger, N. K., Wright, R. S., Smith, S. C. Jr, Jacobs, A. K., Adams, C. D., Anderson, J. L., Antman, E. M., Halperin, J. L., Hunt, S. A., Krumholz, H. M., Kushner, F. G., Lytle, B. W., Nishimura, R., Ornato, J. P., Page, R. L., Riegel, B.
(2007). ACC/AHA 2007 Guidelines for the Management of Patients With Unstable Angina/Non-ST-Elevation Myocardial Infarction: A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the 2002 Guidelines for the Management of Patients With Unstable Angina/Non-ST-Elevation Myocardial Infarction) Developed in Collaboration with the American College of Emergency Physicians, the Society for Cardiovascular Angiography and Interventions, and the Society of Thoracic Surgeons Endorsed by the American Association of Cardiovascular and Pulmonary Rehabilitation and the Society for Academic Emergency Medicine. J Am Coll Cardiol
50: e1-e157
[Full Text]
Anderson, J. L., Adams, C. D., Antman, E. M., Bridges, C. R., Califf, R. M., Casey, D. E. Jr, Chavey, W. E. II, Fesmire, F. M., Hochman, J. S., Levin, T. N., Lincoff, A. M., Peterson, E. D., Theroux, P., Wenger, N. K., Wright, R. S., Smith, S. C. Jr, Jacobs, A. K., Adams, C. D., Anderson, J. L., Antman, E. M., Halperin, J. L., Hunt, S. A., Krumholz, H. M., Kushner, F. G., Lytle, B. W., Nishimura, R., Ornato, J. P., Page, R. L., Riegel, B.
(2007). ACC/AHA 2007 Guidelines for the Management of Patients With Unstable Angina/Non ST-Elevation Myocardial Infarction Executive Summary: A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the 2002 Guidelines for the Management of Patients With Unstable Angina/Non ST-Elevation Myocardial Infarction) Developed in Collaboration with the American College of Emergency Physicians, the Society for Cardiovascular Angiography and Interventions, and the Society of Thoracic Surgeons Endorsed by the American Association of Cardiovascular and Pulmonary Rehabilitation and the Society for Academic Emergency Medicine. J Am Coll Cardiol
50: 652-726
[Full Text]
Machecourt, J., Danchin, N., Lablanche, J. M., Fauvel, J. M., Bonnet, J. L., Marliere, S., Foote, A., Quesada, J. L., Eltchaninoff, H., Vanzetto, G., for the EVASTENT Investigators,
(2007). Risk Factors for Stent Thrombosis After Implantation of Sirolimus-Eluting Stents in Diabetic and Nondiabetic Patients: The EVASTENT Matched-Cohort Registry. J Am Coll Cardiol
50: 501-508
[Abstract][Full Text]
King, S. B. III, Aversano, T., Ballard, W. L., Beekman, R. H. III, Cowley, M. J., Ellis, S. G., Faxon, D. P., Hannan, E. L., Hirshfeld, J. W. Jr, Jacobs, A. K., Kellett, M. A. Jr, Kimmel, S. E., Landzberg, J. S., McKeever, L. S., Moscucci, M., Pomerantz, R. M., Smith, K. M., Vetrovec, G. W., Creager, M. A., Hirshfeld, J. W. Jr, Holmes, D. R. Jr, Newby, L. K., Weitz, H. H., Merli, G., Pina, I., Rodgers, G. P., Tracy, C. M.
(2007). ACCF/AHA/SCAI 2007 Update of the Clinical Competence Statement on Cardiac Interventional Procedures: A Report of the American College of Cardiology Foundation/American Heart Association/American College of Physicians Task Force on Clinical Competence and Training (Writing Committee to Update the 1998 Clinical Competence Statement on Recommendations for the Assessment and Maintenance of Proficiency in Coronary Interventional Procedures). J Am Coll Cardiol
50: 82-108
[Full Text]
Gerber, B. L.
