Does Low Dose Oral Vitamin K Improve International Normalized Ratio (INR) Stability? (OVWAC VII)
|First Received Date ICMJE||October 5, 2009|
|Last Updated Date||May 19, 2015|
|Start Date ICMJE||July 2010|
|Primary Completion Date||April 2014 (Final data collection date for primary outcome measure)|
|Current Primary Outcome Measures ICMJE
||When compared with placebo does the addition of 150 micrograms of daily vitamin K to "usual warfarin therapy" improve anticoagulant control as measured by "time in the therapeutic range"? [ Time Frame: 7 Months ]|
|Original Primary Outcome Measures ICMJE||Same as current|
|Change History||Complete list of historical versions of study NCT00990158 on ClinicalTrials.gov Archive Site|
|Current Secondary Outcome Measures ICMJE
||Does low dose Vitamin K (LDVK) increase the frequency of adverse clinical events, including thromboembolism and major and/or all bleeding? [ Time Frame: 7 Months ]|
|Original Secondary Outcome Measures ICMJE||Same as current|
|Current Other Outcome Measures ICMJE||Not Provided|
|Original Other Outcome Measures ICMJE||Not Provided|
|Brief Title ICMJE||Does Low Dose Oral Vitamin K Improve International Normalized Ratio (INR) Stability?|
|Official Title ICMJE||A Multicentre Study of Low Dose Oral Vitamin K for INR Control in Patients Receiving Warfarin|
|Brief Summary||Warfarin is highly effective for the prevention of both first and recurrent thrombotic events, however even minor excursions outside the reference INR range of 2.0 to 3.0 are associated with bleeding or thrombotic complications. The importance of maintaining the INR within the desired interval has led to the concept of "time in therapeutic range (TTR)" - the total proportion of time that the INR is between 2.0 and 3.0. The investigators propose a multicentre, double blind, randomized trial which will determine if 0.150 mg of oral vitamin K increases time in the therapeutic range for patients receiving warfarin.|
What is/are the principal research objective(s) and question(s) to be addressed? Research Objectives: Our broad objective is to improve the quality of anticoagulant care for patients receiving warfarin. Our specific objective is to determine if we can improve the TTR with LDVK, a non-toxic, inexpensive and easily administered medication.
Hypothesis: We hypothesize that patients receiving vitamin K will have a higher TTR than those receiving placebo. In a mechanistic study we proposed that VKORC1 and CYP2C9 genotype will modulate the impact of vitamin K on INR control.
Efficacy (primary): When compared with placebo does the addition of 150 micrograms of daily vitamin K to "usual warfarin therapy" improve anticoagulant control as measured by "time in the therapeutic range"? Safety (Secondary): Does LDVK increase the frequency of adverse clinical events, including thromboembolism? Does LDVK reduce the risk of major and/or all bleeding? Mechanistic (Hypothesis generating): Do VKORC1 and CYP2C9 genotypes modulate the effect vitamin K on INR stability?
The proposed pilot study is a multi-centre, placebo controlled, randomized trial with an additional pilot mechanistic study (Figure 1 provides a broad outline of the study).
Patients will receive a daily dose of 150 micrograms of vitamin K or a matching placebo medication for a total of 7 months - a one month "run in period" and a 6 month period of follow-up. They will continue to receive warfarin under the supervision of their anticoagulant clinic - other than one study mandated INR within 7 days of enrolment no changes in patient care will be made as a result of participation in this study.
All patients will be enrolled in a mechanistic study. Patients will have blood drawn at the time they provide consent to have their VKORC1 and CYP2C9 genotypes determined.
Allocation of patients into study groups:
Randomization will be achieved using a computer generated random number table. Patients will be stratified based on clinical centre. Practically, a random number table will be produced at the coordinating centre for each clinical centre. The study coordinating centre will package a six week supply of drug and placebo into sequentially numbered, identical drug containers based on the randomization sequence for each site. The drug packages will then be shipped to each centre. After consent is obtained, and the coordinating centre is notified, patients will be allocated to treatment by dispensing sequential drug containers in numeric sequence. Additional supplies (for a total of seven months of therapy for each patient) will be dispensed by the anticoagulant clinic in blocks of 6 weeks. This method of allocation ensures research subjects and study staff are masked to allocation as drug and placebo are identical. Masked allocation will be further protected by not providing an unblinding schedule for centres as we can foresee no circumstance in which immediate unblinding would be required.
