Carotid Implants for PreveNtion of STrokE ReCurrEnce from Large Vessel Occlusion in Atrial Fibrillation Patients Treated with Oral Anticoagulation (INTERCEPT)

Javelin Medical

Status

Begins enrollment in 4 months

Conditions

Atrial Fibrillation

Stroke

Oral Anticoagulation

Implant

Treatments

Device: Vine Filter

Study type

Interventional

Funder types

Other

Industry

Identifiers

NCT05723926

CL-500

Details and patient eligibility

About

Patients with atrial fibrillation (AF) who have had a prior stroke are at very high risk of recurrent ischemic stroke. About 40% of these strokes are due to large emboli which result in large cerebral vessel occlusion (LVO). This randomized control trial aims to address this unmet need by testing whether use of bilateral carotid filter implants in addition to OAC will reduce the risk of stroke in AF patients with recent (e.g. within 12 months) ischemic stroke vs. only OAC.

Full description

Patients with atrial fibrillation (AF) who have had a prior stroke are at very high risk of recurrent ischemic stroke. Oral anticoagulation (OAC) is very effective for stroke reduction, but despite this treatment, AF patients with stroke in the past year still have a very high risk of recurrent stroke which is often disabling; estimated to be between 3 and 7% per year. About 40% of these strokes are due to large emboli which result in large cerebral vessel occlusion (LVO). Thus, there is a well-documented unmet medical need to improve stroke reduction therapy for AF patients with prior ischemic stroke. This study aims to address this unmet need by testing whether use of bilateral carotid filter implants in addition to OAC will reduce the risk of stroke in AF patients with recent (e.g. within 12 months) ischemic stroke. These filters have been shown, in vitro, to capture all emboli ≥1.4 mm in length or diameter and additionally to capture some emboli of smaller diameter. Once placed bilaterally in the common carotid arteries, they are expected to prevent most emboli ≥1.4 mm in length or diameter and potentially some smaller ones from reaching the anterior cerebral circulation. Although the posterior circulation will not be protected, the majority of all large ischemic strokes in patients with AF occur in the anterior circulation (about 90%). It is hypothesized therefore that bilateral carotid implants will greatly reduce embolic strokes due to LVO (60% reduction) and will have an important but smaller effect on embolic strokes due to smaller emboli which cause non-LVO occlusion (10% reduction). LVO-associated strokes are more often large and disabling compared to non-LVO strokes. The primary goal of the study is to show that bilateral carotid implants reduce strokes due to LVO and that there is also a reduction in total ischemic stroke, both in comparison to a control arm (treatment with OAC only). The study will also evaluate the safety of the intervention.

Enrollment

2,000 estimated patients

Sex

All

Ages

18+ years old

Volunteers

No Healthy Volunteers

Inclusion criteria

Documented history of clinical AF
History of ischemic (i.e. non-hemorrhagic) stroke including symptoms of stroke resolving within 24 hours with positive neuro-imaging, meeting one of the following criteria:

Group 1: Patient was on OAC at time of index stroke, with index stroke occurring < 6 week from enrollment Group 2: Patient was not on OAC at time of stroke, with index stroke occurring < 6 weeks from enrollment Group 3: Patient was on OAC at time of index stroke, with index stroke occurring 6 to 52 weeks from enrollment
Planned use of a Vitamin K antagonist (VKA) or a direct oral anticoagulant (DOAC) for the duration of the trial
Patient able to tolerate single antiplatelet therapy in addition to oral anticoagulation for 6 months, in the opinion of the investigator
Bilateral ultrasound or angiogram demonstrating all of the following:
1. Inner common carotid artery diameter range: ≥5.3 mm and ≤8.8 mm
2. Accessibility: up to 40 mm from skin to common carotid artery center
3. Implantation segment free of any atherosclerotic disease
4. Absence of carotid dissection or pre-existing stent(s) in common carotid artery
5. Absence of ≥50% stenosis of the internal carotid arteries as seen on ultrasound or angiography (CTA, MRA or DSA)
i. For ultrasound, calculate the percentage of carotid stenosis using the Society of Radiologists in Ultrasound Consensus Criteria for Carotid Stenosis, where ≥50% stenosis is defined by internal carotid artery peak systolic velocity of ≥125 cm/sec, internal/common carotid peak systolic velocity ratio of 2 or more and end diastolic velocity of ≥40 cm/sec, or evidence of near occlusion.

ii. For angiography, calculate the percentage of carotid stenosis using the North American Symptomatic Carotid Endarterectomy Trial (NASCET) criteria ([D - N]/D x 100, where N is the luminal diameter at the site of maximal narrowing and D is the diameter of normal distal internal carotid artery beyond the bulb where the artery walls are parallel.
Provision of informed consent

Exclusion criteria

Contraindication to oral anticoagulation (e.g. history of intracranial hemorrhage, known hereditary or acquired coagulation disorders, or recurrent major bleeding)
Contraindication to additional single antiplatelet therapy for 6 months from randomization
Previously documented 50% or greater stenosis, or high-risk plaque in the opinion of the investigator, of the common carotid, internal carotid, subclavian, vertebral, or intracranial arteries that has not been treated with a revascularization procedure (i.e. stent or angioplasty)
Visualized active (acute/subacute) cervical or intracranial arterial thrombus (i.e. free-floating) on computed tomography (CT), magnetic resonance (MR), or digital subtraction (DS) angiography that is at risk of causing additional stroke/brain injury
Previously documented aneurysm of the internal carotid artery or its branches (i.e. ophthalmic, posterior communicating, anterior choroidal, anterior cerebral and middle cerebral arteries) that is 6 mm or greater in diameter.
Prior surgery or radiation of the neck at the implantation segment
Pre-existing percutaneous left atrial appendage occlusion device that was implanted after most recent ischemic stroke
Planned left atrial appendage occlusion procedure
Female who is pregnant or non-postmenopausal female who is not willing to use an effective method of birth control during duration of the trial
Overt systemic infection
Known sensitivity to nickel or titanium metals, or their alloys
Active participation in another investigational drug or device treatment trial
Any other condition that in the opinion of the investigator may adversely affect the safety of the patient or would limit the patient's ability to complete the trial

Trial design

Primary purpose

Prevention

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

Single Blind

2,000 participants in 2 patient groups

Vine Filter and oral anticoagulant

Experimental group

Description:

Participants randomized to the intervention will undergo implantation of bilateral carotid filters and OAC therapy. In addition, participants will receive additional single antiplatelet therapy with OAC for 6 months.

Treatment:

Device: Vine Filter

Usual Care (oral anticoagulant only)

No Intervention group

Description:

Participants randomized to control will not receive carotid filter implants but will receive usual care including OAC, throughout the course of the study.

Trial contacts and locations

Central trial contact

Sagit broder, MSc; Jessica Tyrwhitt

Data sourced from clinicaltrials.gov

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