(2007). Risk area, infarct size, and the exposure of the wavefront phenomenon of myocardial necrosis in humans. Eur Heart J
28: 1670-1672
[Full Text]
Holmes, D. R. Jr, Kim, L. J., Brooks, M. M., Kip, K. E., Schaff, H. V., Detre, K. M., Frye, R. L., Bypass Angioplasty Revascularization Investigation,
(2007). The effect of coronary artery bypass grafting on specific causes of long-term mortality in the Bypass Angioplasty Revascularization Investigation. J. Thorac. Cardiovasc. Surg.
134: 38-46
[Abstract][Full Text]
Authors/Task Force Members, , Ryden, L., Standl, E., Bartnik, M., Berghe, G. V. d., Betteridge, J., de Boer, M.-J., Cosentino, F., Jonsson, B., Laakso, M., Malmberg, K., Priori, S., Ostergren, J., Tuomilehto, J., Thrainsdottir, I., Other Contributors, , Vanhorebeek, I., Stramba-Badiale, M., Lindgren, P., Qiao, Q., ESC Committee for Practice Guidelines (CPG), , Priori, S. G., Blanc, J.-J., Budaj, A., Camm, J., Dean, V., Deckers, J., Dickstein, K., Lekakis, J., McGregor, K., Metra, M., Morais, J., Osterspey, A., Tamargo, J., Zamorano, J. L., Document Reviewers, , Deckers, J. W., Bertrand, M., Charbonnel, B., Erdmann, E., Ferrannini, E., Flyvbjerg, A., Gohlke, H., Juanatey, J. R. G., Graham, I., Monteiro, P. F., Parhofer, K., Pyorala, K., Raz, I., Schernthaner, G., Volpe, M., Wood, D.
(2007). Guidelines on diabetes, pre-diabetes, and cardiovascular diseases: full text: The Task Force on Diabetes and Cardiovascular Diseases of the European Society of Cardiology (ESC) and of the European Association for the Study of Diabetes (EASD). Eur Heart J Suppl
9: C3-C74
[Full Text]
Howard-Alpe, G. M., de Bono, J., Hudsmith, L., Orr, W. P., Foex, P., Sear, J. W.
(2007). Coronary artery stents and non-cardiac surgery. Br J Anaesth
98: 560-574
[Abstract][Full Text]
The BARI Investigators,
(2007). The Final 10-Year Follow-Up Results From the BARI Randomized Trial. J Am Coll Cardiol
49: 1600-1606
[Abstract][Full Text]
Fox, C. S., Coady, S., Sorlie, P. D., D'Agostino, R. B. Sr, Pencina, M. J., Vasan, R. S., Meigs, J. B., Levy, D., Savage, P. J.
(2007). Increasing Cardiovascular Disease Burden Due to Diabetes Mellitus: The Framingham Heart Study. Circulation
115: 1544-1550
[Abstract][Full Text]
Hueb, W., Lopes, N. H., Gersh, B. J., Soares, P., Machado, L. A.C., Jatene, F. B., Oliveira, S. A., Ramires, J. A.F.
(2007). Five-Year Follow-Up of the Medicine, Angioplasty, or Surgery Study (MASS II): A Randomized Controlled Clinical Trial of 3 Therapeutic Strategies for Multivessel Coronary Artery Disease. Circulation
115: 1082-1089
[Abstract][Full Text]
Bainbridge, D., Cheng, D., Martin, J., Novick, R., The Evidence-based Peri-operative Clinical Outcome,
(2007). Does off-pump or minimally invasive coronary artery bypass reduce mortality, morbidity, and resource utilization when compared with percutaneous coronary intervention? A meta-analysis of randomized trials. J. Thorac. Cardiovasc. Surg.
133: 623-631
[Abstract][Full Text]
Mehta, R. H., Milford-Beland, S., Peterson, E. D., Bhatt, D. L., Farkouh, M. E., Brogan, G. X., Gibler, W. B., Ohman, E. M., Roe, M. T.
