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Rationale: Magnetic navigation in complex lesions/vessels may result in reduced contrast and irradiation for patients undergoing percutaneous coronary intervention. The investigators aim to compare the use of the 2 techniques.
Objective: To compare the use of contrast and irradiation used in magnetically navigated PCI (MPCI) with conventional guidewire PCI (CPCI) in patients with complex anatomy (as defined by a clinical prediction rule).
Study design: Prospective randomised controlled, single-blind trial Study population: Healthy human volunteers aged 18 to 80 years of age Intervention (if applicable): One group has the placement of the angioplasty wire with magnetic navigation and the other has the angioplasty wire placed by conventional technique. All other interventions will be performed as per routine practice.
Main study parameters/endpoints:
Primary endpoint The primary endpoint is the amount of contrast used.
Secondary endpoints
Nature and extent of the burden and risks associated with participation, benefit and group relatedness:
The index procedure is performed as per normal routine and includes history and examination. A blood test will be taken once vascular access has been obtained. After the procedure a questionnaire will be filled in. The patient will have a blood test 2 to 3 days after the procedure, telephone follow-up will occur at 1 and 6 months and a further outpatient visit with ECG will be planned for a year after the index procedure. No additional significant physical or psychological discomfort is expected with participation in the study.
Full description
The Stereotaxis Niobe® magnetic navigation system received regulatory approval for human clinical use for interventional cardiology in 2003.
Magnetic navigation gives 3 dimensional (3D) directional control over the guide-wire tip during percutaneous coronary intervention (PCI) procedures.
Magnetic navigation has been shown to be feasible and effective (1-3), case reports suggest that it enables the performance of procedures that could not be successfully finished conventionally (4-6), and that the use of the system may lead to reductions in contrast use and procedure time (7-11) that can be expected to result in better patient outcomes, and an economical advantage (less consumables per procedure, more procedures per session). There are only a few centers that perform magnetic navigation for percutaneous coronary intervention The OLVG has performed the most procedures of any of these centers and has included all the patients in a registry.
The registry at the OLVG suggests that different subgroups derive different benefit.
Distal lesions (10) defined as lesions more distal than the first 2 coronary segments from the aorta (thus RCA segment, mid LAD or distal Cx).
Technical success did not differ significantly between magnetic and conventional PCI (88.5 vs 96.2%; p=0.14). Significantly shorter procedural and fluoroscopy time were observed for magnetic compared to conventional PCI (29.9±17.1 vs 42.9±21.1 min, p<0.001; 8.2±7.7 vs 16.7±22.4 min, p=0.01 respectively). More contrast was used in de conventional PCI group (54 ml/patient; P=0.02). These advantages resulted in a mean saving of 1652 euro per patient (P<0.0001).
Primary PCI (11) The technical success rate was high in both the MPCI and CPCI groups (95.4% vs 98%; P = NS). There was significantly less contrast usage in the MPCI compared to the CPCI group (167±80/patient vs 220±87/patient; P<0.001). Procedural times were not significantly different for MPCI compared to CPCI (30.8±16.5 min vs 33.6±15.8 min, p=0.2) while fluoroscopy times were significantly better (8.1±5.0 min vs 14.6±26.5 min, p<0.05).
Simple lesions (8) as defined by the elective treatment of a single discrete stenosis that would require a maximum of two stents and excluding multiple lesions in the target vessel, multi-vessel PCI, bifurcation lesions, acute and chronic total occlusions, or a previous failed conventional attempt for the same target lesion.
Procedural and fluoroscopy times were not significantly different for MPCI compared to CPCI (21.0±14.5 min vs 24.7±14.0 min; 4.9±4.8 min vs 7.3±10.3 min, p=NS). There was a significant reduction in median contrast use (60 ml/patient [41-100] vs 100 ml/patient [64-130]; P=0.006).
Summary Benefit appears to increase depending on the complexity of the vessel/lesion with distal lesions showing a significant benefit in terms of contrast use, procedure time and fluoroscopy time.
Simple lesions show that procedures are not negatively influenced in terms of time, or irradiation and there may be benefit in terms of contrast use.
Acute procedures where time is at a premium (primary PCI for a heart attack) are not slowed by the use of the system.
Furthermore, the investigators have published a clinical prediction rule for selection of patients that will most benefit from this technology. (12)
The use of this system may have a number of benefits
The hypothesis that MPCI is better than CPCI should be investigated by a randomized controlled trial (Magnetic navigation wire placement vs conventional wire placement).
The investigators plan to randomize patients into magnetic and conventional groups.
Endpoints:
Primary endpoint Contrast use
Secondary:
Short-term procedural Procedure Fluoroscopy Procedure time Procedure success Short term contrast nephropathy
Long-term MACCE at 1 month and 12 months.
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Inclusion criteria
Pct=1*Vb+1*(Vl=1)+2*(Vl=2)+2*Vc+1*Lbb)+1*(Ll=1)+2*(Ll=2)
Pct - Predicted crossing time (prolonged if integer ≥ 6). Vb - Number of bends before the lesion. Each bend causes deformation of the wire resulting in friction. A greater number of bends leads to increased friction resulting in more difficultly in manipulating the wire.
Vl - End-to-end length from the ostium to the lesion. The more distal the lesion is from the ostium, then the greater the chance of encountering problematic bends that impair manipulation, and also the longer the time required to physically pass the wire. This is divided into shorter than 50 mm (=0), between 50 and 100 mm (=1) and greater then 100 mm (=2).
Vc - Vessel calcification. Calcium may increase friction as the vessel becomes more rigid and less deformable and does not conform to the wire. The frictive effect of a specific angle will be accentuated if deformation cannot occur.
Lbb - Side-branches within 10 mm. Side-branches within 10 mm of the lesion increase difficultly because, on the approach to a lesion finer control is necessary, the fixed wire-tip angle needed for bends now may have more of a predisposition for side-branches.
Ll - Lesion length. Longer lesions produce more friction on the wire. The detailed analysis of 3D reconstruction by the Paeion system has been described earlier.(12) This rule was tested on a validation group taken from a second cohort of 415 lesions. The c-statistic derived from this group was 0.82 showing good discrimination.
Exclusion criteria
Primary purpose
Allocation
Interventional model
Masking
300 participants in 2 patient groups
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Central trial contact
Mark S Patterson, PhD
Data sourced from clinicaltrials.gov
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