Safety and Efficacy Study Comparing 3 New Types of Coronary Stents
Primary Purpose
Coronary Artery Disease, Coronary Thrombosis
Status
Completed
Phase
Phase 4
Locations
International
Study Type
Interventional
Intervention
Everolimus-eluting stent
Bare-metal stent
Biodegradable Polymer-DES
Sponsored by
About this trial
This is an interventional treatment trial for Coronary Artery Disease focused on measuring coronary artery disease, drug-eluting stent, anti-thrombotic therapy, bare-metal stent, long-term outcome
Eligibility Criteria
Inclusion Criteria:
- written informed concent
- need for large (≥3.0 mm stents only) native vessel stenting
Exclusion Criteria:
- in-Stent Restenosis or in-Stent Thrombosis
- bypass graft disease to be stented
- main stem disease to be stented
- cardiogenic shock by clinical assessment (signs of organ hypoperfusion)
- planned surgery within the next 12 months
- oral anticoagulation needed (artificial heart valves,atrial fibrillation) or chronic haemorrhagic diathesis
- active bleeding disorders
- index-PCI = planned PCI of additional lesion
- no follow-up (FU) expected/possible
- History of stroke or TIA (contraindication for prasugrel)
- known severe hypersensitivity reaction to ASS and/or Prasugrel
- no compliance expected / no informed consent given
- enrolled in another study
Sites / Locations
- Universitätsklinikum
- Gentofte Hospital
- Elisabethen Krankenhaus
- Kantonsspital
- University Hospital
- Kantonsspital
- Cardiocentro
- Stadtspital Triemli
Arms of the Study
Arm 1
Arm 2
Arm 3
Arm Type
Active Comparator
Active Comparator
Experimental
Arm Label
Everolimus-eluting stent
Bare-metal stent
Biodegradable Polymer-DES
Arm Description
A Xience Prime stent (Everolimus-eluting stent) is implanted in significant coronary lesions.
Implantation of a bare-metal stent
Implantation of a Biodegradable Polymer-DES
Outcomes
Primary Outcome Measures
MACE (composite endpoint including cardiac death, myocardial infarction (MI) and target-vessel revascularization (TVR)
Secondary Outcome Measures
Cardiac death
Myocardial infarction (MI)
Any MI
Non-fatal MI
Target vessel revascularization (TVR)
Any TVR
Non-MI related TVR
Composite safety endpoint of cardiac death and non-fatal MI
Stent thrombosis according to ARC definitions
Definite
Definite or probable
Definite, probable or possible
Major bleeding including fatal bleeding, i.e., BARC >=3
All cause death
Net clinical benefit = Primary endpoint plus major bleeding
Full Information
NCT ID
NCT01166685
First Posted
July 19, 2010
Last Updated
June 4, 2014
Sponsor
University Hospital, Basel, Switzerland
1. Study Identification
Unique Protocol Identification Number
NCT01166685
Brief Title
Safety and Efficacy Study Comparing 3 New Types of Coronary Stents
Official Title
Evaluation of Late Clinical Events After Drug-eluting Versus Bare-metal Stents in Patients at Risk: BAsel Stent Kosten Effektivitäts Trial - PROspective Validation Examination Part II (BASKET-PROVE II)
Study Type
Interventional
2. Study Status
Record Verification Date
June 2014
Overall Recruitment Status
Completed
Study Start Date
April 2010 (undefined)
Primary Completion Date
May 2014 (Actual)
Study Completion Date
May 2014 (Actual)
3. Sponsor/Collaborators
Responsible Party, by Official Title
Sponsor
Name of the Sponsor
University Hospital, Basel, Switzerland
4. Oversight
Data Monitoring Committee
Yes
5. Study Description
Brief Summary
Background:
Retrospective analyses of long-term BASKET findings identified patients with large drug-eluting stents (DES) (>2.5mm Stents) as patients at risk for late cardiac death/nonfatal myocardial infarction. In view of new DES with absorbable polymers and new bare metal stents BMS) with thin struts and biocompatible polymers, BP-II will be launched to test their comparative clinical safety up to 12 years if treated with an aspirin/prasugrel combination, since prasugrel halved stent thrombosis rates compared to clopidogrel in a large ACS trial.
