The NORDSTEN Study - Degenerative Spondylolisthesis (NORDSTEN/DS)
The safety and scientific validity of this study is the responsibility of the study sponsor and investigators. Listing a study does not mean it has been evaluated by the U.S. Federal Government. Read our disclaimer for details. |
ClinicalTrials.gov Identifier: NCT02051374 |
Recruitment Status :
Active, not recruiting
First Posted : January 31, 2014
Last Update Posted : March 8, 2023
|
Tracking Information | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|
First Submitted Date ICMJE | January 10, 2014 | |||||||||
First Posted Date ICMJE | January 31, 2014 | |||||||||
Last Update Posted Date | March 8, 2023 | |||||||||
Actual Study Start Date ICMJE | February 2014 | |||||||||
Actual Primary Completion Date | February 10, 2023 (Final data collection date for primary outcome measure) | |||||||||
Current Primary Outcome Measures ICMJE |
The Oswestry Disability Index [ Time Frame: Prior to operation and 3 months, 1 year, 2 years, 5 years and 10 years postoperatively. ] The Oswestry Disability Index (ODI) version 2.0 will be used as primary outcome measure. ODI is widely used by physicians treating patients with back-related symptoms and has been translated and validated for applications with Norwegian patients. It is a self-reported instrument comprising 10 sections where the patient is supposed to mark the most appropriate item. ODI scores range from 0 to 100, where 100 is the greatest impairment.
The percentage change in ODI from baseline to follow- up will be computed. An individual cutoff value of 30% ODI- improvement will be used to dichotomize the patients in a success group and in a non- success group. This threshold value is estimated based on data from patients registered in the Norwegian registry for Spine Surgery The change in ODI from before operation to follow up will also be computed and reported as means.
|
|||||||||
Original Primary Outcome Measures ICMJE |
The Oswestry Disability Index [ Time Frame: Prior to operation and 3 months, 1 year, 2 years, 5 years and 10 years postoperatively. ] The Oswestry Disability Index (ODI) version 2.0 will be used as primary outcome measure. ODI is widely used by physicians treating patients with back-related symptoms and has been translated and validated for applications with Norwegian patients. It is a self-reported instrument comprising 10 sections where the patient is supposed to mark the most appropriate item. ODI scores range from 0 to 100, where 100 is the greatest impairment.
The change in ODI from baseline to follow- up will be computed. An individual cutoff value for ODI- improvement will be used to dichotomize the patients in a success group and in a non- success group. This threshold value is planned to be estimated based on data from patients registered in the Norwegian registry for Spine Surgery The change in ODI from before operation to follow up will also be computed and reported as means.
|
|||||||||
Change History | ||||||||||
Current Secondary Outcome Measures ICMJE |
|
|||||||||
Original Secondary Outcome Measures ICMJE |
|
|||||||||
Current Other Pre-specified Outcome Measures |
Radiological findings [ Time Frame: MRI: Prior to operation. Skeletal x-rays:Prior to operation, at 3 month follow- up and at 2 year follow- up. CT scan: At 2 year follow- up. ] Radiological parameters will be reported, but not evaluated as outcomes parameters:
|
|||||||||
Original Other Pre-specified Outcome Measures |
Radiological findings [ Time Frame: MRI and X-rays: Prior to operation. CT scan: At 2 years follow- up ] The following radiological procedures will be performed:
|
|||||||||
Descriptive Information | ||||||||||
Brief Title ICMJE | The NORDSTEN Study - Degenerative Spondylolisthesis | |||||||||
Official Title ICMJE | Degenerative Lumbar Spondylolisthesis: Is Only Decompression Good Enough? A Prospective Randomized Clinical Multi- Institutional Trial | |||||||||
Brief Summary | Lumbar Degenerative Spondylolisthesis (LDS) is a slippage of one vertebra over another caused by degeneration of facet joints, ligaments and intervertebral discs. Most patients suffer from symptoms related to spinal stenosis, such as radiating pain to the lower extremities, and typically increased pain in the lower limbs when walking upright and decreased when bending forward. There is a moderate grade of evidence for whether patients will achieve better outcome after surgery when decompression is followed by fusion. In theory, fusion following decompression should give more stability to the operated level, thus less pain and less progression of the olisthesis. On the other hand, fusion procedures, in general, are associated with more severe complications and postoperative mortality than decompression alone. In summary, there is still insufficient evidence for performing fusion in addition to decompression for patients with LDS. The investigators are planning a trial where the main aim is to detect whether the intervention-related difference in outcome between decompression alone (DA) and decompression followed by fusion with instrumentation (DF) is large enough to justify the use of the fusion procedure. The proposed trial is a randomized, controlled, multicentre, non- inferiority trial with two parallel groups, with 15 participating Norwegian hospitals. The main analysis will be performed 2 years after surgery with long-term follow-up planned at 5 and 10 years postoperatively. |