Frequency and duration of trial follow-up:
Patients will have their INR checked at a minimum of 1 week after initiation of study drug and then will be followed as per their anticoagulant clinic routine. We will not mandate any particular frequency of INR testing as changing clinic routines will induce unwanted changes in INR control is a co-intervention that could influence TTR and that is not attributable to the study intervention. Clinical events will be reviewed, as per current clinic routine, at each INR check. If clinical events are reported source documentation will be sought for the purposes of adjudication. Our research group has extensive prior experience with collection and interpretation of INR values, and of the ascertainment, collection and reporting of clinical events in anticoagulated patients.
Primary and secondary outcome measures:
The primary outcome is a simple comparison of mean TTRs in the LDVK and placebo patients. As noted, calculation of the TTR will begin at the first INR obtained a minimum of 4 weeks after randomization and will end 7 months after enrolment. The TTR will be calculated using a previously validated computer algorithm, based on the method of Rosendaal et al (7). Secondary outcome measures will include (a) all significant INR excursion (INR < 1.5 or > 4.5), (b) number of INR determinations and (c) bleeding and thrombotic events of sufficient severity to require a medical intervention - where possible source documents from hospital admissions will be obtained to allow characterization of these events. Major bleeding will be defined as bleeding consistent with the 8th ACCP guidelines (36). All bleeding and thrombotic events will be independently adjudicated by a panel of experts based on submitted source documentation.
Plan for ascertaining outcome measures at follow-up:
INR values are obtained routinely as part of warfarin care. All INR determinations will be performed in clinical laboratories that participate in provincially mandated external quality assessment exercises to ensure quality. INR values and current warfarin dose will be reported to the coordinating centre using the online data entry and reporting system. Clinical events will be measured as per the "Primary and secondary outcome measures" section.
Will health services research issues be addressed within this trial? As a pilot study we do not feel that a valid health services research question can be posed in the context of this study. We do propose a simple cost effectiveness analysis which will examine the estimated total costs of participation in the study - for this analysis we will compare the number and type of medical interventions (and their costs) in the two arms of the study. Costs will be determined from validated Ontario costing data for INR tests, clinical visits and monitoring costs as well as any estimated costs attributable to clinic events, should these occur. Funding for this analysis will be sought from different sources, however we will ensure that the data required to complete this analysis will be collected within the context of this study.
Trial sample size and justification for the assumptions underlying the power calculations:
As a pilot study of a novel intervention we do not have estimates of the improvement of the TTR we expect to see with LDVK. As such the proposed sample size of 400 patients (200 per arm) is one of convenience however the study is powered to detect probable changes in TTR. Thus, we have an 85% likelihood of detecting a 15% increase in TTR assuming a TTR of 55% in the placebo arm (two sided alpha = 0.05, comparison of proportions, Fleiss correction) (37). A table of conditional powers is presented in Table 2. In subsequent studies (if justified, based on the results of this study) we will power based on the rates of clinical events. One prior paper has examined increases in TTR with vitamin K administration; the increase in TTR in this study was 28%, thus we are reassured by our ability to reliably detect a 15% difference in TTR (17).
|Study Type ICMJE||Interventional|
|Study Phase||Phase 3|
|Study Design ICMJE||Allocation: Randomized
Intervention Model: Parallel Assignment
Masking: Quadruple (Participant, Care Provider, Investigator, Outcomes Assessor)
Primary Purpose: Treatment
* Includes publications given by the data provider as well as publications identified by ClinicalTrials.gov Identifier (NCT Number) in Medline.
|Recruitment Status ICMJE||Completed|
|Completion Date||April 2014|
|Primary Completion Date||April 2014 (Final data collection date for primary outcome measure)|
|Eligibility Criteria ICMJE||
|Ages||18 Years and older (Adult, Senior)|
|Accepts Healthy Volunteers||No|
|Contacts ICMJE||Contact information is only displayed when the study is recruiting subjects|
|Listed Location Countries ICMJE||Canada|
|Removed Location Countries|
|NCT Number ICMJE||NCT00990158|
|Other Study ID Numbers ICMJE||NA 6695|
|Has Data Monitoring Committee||No|
|U.S. FDA-regulated Product||Not Provided|
|IPD Sharing Statement||Not Provided|
|Responsible Party||Mark Crowther, St. Joseph's Healthcare Hamilton|
|Study Sponsor ICMJE||St. Joseph's Healthcare Hamilton|
|PRS Account||St. Joseph's Healthcare Hamilton|
|Verification Date||December 2013|
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