The primary objective is to demonstrate non-inferiority of the Nobori DES stent compared to the Xience Prime DES stent on safety and e cacy in patients requiring stents >=3.0mm in diameter on the background of contemporary dual antiplatelet therapy (DAPT) with prasugrel and aspirin
Set-up:
Multicenter open-label randomized trial.
Patient inclusion:
Unselected series of patients in need of large (>3mm) stents only in native vessels irrespective of clinical indication.
Patient exclusion:
In-stent restenosis, Left-main disease, cardiogenic shock, planned surgery <12months, increased bleeding risk, no compliance expected, History of stroke or transient ischemic attack (TIA).
Randomization:
By centre using sealed envelopes 1:1:1: Nobori:Xience Prime:Prokinetik-stent.
Detailed Description
Background and Study Design
The study is a multicentre, prospective, randomized, open-label trial comparing safety and efficacy of the Nobori® drug-eluting stent (DES), the Xience Prime® DES, and the ProKinetic® bare-metal stent (BMS) in patients at low risk of restenosis, i.e. receiving stents >=3.0mm diameter only, on the background of contemporary antiplatelet therapy.
2289 patients were recruited at 8 centres in 5 countries and randomized 2:1 to DES or BMS, and 1:1 to either DES subgroup. Randomization was stratified according to centre.
Analysis Datasets
The full analysis set (FAS) will include all randomized patients of whom written informed consent was obtained. Patients needing an urgent PCI were asked for oral consent prior to the percutaneous coronary intervention (PCI) and for written informed consent afterwards. This means that some randomized patients gave oral but not written informed consent. Patients who gave oral informed consent and died before written informed consent could be obtained will be included in the FAS. All other patients without signed informed consent will be excluded regardless of oral informed consent. In accordance with the intention-to-treat principle all patients will be analysed according to the allocated treatment group.
The per-protocol set (PPS) will include only those patients from the FAS who did not have one of the following major protocol violations:
inclusion criteria not met
exclusion criteria met
procedures performed that were not approved by Institutional Review Board (IRB)/Ethics Committee (EC)
no study stent (Nobori,Xience Prime or ProKinetic) received
only stents < 3mm in nominal size, provided that the maximum vessel size measured during the procedure was <2.75mm
undergoing multiple step procedure with a different stent received than randomised for the second or subsequent step.
Inclusion of patients older than 75 years was not approved by the local ethics committee of the Canton St.Gallen, Switzerland, and consequently, age > 75 years was added to the exclusion criteria for the center Cantonal Hospital St. Gallen. Patients who did not receive the randomly allocated stent, but another study stent according to the study protocol, will be included and analysed according to the stent received (per protocol analysis).
Demographic and Baseline Characteristics
Demographic and baseline data will be presented for each treatment arm using the FAS. Continuous variables will be presented as mean, standard deviation, median, 1st and 3rd quartile. Categorical variables will be presented as frequencies and percentages. Comparisons of continuous data will be done using a non-parametric Kruskal-Wallis rank sum test. Comparisons of categorical data will be done using a chi-squared test if the expected number of observations in each cell exceeds 5 - otherwise Fisher's exact test will be applied.
Primary Objective
The primary objective is to demonstrate non-inferiority of the Nobori DES stent compared to the Xience Prime DES stent on safety and efficacy in patients requiring stents >=3.0mm in diameter on the background of contemporary dual antiplatelet therapy (DAPT) with prasugrel and aspirin.
Primary Endpoint
The primary endpoint is the time to the first major adverse cardiac event (MACE) observed within 24 months. MACE is a composite endpoint including cardiac death, myocardial infarction (MI) and target-vessel revascularization (TVR).