(2007). Characterizing Young Patients With Diabetes and Non-ST-Segment Elevation Acute Coronary Syndromes. Diabetes Care
30: 731-733
[Full Text]
Authors/Task Force Members, , Ryden, L., Standl, E., Bartnik, M., Van den Berghe, G., Betteridge, J., de Boer, M.-J., Cosentino, F., Jonsson, B., Laakso, M., Malmberg, K., Priori, S., Ostergren, J., Tuomilehto, J., Thrainsdottir, I., Other Contributors, , Vanhorebeek, I., Stramba-Badiale, M., Lindgren, P., Qiao, Q., ESC Committee for Practice Guidelines (CPG), , Priori, S. G., Blanc, J.-J., Budaj, A., Camm, J., Dean, V., Deckers, J., Dickstein, K., Lekakis, J., McGregor, K., Metra, M., Morais, J., Osterspey, A., Tamargo, J., Zamorano, J. L., Document Reviewers, , Deckers, J. W., Bertrand, M., Charbonnel, B., Erdmann, E., Ferrannini, E., Flyvbjerg, A., Gohlke, H., Juanatey, J. R. G., Graham, I., Monteiro, P. F., Parhofer, K., Pyorala, K., Raz, I., Schernthaner, G., Volpe, M., Wood, D.
(2007). Guidelines on diabetes, pre-diabetes, and cardiovascular diseases: executive summary: The Task Force on Diabetes and Cardiovascular Diseases of the European Society of Cardiology (ESC) and of the European Association for the Study of Diabetes (EASD). Eur Heart J
28: 88-136
[Full Text]
Dzau, V. J., Antman, E. M., Black, H. R., Hayes, D. L., Manson, J. E., Plutzky, J., Popma, J. J., Stevenson, W.
(2006). The Cardiovascular Disease Continuum Validated: Clinical Evidence of Improved Patient Outcomes: Part I: Pathophysiology and Clinical Trial Evidence (Risk Factors Through Stable Coronary Artery Disease). Circulation
114: 2850-2870
[Full Text]
Hlatky, M. A, Owens, D. K, Sanders, G. D
(2006). Cost-effectiveness as an outcome in randomized clinical trials. Clin Trials
3: 543-551
[Abstract]
Ben-Gal, Y., Moshkovitz, Y., Nesher, N., Uretzky, G., Braunstein, R., Hendler, A., Zivi, E., Herz, I., Mohr, R.
(2006). Drug-Eluting Stents Versus Coronary Artery Bypass Grafting in Patients with Diabetes Mellitus. Ann. Thorac. Surg.
82: 1692-1697
[Abstract][Full Text]
Rajakaruna, C., Rogers, C. A., Suranimala, C., Angelini, G. D., Ascione, R.
(2006). The effect of diabetes mellitus on patients undergoing coronary surgery: A risk-adjusted analysis. J. Thorac. Cardiovasc. Surg.
132: 802-810
[Abstract][Full Text]
Radford, M. J.
(2006). Percutaneous Coronary Intervention "Dominates" Coronary Artery Bypass Graft Surgery for High-Risk Patients: Good News for Patients, a Challenge for Healthcare Planners. Circulation
114: 1229-1231
[Full Text]
Ben-Yehuda, O.
(2006). Physician Judgment in Cardiology: The Art of Medicine Lives On. J Am Coll Cardiol
48: 954-955
[Full Text]
Gao, G., Wu, Y., Grunkemeier, G. L., Furnary, A. P., Starr, A.
(2006). Long-term survival of patients after coronary artery bypass graft surgery: comparison of the pre-stent and post-stent eras.. Ann. Thorac. Surg.
82: 806-810
[Abstract][Full Text]
Guyton, R. A.
(2006). Coronary Artery Bypass is Superior to Drug-Eluting Stents in Multivessel Coronary Artery Disease. Ann. Thorac. Surg.
