A Study to Evaluate the Effects of the Neuroflo Device in People Who Have Had a Stroke
| Status: | Withdrawn |
|---|---|
| Conditions: | Neurology |
| Therapuetic Areas: | Neurology |
| Healthy: | No |
| Age Range: | 18 - Any |
| Updated: | 1/13/2017 |
| Start Date: | March 2008 |
| End Date: | January 2013 |
Feasibility and Safety of NeuroFlo™ in Patients With Persistent Arterial Occlusion (PAO) After Failed Mechanical Revascularization
Patients with acute ischemic stroke and persistent arterial occlusion following failed
mechanical revascularization, who can undergo NeuroFlo treatment within 18 hours of last
time symptom free, will be eligible for enrollment to assess the safety and feasibility of
the NeuroFlo catheter in treating ischemic stroke patients with persistent arterial
occlusion following attempted thrombectomy. The NeuroFlo catheter is designed to partially
obstruct the abdominal descending aorta thereby increasing blood flow to the brain. Cerebral
perfusion is improved by diverting more blood through vessels as well as by expansion of the
collateral circulation. Improved regional perfusion leads to clinical improvement.
mechanical revascularization, who can undergo NeuroFlo treatment within 18 hours of last
time symptom free, will be eligible for enrollment to assess the safety and feasibility of
the NeuroFlo catheter in treating ischemic stroke patients with persistent arterial
occlusion following attempted thrombectomy. The NeuroFlo catheter is designed to partially
obstruct the abdominal descending aorta thereby increasing blood flow to the brain. Cerebral
perfusion is improved by diverting more blood through vessels as well as by expansion of the
collateral circulation. Improved regional perfusion leads to clinical improvement.
Patients with occlusion of a proximal artery experience prompt diversion of flow through
collaterals and retrograde perfusion of the occluded arterial tree. Collateral perfusion
sustains the penumbra and may lessen stroke severity provided recanalization of the occluded
artery occurs. Thrombectomy attempts to achieve recanalization of the occluded artery, but
36% of patients (90/252 in MERCI and MultiMERCI studies) experienced persistent arterial
occlusion (PAO, defined as TICI flow 0-1). PAO following attempted thrombectomy was
associated with high mortality, with 53% dead at 90 days. Of the survivors, only 5% achieved
mRS of 0-2. At present, there are no therapies that have been shown to improve these risks.
Data obtained from a clinically indicated CT at 24 hours will be used to monitor for safety.
The safety endpoints for this study will be the proportion of patients who experience:
- Mortality and neurological deterioration (defined as an increase of ≥4 points on the
NIHSS) at 5 days post treatment
- Change in neurological status and adverse events from baseline through 30 days from
treatment
Other endpoints include:
- Change in neurological status and adverse events from baseline through 90 days from
treatment
- The incidence of hemorrhagic transformation or other intracerebral bleeding will be
assessed at 5 days post treatment.
- Cerebral blood flow changes associated with device therapy will be assessed through
multimodal CT or MRI studies acquired at baseline and 3 hours post treatment.
- Potential patient benefit will be assessed through collection of neurological indices
(NIHSS etc.) at baseline, 24 hours post-procedure, day 5 (or discharge), 30 days and 90
days.
collaterals and retrograde perfusion of the occluded arterial tree. Collateral perfusion
sustains the penumbra and may lessen stroke severity provided recanalization of the occluded
artery occurs. Thrombectomy attempts to achieve recanalization of the occluded artery, but
36% of patients (90/252 in MERCI and MultiMERCI studies) experienced persistent arterial
occlusion (PAO, defined as TICI flow 0-1). PAO following attempted thrombectomy was
associated with high mortality, with 53% dead at 90 days. Of the survivors, only 5% achieved
mRS of 0-2. At present, there are no therapies that have been shown to improve these risks.
Data obtained from a clinically indicated CT at 24 hours will be used to monitor for safety.
The safety endpoints for this study will be the proportion of patients who experience:
- Mortality and neurological deterioration (defined as an increase of ≥4 points on the
NIHSS) at 5 days post treatment
- Change in neurological status and adverse events from baseline through 30 days from
treatment
Other endpoints include:
- Change in neurological status and adverse events from baseline through 90 days from
treatment
- The incidence of hemorrhagic transformation or other intracerebral bleeding will be
assessed at 5 days post treatment.
- Cerebral blood flow changes associated with device therapy will be assessed through
multimodal CT or MRI studies acquired at baseline and 3 hours post treatment.
- Potential patient benefit will be assessed through collection of neurological indices
(NIHSS etc.) at baseline, 24 hours post-procedure, day 5 (or discharge), 30 days and 90
days.
Inclusion Criteria:
- Age ≥18 years
- Acute cerebral ischemia due to occlusion of the internal carotid or middle cerebral
artery
- NIHSS 8-25 (inclusive)
- Persistent arterial occlusion (defined as TICI 0 or 1) following failed mechanical
revascularization (ref Table 2)
- Able to undergo NeuroFlo treatment within 18 hours of symptom onset (or from last
time known normal)
- Informed consent from patient or legally authorized representative
- Negative pregnancy test in females of child-bearing potential
Exclusion Criteria:
- Etiology other than cerebral ischemia
- Acute hypodense parenchymal lesion or effacement of cerebral sulci in more than 1/3
of the middle cerebral artery territory
- Brainstem or cerebellar stroke
- Systolic blood pressure (BP) >220 mm Hg, or diastolic (BP) >140 mm Hg that cannot be
lowered with medical management
- Any use of intravenous or intra-arterial thrombolytic medication
- Known secured or unsecured cerebral aneurysm or vascular malformation on CTA or MRA
or history thereof
- Imaging evidence of current intracranial bleeding
- History of intracerebral hemorrhage
- Any aortic or femoral endovascular graft
- Aortic surgery within 6 weeks prior to the time of enrollment
- Known heparin sensitivity or allergy
- Participation in another therapeutic/treatment research protocol
- Any intracranial pathology interfering with the imaging assessments
- Current congestive or decompensated heart failure
- Known ejection fraction (EF) < 30% or evidence of NYHA Class IV or ACC/AHA Stage D
heart failure within the past 3 months
- Known or echo evidence of aortic regurgitation ≥ 3+
- Myocardial infarction within last 3 months
- Evidence of acute MI on ECG or by cardiac enzymes
- Current or recent Class III or IV angina despite medical/surgical treatment
- INR > 1.7
- Platelet count < 100,000
- Creatinine > 1.5 times local laboratory standard
- Patients with cerebral arterial perforation or dissection due to attempted
thrombectomy
- Patients with complications of femoral artery cannulation
- Patients with aortic diameter greater than 28 mm or smaller than 11 mm in diameter
measured within 6 cm above and below the midpoint of the renal ostia (for 7Fr
NeuroFlo Device)
- Evidence of aortic aneurysm
- High-grade iliac stenosis or vascular tortuosity that could prevent safe delivery
and/or positioning of the NeuroFlo catheter
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