Statistical Hypothesis, Model and Method of Analysis
Statistical Hypothesis
The statistical null-hypothesis is that Nobori DES is inferior to Xience Prime DES regarding the MACE rate (pi) at 24 months when using a prespecified non-inferiority margin (delta), in terms of absolute risk difference:
H0 : pi_Nobori - pi_XiencePrime >= delta
The alternate hypothesis is that the e ect of Nobori DES is non-inferior to Xience Prime DES using the same non-inferiority margin as above.
alternate hypothesis (HA) : pi_Nobori - pi_XiencePrime < delta
We will use a non-inferiority margin of 3.8 % absolute risk difference. The sample size calculation was based on delta = 3.8 %, assuming a MACE rate in the Xience Prime arm of 7.6 %, as observed in the BASKET-PROVE (BP) trial, for both DES (Kaiser et al., 2010). The stated non-inferiority margin considers a 50 % relative excess of events or more in the Nobori DES arm as inferior. This threshold is similar to that of the LEADERS trial (Windecker et al., 2008).
Statistical Model and Method of Analysis
The absolute risk difference of MACE at 24 months between the Nobori DES and the Xience Prime DES will be compared to the non-inferiority margin, using a two-sided 95 % confidence interval (CI) applying a continuity-corrected modification of the Wilson's score method (Newcombe, 1998). Non-inferiority will be declared if the upper limit of the 95 % CI of the absolute risk difference does not exceed delta. The probability of MACE within 24 months will be calculated and graphically visualized using the Kaplan-Meier estimator.
We will estimate the hazard ratio of the Nobori DES versus the Xience Prime DES using Cox proportional hazards (PH) survival analysis, allowing to test for superiority if non-inferiority can be established. The model will contain the factor "stent type" (Nobori DES vs. Xience Prime DES) and be stratified according to the variable "centre". Hazard ratios will be presented with the corresponding 95 % CI.
The proportional hazards assumption will be assessed in two steps: 1) Visually through log-log curves and 2) Testing Schoenfeld's residuals for time-dependency. In case of non-proportional hazards a time-independent logistic regression model will be used to analyze the incidence of the primary endpoint within 24 months as binary variable.
An additional landmark analysis will be performed for the time-intervals 0-12 months and 12-24 months. We will t a time-strati ed Cox PH model, including an interaction term between the factor "stent type" and time-interval (0-12 vs. 12-24 months). The interaction term will be compared to the null hypothesis of no-interaction using a log-likelihood ratio test.
The analyses are performed on the PPS (but see sensitivity analyses). All tests will have a two-sided significance level, alpha, of 0.05.
Handling of Data and Missing Values
Data will be analysed for potential extreme outliers. If present, each outlier will be investigated. However, outliers will be included in the analysis, except if a clinical cause can be excluded. There will be no missing values for the primary endpoint since losses to follow-up can be incorporated in the Cox proportional hazards models by censoring the time observed at the last follow-up/last contact date (right censoring).
Sensitivity Analyses
S1: All analyses will be repeated for the FAS. It is important to note that for non-inferiority analyses, estimates from intention-to-treat analyses are less conservative, i.e., more likely to establish non-inferiority than those from per-protocol analyses, since differences may be blurred by including patients with major protocol violations.
S2: In the Cox PH model described for the primary endpoint, we will test for an interaction between "stent type" and "centre" using a log-likelihood ratio test. A significant interaction means differences in treatment-effect across centres. This will determine whether the treatment-effect was homogeneous, which is important for the interpretation of results.
S3: In case of non-proportional hazards, time-independent analyses using logistic regression will be performed for the prespecified time-periods 0-12 months and 0-24 months.
Subgroup Analyses
We will investigate the effect of Nobori DES versus Xience Prime DES across the following prespecified subgroups:
Diabetes (yes vs. no).
Acute coronary syndrome (ACS, ACS vs. stable coronary artery disease).
Stent length per segment.
At least one stent <3.0mm received (yes vs. no).
More than one stented segment (yes vs. no).
Prior myocardial infarction (yes vs. no).
Smoking current (yes vs. no).
Gender (female vs. male)
Interaction terms between the factor "stent type" and each of the above factors will be included in the Cox regression model, together with the main effects of "stent type" and the respective factor, and compared to the null hypothesis of no-interaction using a log-likelihood ratio test. A significant interaction means that the effect of treatment differs between subgroups.
Secondary Objectives
A1: To demonstrate superiority of the Nobori DES over the ProKinetic BMS in terms of MACE within 24 months. This comparison will also act as an internal control for the non-inferiority analysis (primary objective), with the ProKinetic BMS as a putative placebo.
