BrainCare Inc.

In clinical practice, hospital admission of patients with altered level of consciousness ranging from drowsiness to decreasing response states or coma is extremely common. This clinical condition demands effective investigation and early treatment. Imaging and laboratory tests have played increasingly relevant roles in supporting clinical research. One of the main causes of coma is intracranial hypertension (IH), with traumatic brain injuries (TBI) and cerebral hemorrhages being the major contributors to its development. IH increases the risk of secondary damage in these populations, and consequently, morbidity and mortality. Clinical studies show that adequate intracranial pressure (ICP) control in TBI patients reduces mortality and increases functionality. Unfortunately, the most accurate way to measure and evaluate the ICP is through a catheter located inside the skull, and its perforation is required for this purpose. Several studies have attempted to identify noninvasive solutions for ICP monitoring; however, to date, none of the techniques gathered sufficient evidence to replace invasive monitors. Recently, an extensometer device has been developed, which only maintains contact with the skull's skin and therefore eliminates the need for its perforation, being able to obtain recordings of cranial dilatation at each heartbeat and consequently reflecting brain compliance. In vivo studies have identified excellent qualitative correlation with catheter ICP recordings. However, this device was evaluated only in a limited number of clinical cohorts and the correlations between the information provided by this device with patients outcomes is still poor. Therefore, this project aims primarily to evaluate the use of this noninvasive brain compliance monitoring system in a cohort of TBI patients.

Introduction: Intracranial pressure (ICP) monitoring is essential in several medical situations, however, currently there is an invasive technique, costly, not widely available and sometimes contraindicated. Transcranial Doppler (TCD) pulsatility index (PI) measure can provide indirect information on the cerebrovascular resistance (CVR) augmentation, which is present concomitantly with intracranial hypertension (ICH). The hypothesis that PI measure accurately indicates cerebral compliance impairment (CCI) has been not assessed by large studies currently, and would be of value as a non invasive technique to denote earlier installing of therapeutics to prevent the effects of ICH. Likewise, a novel technique of intracranial compliance assessment by means of an external sensor has been developed, still in need of being prospectively studied.
Objective: The present study aims to assess PI accuracy indicating CCI, and dynamic cerebral auto regulation (dCAR) during internal jugular veins (IJVs) compression observed by both invasive and non-invasive techniques.
Methods: A prospective, observational controlled study, including critical neurological patients with ICP monitoring in normal range (under 20 mmHg). Initially, dCAR is monitored, then, the IJVs are compressed for 60 seconds with ultrasound guidance. We evaluate optic nerve sheath prior to intervention, and dCAR, ICP values, ICP waveforms and PI variation at different times, correlating results.