|||||||||
Detailed Description | Purpose: The aim of the study is to compare the efficacy of two principally different surgical methods for treating LDS and to investigate whether predictors will be associated with an intervention-related difference in outcome between the two groups. Methods: The Oswestry Disability Index (ODI) will be used as primary outcome measure in analyses at 2 year, 5 year and 10 year follow-up. Depending on whether the participants obtain a 30% or more ODI- improvement from before operation to follow-up, they will be dichotomized in a success group (responders) and in a non-success group (non- responders). The primary question is whether the proportion of patients with successful outcome in the DA group is not markedly less than in the DF group, at 2 years, 5 years and 10 years, respectively. Investigators have predefined the margin of "markedly less" to be δ = 0.15 (15%) which is consistent with the between- group difference Blumenthal et al used in the power analysis in a similar Food and Drug Administration- regulated non- inferiority RCT. With this margin it will be necessary to treat 6.7 patients with fusion in addition to decompression in order to obtain one patient with successful outcome. The null hypothesis is that the proportion of patients with a successful outcome in the DF group (nDF) is higher than the proportion in the DA group (nDA) by an amount of at least 0.15 (δ): H0: nDF >= nDA + δ H0 will be tested by forming a 95% CI for the difference of proportions and H0 will be rejected if the upper limit of the confidence interval (CI) is less than 0.15. By rejecting H0, the alternative hypothesis will be accepted: H1: nDF < nDA + δ By accepting H1, the conclusion will be that DA is non-inferior DF and hence as good as DF. In addition to the efficacy analyses (main analyses)we aim to investigate the following: I. Whether baseline parameters are associated with clinical outcomes,and whether treatment effect modifiers can be identified at the defined follow-ups (at 2 years, 5 years and 10 years) from the following list of variables:
II. Whether the surgeon's preference for treatment before randomization is associated with clinical outcomes at follow-up (2-year, 5-year and 10 year). In this study, we will use the similar primary and secondary outcome measures as for the efficacy study. III. Health-economic comparison of decompression alone and decompression with fusion at 2-, 5- and 10-year follow-up. This will be published in separate articles. Sample size: The sample size calculation is based on the hypothesis that the 2-year results for the DA group is as least as good as for the DF group when comparing the proportions of responders in each group. The sample size is computing by using the Blackwelder methodology. Based on data from the Norwegian Spine Register, the proportion of responders for the whole treatment group is expected to be 0.70. Choosing a type 1 error = 0.05, power = 0.80 and δ = 0.15 gives a sample size of 116. Considering these assumptions and adding 10% for possible dropouts, a total of 128 patients are required in each group. Using Multiple Imputation for missing data, we consider power acceptable even with some higher dropouts at 5- and 10-year follow-up. Protocol deviations The patients have major deviations from protocol if they: Have not received operative treatment in accordance with randomized allocation; Have received operative treatment in accordance with randomized allocation and operated with a new operation at same level during the follow-up period; Have not provided informed consent; Have withdrew the informed consent and claimed their data withdrawn from analyses. According to deviations to protocol the following analysis sets are defined: Full Analysis Set (FAS): all randomised patients with primary operation according to the randomly assigned study treatment and with data on the primary outcome variable (ODI) at one or more time point. Per Protocol Set (PPS): All randomized patients without major deviations from protocol and with data on the primary outcome variable at baseline and two-year follow-up . For 5- and 10-year analyses data are required at baseline and at the respective follow-ups. Statistical analysis: To determine whether randomization is successful descriptive statistics will be used for comparing baseline characteristics between the groups. Differences in responder rates for ODI, ZCQ and NRS for leg/back pain(proportions of patients dicothomized into 'success'), including the Newcombe hybrid score confidence interval, will be estimated and tested according to non-inferiority. If there are patients with missing data at two-year follow-up, Multiple imputation (MI) will be performed including plausible baseline data and follow-up data as explanatory variables in the imputation model. Statistical analyses will be performed both on a Full Analysis Set (FAS-MI) and a Per Protocol Set (PPS) at two-year follow-up. In the FAS-MI set missing scores necessary for dichotomizing patients into responders/non-responders will be imputed by use of Multiple imputation (MI). To recommend DA both the FAS-MI and the PPS analysis of the primary outcome are required to show non-inferiority. In addition we will perform two sensitivity analyses. One with responder analysis of FAS without imputation (a complete cases analysis) and one with responder analysis of FAS, where missing values will be replaced with values at one year follow-up, if available. Categorical secondary outcomes will be analyzed with Fisher mid-P tests and Newcombe hybrid score intervals. The GPE responses will be analyzed with a proportional odds logistic regression model. It will be used a linear mixed model analysis to evaluate the continous secondary outcomes, and to evaluate the effect of each efficacy variable over time and between groups (all follow-up measurements from inclusion to follow-ups will be included). In the mixed model patients are not excluded from the analysis of an efficacy variable if the variable is missing at some, but not all time points after baseline. A significance level of 5% will be used throughout. Data will be inaccessible to the research group until all available two-year follow-up participants has completed the 2-year questionnaire, and the study is declared adequate monitored according to principles of Good Clinical Practice (GCP).The data collected between 2- and 5-year follow up will be inaccessible to the research group until all available 5-year follow-up participants has completed the 5-year questionnaire.The data collected between 5- and 10-year follow up will be inaccessible to the research group until all available 10-year follow-up participants has completed the 10-year questionnaire.. Faculty of Research support, University of Oslo will declare this inaccessibleness and state which date the data has been accessible for the investigators. Interim analysis and stopping rules: When 75 patients in each group have completed the 12 months follow- up, the investigators will do an interim analysis. Due to ethical considerations the inclusion of patients will be terminated if the analysis reveals one of the following:
The interim analysis was conducted on February 28, 2017 by an independent statistician blinded for treatment adherence. Only data on reoperations and on the primary outcome measure (ODI) was available to the statistician. None of the stop criteria were fulfilled. The statistician informed the steering committee, via the central coordinator, that the study could be continued. Further information about the analysis was not disclosed and will not be available to anyone until the main analysis of 2-year follow-up data. The reporting of the trial will be based on an adapted Consolidated Standards of Reporting Trials (CONSORT) checklist for reporting non- inferiority trials. |
|||||||||
Study Type ICMJE | Interventional | |||||||||
Study Phase ICMJE | Not Applicable | |||||||||
Study Design ICMJE | Allocation: Randomized Intervention Model: Parallel Assignment Masking: Single (Outcomes Assessor) Primary Purpose: Treatment |
|||||||||
Condition ICMJE | Lumbar Degenerative Spondylolisthesis | |||||||||
Intervention ICMJE |
|
|||||||||
Study Arms ICMJE |
|
|||||||||
Publications * |
|
|||||||||
* Includes publications given by the data provider as well as publications identified by ClinicalTrials.gov Identifier (NCT Number) in Medline. |
||||||||||
Recruitment Information | ||||||||||
Recruitment Status ICMJE | Active, not recruiting | |||||||||
Actual Enrollment ICMJE |
267 | |||||||||
Original Estimated Enrollment ICMJE |
256 | |||||||||
Estimated Study Completion Date ICMJE | December 2028 | |||||||||
Actual Primary Completion Date | February 10, 2023 (Final data collection date for primary outcome measure) | |||||||||
Eligibility Criteria ICMJE | Inclusion Criteria:
Exclusion Criteria:
|
|||||||||
Sex/Gender ICMJE |
|
|||||||||
Ages ICMJE | 18 Years to 80 Years (Adult, Older Adult) | |||||||||
Accepts Healthy Volunteers ICMJE | Yes | |||||||||
Contacts ICMJE | Contact information is only displayed when the study is recruiting subjects | |||||||||
Listed Location Countries ICMJE | Norway | |||||||||
Removed Location Countries | ||||||||||
Administrative Information | ||||||||||
NCT Number ICMJE | NCT02051374 | |||||||||
Other Study ID Numbers ICMJE | 2013/366 2013/366 |
|||||||||
Has Data Monitoring Committee | Yes | |||||||||
U.S. FDA-regulated Product | Not Provided | |||||||||
IPD Sharing Statement ICMJE | Not Provided | |||||||||
Current Responsible Party | Haukeland University Hospital | |||||||||
Original Responsible Party | Same as current | |||||||||
Current Study Sponsor ICMJE | Haukeland University Hospital | |||||||||
Original Study Sponsor ICMJE | Same as current | |||||||||
Collaborators ICMJE | Møre og Romsdal Hospital Trust | |||||||||
Investigators ICMJE |
|
|||||||||
PRS Account | Haukeland University Hospital | |||||||||
Verification Date | December 2022 | |||||||||
ICMJE Data element required by the International Committee of Medical Journal Editors and the World Health Organization ICTRP |