A2: To compare the Nobori DES to the ProKinetic BMS, and the Nobori DES to the Xience Prime DES in terms of late harm (cardiac death, MI and stent thrombosis from month 12-24).
B: To compare the Nobori DES to the Xience Prime DES, and the Nobori DES to the ProKinetic BMS in terms of additional secondary endpoints.
C: To investigate the safety - or possible harm - of DAPT with prasugrel and aspirin in patients with stable coronary artery disease (CAD) versus acute coronary syndromes (ACS) regarding bleeding events.
D: To assess the effect of DAPT with aspirin plus prasugrel versus aspirin plus clopidogrel as used in a historical comparator cohort with BASKET-PROVE (BP).
Secondary Endpoints
Components of the primary endpoint.
Cardiac death
Myocardial infarction (MI)
Any MI
Non-fatal MI
Target vessel revascularization (TVR)
Any TVR
Non-MI related TVR
Composite safety endpoint of cardiac death and non-fatal MI.
Stent thrombosis according to ARC definitions.
Definite
Definite or probable
Definite, probable or possible
Major bleeding including fatal bleeding, i.e., BARC >=3.
All cause death.
Net clinical benefit = Primary endpoint plus major bleeding.
Statistical Hypothesis, Model and Method of Analysis
[A1] Nobori DES versus ProKinetic BMS: MACE within 24 months
The statistical null hypothesis is that there is no difference between Nobori DES and ProKinetic BMS in terms of MACE. The Cox PH model described for the primary end-point which includes the factor "stent type" now compares Nobori DES to ProKinetic BMS. In case of non-proportional hazards a logistic regression model will be used to analyze the incidence of MACE within 24 months.
[A2] Nobori DES versus ProKinetic BMS, and Nobori DES versus Xience Prime DES: Late harm
The statistical null hypothesis is that there is no difference between Nobori DES and Prokinetic BMS, and no difference between Nobori DES versus Xience Prime DES in terms of late harm. We will use a Cox PH model, landmark analysis and a time-strati ed Cox PH model (for the time-intervals 0-12 months and 12-24 months), as described in for the primary objective, for the endpoints cardiac death, non-fatal MI and stent thrombosis. Assessment of the proportional hazards assumption will be performed in accordance to the method described for the primary endpoint. In case of non-proportional hazards, logistic regression models will be used to analyze the incidence of events.
[B] Nobori DES versus ProKinetic BMS, and Nobori DES versus Xience Prime DES: Other secondary endpoints
The statistical null hypothesis is that there is no difference between Nobori DES and ProKinetic BMS, and Nobori DES and Xience Prime DES in terms of secondary endpoints. All secondary endpoints 1-6 will be analysed using Cox PH models including the factor "stent type" and strati ed according to "centre" for events within 24 months - as specified for the primary endpoint. Assessment of the proportional hazards assumption will be performed in accordance to the method described for the primary endpoint. In case of non-proportional hazards, logistic regression models will be used to analyze the incidence of events. Landmark analyses at 0-12 and 12-4 months will be performed. Absolute probabilities of the event of interest will be calculated and graphically visualized using the Kaplan-Meier estimator. Subgroup analyses as specified for the primary endpoint will be performed for all secondary endpoints.
[C] Safety of DAPT with prasugrel and aspirin in patients with stable CAD regarding bleeding events
For this analysis we will generate four subgroups based on stent type (DES vs. BMS) and indication: 1) DES+Stable CAD, 2) DES+ACS, 3) BMS+Stable CAD, and 4) BMS+ACS. The endpoints major bleeding (BARC >=3), MACE (including its components), and stent thrombosis (see definitions in Section 5.1) will be analysed using Kaplan-Meier curves and a Cox PH model including the above groups as the 4-level factor "indication-by-stent type" and the stratifying factor "centre". Thereby, we will make the following comparisons: a) DES-ACS vs. DES-stable CAD, b) BMS-ACS vs. BMS-stable CAD, and c) DES-stable CAD vs. BMS-stable CAD. In case of non-proportional hazards, the survival analysis will be complemented by a time-independent logistic regression analysis on major bleeding events at 24 months as well as at a cut-o point of 12 months.