81: 1949-1957
[Abstract][Full Text]
Authors/Task Force Members, , Fox, K., Garcia, M. A. A., Ardissino, D., Buszman, P., Camici, P. G., Crea, F., Daly, C., De Backer, G., Hjemdahl, P., Lopez-Sendon, J., Marco, J., Morais, J., Pepper, J., Sechtem, U., Simoons, M., Thygesen, K., ESC Committee for Practice Guidelines (CPG), , Priori, S. G., Blanc, J.-J., Budaj, A., Camm, J., Dean, V., Deckers, J., Dickstein, K., Lekakis, J., McGregor, K., Metra, M., Morais, J., Osterspey, A., Tamargo, J., Zamorano, J. L., Document Reviewers, , Zamorano, J. L, Andreotti, F., Becher, H., Dietz, R., Fraser, A., Gray, H., Antolin, R. A. H., Huber, K., Kremastinos, D. T., Maseri, A., Nesser, H.-J., Pasierski, T., Sigwart, U., Tubaro, M., Weis, M.
(2006). Guidelines on the management of stable angina pectoris: executive summary: The Task Force on the Management of Stable Angina Pectoris of the European Society of Cardiology. Eur Heart J
27: 1341-1381
[Full Text]
Hordijk-Trion, M., Lenzen, M., Wijns, W., de Jaegere, P., Simoons, M. L., Scholte op Reimer, W. J.M., Bertrand, M. E., Mercado, N., Boersma, E., on behalf of the EHS-CR Investigators,
(2006). Patients enrolled in coronary intervention trials are not representative of patients in clinical practice: results from the Euro Heart Survey on Coronary Revascularization. Eur Heart J
27: 671-678
[Abstract][Full Text]
Kharlip, J., Naglieri, R., Mitchell, B. D., Ryan, K. A., Donner, T. W.
(2006). Screening for Silent Coronary Heart Disease in Type 2 Diabetes: Clinical application of American Diabetes Association guidelines.. Diabetes Care
29: 692-694
[Full Text]
Williams, M. E.
(2006). Coronary Revascularization in Diabetic Chronic Kidney Disease/End-Stage Renal Disease: A Nephrologist's Perspective. CJASN
1: 209-220
[Full Text]
Brener, S. J., Lytle, B. W., Casserly, I. P., Ellis, S. G., Topol, E. J., Lauer, M. S.
(2006). Predictors of revascularization method and long-term outcome of percutaneous coronary intervention or repeat coronary bypass surgery in patients with multivessel coronary disease and previous coronary bypass surgery. Eur Heart J
27: 413-418
[Abstract][Full Text]
Toumpoulis, I. K., Anagnostopoulos, C. E., Balaram, S., Swistel, D. G., Ashton, R. C. Jr, DeRose, J. J. Jr
(2006). Does Bilateral Internal Thoracic Artery Grafting Increase Long-Term Survival of Diabetic Patients?. Ann. Thorac. Surg.
81: 599-607
[Abstract][Full Text]
Ayanian, J. Z.
(2006). Rising Rates of Cardiac Procedures in the United States and Canada: Too Much of a Good Thing?. Circulation
113: 333-335
[Full Text]
Klein, L. W.
(2006). Are Drug-Eluting Stents the Preferred Treatment for Multivessel Coronary Artery Disease?. J Am Coll Cardiol
47: 22-26
[Abstract][Full Text]
Scognamiglio, R., Negut, C., Ramondo, A., Tiengo, A., Avogaro, A.
(2006). Detection of Coronary Artery Disease in Asymptomatic Patients With Type 2 Diabetes Mellitus. J Am Coll Cardiol
47: 65-71
[Abstract][Full Text]
Scognamiglio, R., Negut, C., Ramondo, A., Tiengo, A., Avogaro, A.
(2005). Detection of Coronary Artery Disease in Asymptomatic Patients With Type 2 Diabetes Mellitus. J Am Coll Cardiol
0: j.jacc.2005.10.008v1-11514
[Abstract][Full Text]
King, S. B. III
(2005). Angioplasty Is Better Than Medical Therapy for Alleviating Chronic Angina Pectoris. Arch Intern Med
165: 2589-2592
[Full Text]
Krumholz, H. M.
