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Clinical Trial Summary

The purpose of this study is to evaluate the safety and performance of the Delta system in the treatment of cerebral vasospasm post aneurysmal subarachnoid hemorrhage (aSAH) patients.


Clinical Trial Description

The Delta system is intended to deliver electrical modulation signal to the carotid body, to result in cerebral vasodilation and blood flow augmentation in the brain, for treatment of patients suffering from vasospasm post aSAH.

In this clinical trial the Delta system in intended to be used on patients who have their ruptured aneurysm secured, hospitalized in the neuro ICU (Intensive Care Unit) and are anesthetized and intubated, diagnose as suffer from cerebral vasospasm, who fulfill all the inclusion criteria and none of the exclusion as detailed in the study protocol.

The system is intended to be used for up to 7 days under hospital supervision that is routinely provided for stabilizing patients following SAH and securing aneurysms. Follow up period is 30 days after end of treatment.

The Delta system is comprised from two main elements: Electrical Stimulation Unit (ESU) and Delivery kit.The ESU is a reusable external autonomic stimulator unit, cable and graphic user interface (GUI) software based on a PC tablet. The delivery kit is a disposable stimulating leads shaft and accessories.

The procedure includes insertion of the leads shaft over a guiding needle via patient neck, so electrodes are positioned adjacent the carotid bodies. Therapy parameters are set by the physician and monitoring is continued during patient hospitalization to determine when therapy can be discontinued and shaft removed.

Twenty three (23) patients will be recruited to the study, including 3 roll-in patients. The study is an open label, uncontrolled, non-randomized, multicenter feasibility study. This study will recruit male and female adult patients with aSAH secondary to rupture of an aneurysm, secured by coiling or clipping, and in WFNS grades I-IV. Only anesthetized and intubated patients will be recruited for the study.

This study evaluates the safety and performance of the Delta system. The potential benefits and risks of participation in this study are clearly identified in the informed consent form and are to be explained to the subject prior to participating in the study.

Study treatment - The Delta system is inserted by minimally exposure of the carotid bifurcation. The system electrically stimulates the carotid body chemoreceptors, aiming to achieve sustainable cerebral vasodilation for inducing enhancement of cerebral perfusion and thereby minimizing ischemia and consequently prevent delayed neurological deficit. Treatment with the delta system is intended for up to seven (7) days.

Manufacturing and assembling the Delta system is done in certified facilities. Further information and complete details regarding device materials, specifications, design, quality assurance, etc. can be found in the Investigator's Brochure.

Risk to benefit rational - reverse vasospasm and increase cerebral blood flow (CBF) is the major component of cerebral perfusion augmentation, results in reducing the rate of vasospasm complication. The Delta system may provide vasospasm subjects with a novel treatment option. Based on the Delta system design, the extensive pre-clinical tests conducted with the system and the comparison to other similar devices and alternative treatments, the company believes that the system is safe for use and beneficial for reduction of delayed cerebral ischemia complication that are vasospasm related.

Statistical analysis plan - Sample size for this study is determined by the secondary end point.

Sample size of N=20 achieves:

- 88% power to detect CBF decrease of ≥ 15% in at least one of the affected cerebral arteries measured by TCD.

- 88% power to detect increase in artery diameter of ≥15% in at least one of the affected main cerebral arteries measured by DSA or CTA.

- 99% power to detect CBF increase of ≥20% measured by CerOx monitor system or Licox® monitoring system.

All with an estimated standard deviation of 0.2 and with alpha of 0.05, using a one-sample t-test analysis. The sample size also serves the qualitative analysis of the primary end point.

A t-test is any statistical hypothesis test in which the test statistic follows a Student's t distribution if the null hypothesis is supported. It can be used to determine if two sets of data are significantly different from each other for continues parameters (such as artery diameter) , and is most commonly applied when the test statistic would follow a normal distribution if the value of a scaling term in the test statistic were known. The estimation for the significant clinical difference as well as the assumed standard deviation was based on previous experience with the device. When the scaling term is unknown and is replaced by an estimate based on the data, the test statistic (under certain conditions) follows a Student's t distribution.

Data management plan - Data management will be directly provided or contracted by the sponsor and compliant to the requirements of ISO 14155:2011. The Sponsor or its designee will provide the investigator with a Case Report Form (CRF) booklet for each subject enrolled in the study and will train the site personnel in the correct manner of recording data. The appropriate CRFs will be completed and signed by the Investigator as appropriate. All CRFs will be completed in a legible manner in blue or black ink. Any corrections will be made by drawing a single line through the incorrect entry, entering the correct information, and initialing and dating the change. Data entry boxes or spaces should not be left blank, but instead should indicate: NA for not applicable, ND for not done or "-"for missing or not available data. The original signed forms, not copies, will be returned to the Sponsor. All clinical data generated in the study will be submitted to the Sponsor or its designee for quality assurance review, data entry, and statistical analysis. All forms will be reviewed for completeness. Any recording errors will be corrected by contact with the appropriate clinical site. Double-entry routines will be utilized to reduce data entry errors, and computerized editing routines will be used to identify unusual data entries for verification prior to statistical analysis. ;


Study Design

Endpoint Classification: Safety Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment


Related Conditions & MeSH terms


NCT number NCT02129413
Study type Interventional
Source Samson NeuroSciences
Contact Ronnie Levy
Phone +97297745606
Email clinical.affairs@samsonneuro.com
Status Recruiting
Phase N/A
Start date May 2014

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