[D] Comparison between BP II and BP regarding DAPT with prasugrel plus aspirin versus clopidogrel plus aspirin
Two separate comparisons between trials will be made in terms of major bleeding events (BARC >=3), MACE (including its components), and stent thrombosis (see definitions in Section 5.1), using the FAS from both trials (BP: as presented in Kaiser et al. (2010)):
Comparison 1
DAPT (12 months duration) with prasugrel and aspirin in DES patients (BP II) versus DAPT (12 months duration) with clopidogrel and aspirin in DES patients (BP).
The statistical null-hypothesis is that there are no differences in rates of major bleeding events between DAPT treatment with prasugrel plus aspirin (as in BP II) versus clopidogrel plus aspirin (as in BP) in patients treated with DES. The endpoint major bleeding (BARC >=3) will be compared between all DES patients in BP II and all DES patients in
BP using a Cox PH model. Because patient populations come from two different trials rather than from one single randomised trial, a propensity score weighted analysis will be used to balance the data for confounding effects. The predictors for the calculation of propensity scores will include potential confounders, i.e., variables that may affect the treatment (DAPT as determined by trial) as well as the outcome (occurrence of bleeding events) such as: age, sex, body weight, renal function, hypertension, diabetes, prior MI, etc. We will use inverse probability weighting (Hernan & Robins, 2006) to estimate the e ect of "DAPT" on the hazard of bleeding. The Cox PH model will include "DAPT" (prasugrel vs. clopidogrel) and "indication" (stable CAD vs. ACS) as predictors. In addition, the model will include the interaction between "DAPT" and "indication", to test whether the difference due to type of DAPT depends on indication. Hazard ratios along with corresponding 95 % CI will be presented. If the two DES in BP II (Nobori and Xience Prime) should differ with regard to bleeding events, MACE and stent thrombosis, we will also include "stent type" as predictor (Cypher and Xience in BP were very similar).
Comparison 2
DAPT with prasugrel and aspirin (1 month duration) (BP II) versus DAPT with clopidogrel and aspirin (12 months duration) (BP) in stable CAD patients with BMS.
The statistical null-hypothesis is that there are no differences in rates of major bleeding events between DAPT treatment with prasugrel plus aspirin (as in BP II) versus clopidogrel plus aspirin (as in BP) in stable CAD patients treated with BMS. The endpoint major bleeding (BARC >=3) will be compared between stable CAD patients with BMS from BP II and stable CAD patients with BMS from BP using a Cox PH model. As for comparison 1 a propensity score weighted analysis will be performed, and an inverse probability weighting used to estimate the effect of "DAPT" on the hazard of bleeding. Hazard ratios along with corresponding 95 % CI will be presented.
General
In case of non-proportional hazards, the survival analysis will be complemented by a time-independent logistic regression analysis on bleeding events at 12 and 24 months, estimating odds ratios instead of hazard ratios.
5.3 Handling of Data and Missing Values
Data will be analysed for potential extreme outliers. If present, each outlier will be investigated. However, outliers will be included in the analysis, except if a clinical cause can be excluded. In case of missing values for secondary endpoints, all available values will be used and no imputation of missing values will be performed.
References
Hernan, M. A. & Robins, J. M. 2006: Estimating causal e ects from epidemiological data. J Epidemiol Community Health 60:578-586.
Kaiser, C.; Galatius, S.; Erne, P.; Eberli, F.; Alber, H.; Rickli, H.; Pedrazzini, G.; Hornig, B.; Bertel, O.; Bonetti, P.; De Servi, S.; Brunner-La Rocca, H.-P.; Ricard, I. & Pfisterer, M. 2010: Drug-eluting versus bare-metal stents in large coronary arteries. New England Journal of Medicine 363:2310-2319.
Newcombe, R. G. 1998: Interval estimation for the difference between independent pro-portions: Comparison of eleven methods. Statistics in Medicine 17:873-890.