(2005). The Year in Epidemiology, Health Services, and Outcomes Research. J Am Coll Cardiol
46: 1362-1370
[Full Text]
Kaehler, J., Koester, R., Billmann, W., Schroeder, C., Rupprecht, H.-J., Ischinger, T., Jahns, R., Vogt, A., Lampen, M., Hoffmann, R., Riessen, R., Berger, J., Meinertz, T., Hamm, C. W.
(2005). 13-year follow-up of the German angioplasty bypass surgery investigation. Eur Heart J
26: 2148-2153
[Abstract][Full Text]
Ramanathan, K. B., Weiman, D. S., Sacks, J., Morrison, D. A., Sedlis, S., Sethi, G., Henderson, W. G.
(2005). Percutaneous Intervention Versus Coronary Bypass Surgery for Patients Older Than 70 Years of Age With High-Risk Unstable Angina. Ann. Thorac. Surg.
80: 1340-1346
[Abstract][Full Text]
White, H. D., Assmann, S. F., Sanborn, T. A., Jacobs, A. K., Webb, J. G., Sleeper, L. A., Wong, C.-K., Stewart, J. T., Aylward, P. E.G., Wong, S.-C., Hochman, J. S.
(2005). Comparison of Percutaneous Coronary Intervention and Coronary Artery Bypass Grafting After Acute Myocardial Infarction Complicated by Cardiogenic Shock: Results From the Should We Emergently Revascularize Occluded Coronaries for Cardiogenic Shock (SHOCK) Trial. Circulation
112: 1992-2001
[Abstract][Full Text]
King, S. B. III, Dangas, G., Moses, J. W., King, S. B. III, Dangas, G., Moses, J. W.
(2005). Surgery Is Preferred for the Diabetic With Multivessel Disease. Circulation
112: 1500-1515
[Full Text]
Zimarino, M., Calafiore, A. M., De Caterina, R.
(2005). Complete myocardial revascularization: between myth and reality. Eur Heart J
26: 1824-1830
[Abstract][Full Text]
Sorajja, P., Chareonthaitawee, P., Rajagopalan, N., Miller, T. D., Frye, R. L., Hodge, D. O., Gibbons, R. J.
(2005). Improved Survival in Asymptomatic Diabetic Patients With High-Risk Spect Imaging Treated With Coronary Artery Bypass Grafting. Circulation
112: I-311-I-316
[Abstract][Full Text]
Malenka, D. J., Leavitt, B. J., Hearne, M. J., Robb, J. F., Baribeau, Y. R., Ryan, T. J., Helm, R. E., Kellett, M. A., Dauerman, H. L., Dacey, L. J., Silver, M. T., VerLee, P. N., Weldner, P. W., Hettleman, B. D., Olmstead, E. M., Piper, W. D., O'Connor, G. T., for the Northern New England Cardiovascular Diseas,
(2005). Comparing Long-Term Survival of Patients With Multivessel Coronary Disease After CABG or PCI: Analysis of BARI-Like Patients in Northern New England. Circulation
112: I-371-I-376
[Abstract][Full Text]
Rodriguez, A. E., Baldi, J., Pereira, C. F., Navia, J., Alemparte, M. R., Delacasa, A., Vigo, F., Vogel, D., O'Neill, W., Palacios, I. F., on behalf of the ERACI II Investigators,
(2005). Five-Year Follow-Up of the Argentine Randomized Trial of Coronary Angioplasty With Stenting Versus Coronary Bypass Surgery in Patients With Multiple Vessel Disease (ERACI II). J Am Coll Cardiol
46: 582-588
[Abstract][Full Text]
Gurm, H. S., Sarembock, I. J., Kereiakes, D. J., Young, J. J., Harrington, R. A., Kleiman, N., Feit, F., Wolski, K., Bittl, J. A., Wilcox, R., Topol, E. J., Lincoff, A. M., for the REPLACE-2 Investigators,
(2005). Use of Bivalirudin During Percutaneous Coronary Intervention in Patients With Diabetes Mellitus: An Analysis From the Randomized Evaluation in Percutaneous Coronary Intervention Linking Angiomax to Reduced Clinical Events (REPLACE)-2 Trial. J Am Coll Cardiol
45: 1932-1938
[Abstract][Full Text]
Hannan, E. L., Racz, M. J., Walford, G., Jones, R. H., Ryan, T. J., Bennett, E., Culliford, A. T., Isom, O. W., Gold, J. P., Rose, E. A.
