HeadSense (HS)-1000 device, a proprietary non-invasive brain monitor, is expected to safely and accurately monitor physiological signs of the brain with minimal discomfort to patients, providing information about normal or abnormal brain-related conditions and providing decision-making support for physicians. The investigators hypothesize that the HS-1000 is capable of detecting vasospasm using the raw acoustic data derived from the noninvasive procedure.
The study will be an open-label, non-randomized, prospective study in patients with elevated risk of vasospasm after stabilizing the patient and treating the subarachnoid hemorrhage (SAH) to prevent further re-bleeds. Each enrolled patient will be monitored with the HS-1000 device for a period of 10 minutes, occurring daily, after completion of surgery for SAH. Following admittance to the intensive care unit (ICU), patients will undergo routine monitoring as per standard of care. Non-invasive recordings of 10 minutes in duration with HS-1000 device will be completed daily for up to 14 days contingent on staff availability and the patient's clinical status. In the event a monitoring session is interrupted or postponed, another attempt to re-monitor will be made when the patient is able. Flexibility will granted in lieu of patient or study team unavailability thereby allowing recording to be neglected for any given day if absolutely necessary. In the case the principle investigator (PI) or a member of the study team positively confirms vasospasm based on clinical assessment or follow-up care of the patient during the monitoring period, the patient will be recorded twice daily for up to a consecutive 14 days or for their duration in the ICU. The PI will determine the severity of vasospasm as per the vasospasm severity scale. Increased recording frequency will be implemented only for patients with vasospasm graded as asymptomatic moderate-to-severe or symptomatic mild-to-severe (i.e. those scoring 2a, 3a, 1s, 2s, or 3s). Prior to the HS-1000 recording session, the front-end will be placed in the patient's ears and connected to the monitor. The acoustic signal propagates through the cranium, and attenuates during its propagation. The receiving sensor in the other headset picks up the acoustic signal. The receiving sensor converts the acoustical signal into a digital signal and transmits it back to the monitor. Each recording session with the HS-1000 will last 10 consecutive minutes, if the patient's condition and clinical workflow permits. If required by the attending medical staff, the recording can be stopped and restarted at a later time during the day. The HS-1000 will be used as a seamless adjunctive, state-of-the-art, brain monitoring utility operating in parallel with standard care intensive neurological monitoring modalities. The non-invasive monitor will not replace or alter the standard care received by patients. Once all recordings are completed, the brain monitoring signals will be saved in the study's database. Daily neurological checks and collection of all routine clinical and radiographic data as per standard of care will be gathered as the gold standard data for statistical comparison. Neurocognitive tests will be performed routinely every 8 hours by attending physicians to assess for neuro-deterioration and radiological (Computed tomographic angiography (CTA) and Digital subtraction angiography (DSA) components. Data collected from patients will be stripped of all personal health identifiers. Each subject will receive a unique identifying patient number linking the individual to their deidentified clinical data set. Only the medical staff attending to the patient's standard care will be knowledgeable to the identity of the subject. Once data is collected, results of the HS-1000 recording sessions will be analyzed and correlated with deidentified supporting clinical/radiological data to assist in the identification of vasospasm-specific acoustic waveform patterns. Deidentified supporting clinical data will consist of standard care intensive neurological monitoring procedures currently used to confirm clinical diagnosis of vasospasm, principally based on evidence of neuro deterioration: 1. Computed tomographic angiography 2. Digital subtraction angiography 3. Neurocognitive clinical assessments 4. Routine clinical data as per standard of care Study workflow and HS-1000 recording sessions will be fully compatible with and will not alter the standard of care received by the patients in any way.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
25
HeadSense (HS)-1000 device, a proprietary non-invasive brain monitor, is expected to safely and accurately monitor physiological signs of the brain with minimal discomfort to patients, providing information about normal or abnormal brain-related conditions and providing decision-making support for physicians
University of Maryland Medical Center
Baltimore, Maryland, United States
The HS-1000 will measure intracranial pressure readings from the patient which will then be used to generate vasospasm-specific acoustic waveform patterns.
Development of vasospasm-specific acoustic waveform patterns
Time frame: 14 days following SAH
To compare the HS-1000 ability and accuracy in detecting vasospasm by measuring ICP values compared to other standard of care vasospasm diagnostic modalities such as DSA and CTA.
Detection of vasospasm
Time frame: 14 days following SAH
To determine HS-1000's ability and accuracy in measuring ICP values while assessing physiological parameters of the patient.
ICP measurement
Time frame: 14 days following SAH
Incidence of Adverse events (AEs)
AE monitoring
Time frame: 48 hours from the end of monitoring with the HS-1000
Rate of ear infections/irritations
Side effects
Time frame: 48 hours from the end of monitoring with the HS-1000
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