Windecker, S.; Serruys, P. W.; Wandel, S.; Buszman, P.; Trznadel, S.; Linke, A.; Lenk, K.; Ischinger, T.; Klauss, V.; Eberli, F. et al. 2008: Biolimus-eluting stent with biodegrad-able polymer versus sirolimus-eluting stent with durable polymer for coronary revascularisation (leaders): a randomised non-inferiority trial. The Lancet 372(9644):1163-1173.
Clinical Relevance:
The results of BPII will provide evidence for the performance of the newest-generation stents on the market in daily practice and insights about the efficacy and safety of current stent designs in an all-comer population. Moreover, BPII will assess the performance of DAPT with aspirin and prasugrel compared with aspirin plus clopidogrel in terms of ischemic and bleeding endpoints. - Thus, these findings should have major impact on the current use of coronary stents, medical antiplatelet therapy regimes and our understanding of possible reasons for late stent thrombosis.
6. Conditions and Keywords
Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Coronary Artery Disease, Coronary Thrombosis
Keywords
coronary artery disease, drug-eluting stent, anti-thrombotic therapy, bare-metal stent, long-term outcome
7. Study Design
Primary Purpose
Treatment
Study Phase
Phase 4
Interventional Study Model
Parallel Assignment
Masking
None (Open Label)
Allocation
Randomized
Enrollment
2291 (Actual)
8. Arms, Groups, and Interventions
Arm Title
Everolimus-eluting stent
Arm Type
Active Comparator
Arm Description
A Xience Prime stent (Everolimus-eluting stent) is implanted in significant coronary lesions.
Arm Title
Bare-metal stent
Arm Type
Active Comparator
Arm Description
Implantation of a bare-metal stent
Arm Title
Biodegradable Polymer-DES
Arm Type
Experimental
Arm Description
Implantation of a Biodegradable Polymer-DES
Intervention Type
Device
Intervention Name(s)
Everolimus-eluting stent
Other Intervention Name(s)
Xience-Prime stent
Intervention Description
Everolimus-eluting stent
Intervention Type
Device
Intervention Name(s)
Bare-metal stent
Other Intervention Name(s)
ProKinetik
Intervention Description
Bare metal stent
Intervention Type
Device
Intervention Name(s)
Biodegradable Polymer-DES
Other Intervention Name(s)
Nobori stent
Intervention Description
drug-eluting stent with bioabsorbable polymer
Primary Outcome Measure Information:
Title
MACE (composite endpoint including cardiac death, myocardial infarction (MI) and target-vessel revascularization (TVR)
Time Frame
2 years
Secondary Outcome Measure Information:
Title
Cardiac death
Time Frame
2 years
Title
Myocardial infarction (MI)
Description
Any MI
Non-fatal MI
Time Frame
2 years
Title
Target vessel revascularization (TVR)
Description
Any TVR
Non-MI related TVR
Time Frame
2 years
Title
Composite safety endpoint of cardiac death and non-fatal MI
Time Frame
2 years
Title
Stent thrombosis according to ARC definitions
Description
Definite
Definite or probable
Definite, probable or possible
Time Frame
2 years
Title
Major bleeding including fatal bleeding, i.e., BARC >=3
Time Frame
2 years
Title
All cause death
Time Frame
2 years
Title
Net clinical benefit = Primary endpoint plus major bleeding
Time Frame
2 years
10. Eligibility
Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria:
written informed concent
need for large (≥3.0 mm stents only) native vessel stenting
Exclusion Criteria:
in-Stent Restenosis or in-Stent Thrombosis
bypass graft disease to be stented
main stem disease to be stented
cardiogenic shock by clinical assessment (signs of organ hypoperfusion)
planned surgery within the next 12 months
oral anticoagulation needed (artificial heart valves,atrial fibrillation) or chronic haemorrhagic diathesis
active bleeding disorders