(2005). Long-Term Outcomes of Coronary-Artery Bypass Grafting versus Stent Implantation. NEJM
352: 2174-2183
[Abstract][Full Text]
van Domburg, R. T., Takkenberg, J. J.M., Noordzij, L. J., Saia, F., van Herwerden, L. A., Serruys, P. W.J.C., Bogers, A. J.J.C.
(2005). Late Outcome After Stenting or Coronary Artery Bypass Surgery for the Treatment of Multivessel Disease: A Single-Center Matched-Propensity Controlled Cohort Study. Ann. Thorac. Surg.
79: 1563-1569
[Abstract][Full Text]
Raja, S. G., Dreyfus, G. D.
(2005). Internal Thoracic Artery: To Skeletonize or Not to Skeletonize?. Ann. Thorac. Surg.
79: 1805-1811
[Abstract][Full Text]
Dangas, G., Ellis, S. G., Shlofmitz, R., Katz, S., Fish, D., Martin, S., Mehran, R., Russell, M. E., Stone, G. W., TAXUS-IV Investigators,
(2005). Outcomes of paclitaxel-eluting stent implantation in patients with stenosis of the left anterior descending coronary artery. J Am Coll Cardiol
45: 1186-1192
[Abstract][Full Text]
Ge, L., Iakovou, I., Sangiorgi, G. M., Chieffo, A., Melzi, G., Cosgrave, J., Montorfano, M., Michev, I., Airoldi, F., Carlino, M., Corvaja, N., Colombo, A.
(2005). Treatment of saphenous vein graft lesions with drug-eluting stents: Immediate and midterm outcome. J Am Coll Cardiol
45: 989-994
[Abstract][Full Text]
Osman, F., Qaisar, S., Pitt, M., Hlatky, M. A., Boothroyd, D. B., Melsop, K. A., Brooks, M. M., Mark, D. B., Pitt, B., Reeder, G. S., Rogers, W. J., Ryan, T. J., Whitlow, P. L., Wiens, R. D.
(2005). Letter Regarding Article by Hlatky et al, "Medical Costs and Quality of Life 10 to 12 Years After Randomization to Angioplasty or Bypass Surgery for Multivessel Coronary Artery Disease" * Response. Circulation
111: e176-e177
[Full Text]
van den Brule, J. M.D., Noyez, L., Verheugt, F. W.A.
(2005). Risk of coronary surgery for hospital and early morbidity and mortality after initially successful percutaneous intervention. ICVTS
4: 96-100
[Abstract][Full Text]
Flaherty, J. D., Davidson, C. J.
(2005). Diabetes and Coronary Revascularization. JAMA
293: 1501-1508
[Abstract][Full Text]
Bainbridge, D., Martin, J., Cheng, D.
(2005). Off Pump Coronary Artery Bypass Graft Surgery Versus Conventional Coronary Artery Bypass Graft Surgery: A Systematic Review of the Literature. SEMIN CARDIOTHORAC VASC ANESTH
9: 105-111
[Abstract]
Mallik, S., Krumholz, H. M., Lin, Z. Q., Kasl, S. V., Mattera, J. A., Roumains, S. A., Vaccarino, V.
(2005). Patients With Depressive Symptoms Have Lower Health Status Benefits After Coronary Artery Bypass Surgery. Circulation
111: 271-277
[Abstract][Full Text]
Devereaux, P J, Bhandari, M., Clarke, M., Montori, V. M, Cook, D. J, Yusuf, S., Sackett, D. L, Cina, C. S, Walter, S D, Haynes, B., Schunemann, H. J, Norman, G. R, Guyatt, G. H
(2005). Need for expertise based randomised controlled trials. BMJ
330: 88-
[Full Text]
A correction has been published: N Engl J Med 1997;336(2):147.
