Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.

Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.

BACKGROUND:The Ischemic Stroke System is a novel device designed to deliver stimulation to the sphenopalatine ganglion(SPG).The SPG sends parasympathetic innervations to the anterior cerebral circulation. In rat stroke models, SPG stimulation results in increased cerebral blood flow, reduced infarct...

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Main Authors: Dheeraj Khurana, Subhash Kaul, Dietmar Schneider, Attila Csanyi, Ilona Adam, Nasli R Ichaporia, Bernd Griewing, Laszlo Csiba, Attila Valikovics, Vinod Puri, Hans Christoph Diener, Stefan Schwab, Andreas Hetzel, Natan Bornstein, ImpACT-1 Study Group
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0217472
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spelling doaj-1ee5ece7b6814459b76a4e7b56c2215a2021-03-03T20:35:32ZengPublic Library of Science (PLoS)PLoS ONE1932-62032019-01-01147e021747210.1371/journal.pone.0217472Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.Dheeraj KhuranaSubhash KaulDietmar SchneiderAttila CsanyiIlona AdamNasli R IchaporiaBernd GriewingLaszlo CsibaAttila ValikovicsVinod PuriHans Christoph DienerStefan SchwabAndreas HetzelNatan BornsteinImpACT-1 Study GroupBACKGROUND:The Ischemic Stroke System is a novel device designed to deliver stimulation to the sphenopalatine ganglion(SPG).The SPG sends parasympathetic innervations to the anterior cerebral circulation. In rat stroke models, SPG stimulation results in increased cerebral blood flow, reduced infarct volume, protects the blood brain barrier, and improved neurological outcome. We present here the results of a prospective, multinational, single-arm, feasibility study designed to assess the safety, tolerability, and potential benefit of SPG stimulation inpatients with acute ischemic stroke(AIS). METHODS:Patients with anterior AIS, baseline NIHSS 7-20 and ability to initiate treatment within 24h from stroke onset, were implanted and treated with the SPG stimulation. Patients were followed up for 90 days. Effect was assessed by comparing the patient outcome to a matched population from the NINDS rt-PA trial placebo patients. RESULTS:Ninety-eight patients were enrolled (mean age 57years, mean baseline NIHSS 12 and mean treatment time from stroke onset 19h). The observed mortality rate(12.2%), serious adverse events (SAE)incidence(23.5%) and nature of SAE were within the expected range for the population. The modified intention to treat cohort consisted of 84 patients who were compared to matched patients from the NINDS placebo arm. Patients treated with SPG stimulation had an average mRS lower by 0.76 than the historical controls(CMH test p = 0.001). CONCLUSION:The implantation procedure and the SPG stimulation, initiated within 24hr from stroke onset, are feasible, safe, and tolerable. The results call for a follow-up randomized trial (funded by BrainsGate; clinicaltrials.gov number, NCT03733236).https://doi.org/10.1371/journal.pone.0217472
collection DOAJ
language English
format Article
sources DOAJ
author Dheeraj Khurana
Subhash Kaul
Dietmar Schneider
Attila Csanyi
Ilona Adam
Nasli R Ichaporia
Bernd Griewing
Laszlo Csiba
Attila Valikovics
Vinod Puri
Hans Christoph Diener
Stefan Schwab
Andreas Hetzel
Natan Bornstein
ImpACT-1 Study Group
spellingShingle Dheeraj Khurana
Subhash Kaul
Dietmar Schneider
Attila Csanyi
Ilona Adam
Nasli R Ichaporia
Bernd Griewing
Laszlo Csiba
Attila Valikovics
Vinod Puri
Hans Christoph Diener
Stefan Schwab
Andreas Hetzel
Natan Bornstein
ImpACT-1 Study Group
Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.
PLoS ONE
author_facet Dheeraj Khurana
Subhash Kaul
Dietmar Schneider
Attila Csanyi
Ilona Adam
Nasli R Ichaporia
Bernd Griewing
Laszlo Csiba
Attila Valikovics
Vinod Puri
Hans Christoph Diener
Stefan Schwab
Andreas Hetzel
Natan Bornstein
ImpACT-1 Study Group
author_sort Dheeraj Khurana
title Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.
title_short Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.
title_full Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.
title_fullStr Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.
title_full_unstemmed Implant for Augmentation of Cerebral Blood Flow Trial-1 (ImpACT-1). A single-arm feasibility study evaluating the safety and potential benefit of the Ischemic Stroke System for treatment of acute ischemic stroke.
title_sort implant for augmentation of cerebral blood flow trial-1 (impact-1). a single-arm feasibility study evaluating the safety and potential benefit of the ischemic stroke system for treatment of acute ischemic stroke.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2019-01-01
description BACKGROUND:The Ischemic Stroke System is a novel device designed to deliver stimulation to the sphenopalatine ganglion(SPG).The SPG sends parasympathetic innervations to the anterior cerebral circulation. In rat stroke models, SPG stimulation results in increased cerebral blood flow, reduced infarct volume, protects the blood brain barrier, and improved neurological outcome. We present here the results of a prospective, multinational, single-arm, feasibility study designed to assess the safety, tolerability, and potential benefit of SPG stimulation inpatients with acute ischemic stroke(AIS). METHODS:Patients with anterior AIS, baseline NIHSS 7-20 and ability to initiate treatment within 24h from stroke onset, were implanted and treated with the SPG stimulation. Patients were followed up for 90 days. Effect was assessed by comparing the patient outcome to a matched population from the NINDS rt-PA trial placebo patients. RESULTS:Ninety-eight patients were enrolled (mean age 57years, mean baseline NIHSS 12 and mean treatment time from stroke onset 19h). The observed mortality rate(12.2%), serious adverse events (SAE)incidence(23.5%) and nature of SAE were within the expected range for the population. The modified intention to treat cohort consisted of 84 patients who were compared to matched patients from the NINDS placebo arm. Patients treated with SPG stimulation had an average mRS lower by 0.76 than the historical controls(CMH test p = 0.001). CONCLUSION:The implantation procedure and the SPG stimulation, initiated within 24hr from stroke onset, are feasible, safe, and tolerable. The results call for a follow-up randomized trial (funded by BrainsGate; clinicaltrials.gov number, NCT03733236).
url https://doi.org/10.1371/journal.pone.0217472
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