index-PCI = planned PCI of additional lesion
no follow-up (FU) expected/possible
History of stroke or TIA (contraindication for prasugrel)
known severe hypersensitivity reaction to ASS and/or Prasugrel
no compliance expected / no informed consent given
enrolled in another study
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Christoph A Kaiser, Prof. MD
Organizational Affiliation
University Hospital Basel Cardiology
Official's Role
Study Chair
Facility Information:
Facility Name
Universitätsklinikum
City
Innsbruck
ZIP/Postal Code
6020
Country
Austria
Facility Name
Gentofte Hospital
City
Hellerup
ZIP/Postal Code
2900
Country
Denmark
Facility Name
Elisabethen Krankenhaus
City
Essen
State/Province
NRW
ZIP/Postal Code
45138
Country
Germany
Facility Name
Kantonsspital
City
Aarau
State/Province
AG
ZIP/Postal Code
5000
Country
Switzerland
Facility Name
University Hospital
City
Basel
State/Province
BS
ZIP/Postal Code
4055
Country
Switzerland
Facility Name
Kantonsspital
City
St. Gallen
State/Province
SG
Country
Switzerland
Facility Name
Cardiocentro
City
Lugano
State/Province
TI
ZIP/Postal Code
6903
Country
Switzerland
Facility Name
Stadtspital Triemli
City
Zürich
State/Province
ZH
ZIP/Postal Code
8063
Country
Switzerland
12. IPD Sharing Statement
Citations:
Citation
Pfisterer M, Brunner-La Rocca HP, Rickenbacher P, Hunziker P, Mueller C, Nietlispach F, Leibundgut G, Bader F, Kaiser C; BASKET. Long-term benefit-risk balance of drug-eluting vs. bare-metal stents in daily practice: does stent diameter matter? Three-year follow-up of BASKET. Eur Heart J. 2009 Jan;30(1):16-24. Epub 2008 Nov 25. PMID: 19033260 Pfisterer M, Bertel O, Bonetti PO, Brunner-La Rocca HP, Eberli FR, Erne P, Galatius S, Hornig B, Kiowski W, Pachinger O, Pedrazzini G, Rickli H, De Servi S, Kaiser C; BASKET-PROVE Investigators. Drug-eluting or bare-metal stents for large coronary vessel stenting? The BASKET-PROVE (PROspective Validation Examination) trial: study protocol and design. Am Heart J. 2008 Apr;155(4):609-14. Epub 2008 Feb 21. PMID: 18371466 Brunner-La Rocca HP, Kaiser C, Pfisterer M; BASKET Investigators. Targeted stent use in clinical practice based on evidence from the Basel Stent Cost Effectiveness Trial (BASKET). Eur Heart J. 2007 Mar;28(6):719-25. Epub 2007 Feb 13. PMID: 17298975
Results Reference
background
PubMed Identifier
25411159
Citation
Kaiser C, Galatius S, Jeger R, Gilgen N, Skov Jensen J, Naber C, Alber H, Wanitschek M, Eberli F, Kurz DJ, Pedrazzini G, Moccetti T, Rickli H, Weilenmann D, Vuillomenet A, Steiner M, Von Felten S, Vogt DR, Wadt Hansen K, Rickenbacher P, Conen D, Muller C, Buser P, Hoffmann A, Pfisterer M; BASKET-PROVE II study group. Long-term efficacy and safety of biodegradable-polymer biolimus-eluting stents: main results of the Basel Stent Kosten-Effektivitats Trial-PROspective Validation Examination II (BASKET-PROVE II), a randomized, controlled noninferiority 2-year outcome trial. Circulation. 2015 Jan 6;131(1):74-81. doi: 10.1161/CIRCULATIONAHA.114.013520. Epub 2014 Nov 19.
Results Reference
derived
PubMed Identifier
22305828
Citation
Jeger R, Pfisterer M, Alber H, Eberli F, Galatius S, Naber C, Pedrazzini G, Rickli H, Jensen JS, Vuilliomenet A, Gilgen N, Kaiser C. Newest-generation drug-eluting and bare-metal stents combined with prasugrel-based antiplatelet therapy in large coronary arteries: the BAsel Stent Kosten Effektivitats Trial PROspective Validation Examination part II (BASKET-PROVE II) trial design. Am Heart J. 2012 Feb;163(2):136-41.e1. doi: 10.1016/j.ahj.2011.08.023.
Results Reference
derived
Learn more about this trial
Safety and Efficacy Study Comparing 3 New Types of Coronary Stents
We'll reach out to this number within 24 hrs