This research is being done to determine the accuracy of two noninvasive methods of measuring the pressure of the cerebrospinal fluid (CSF), also known as intracranial pressure or ICP.
Recently, astronauts in long-duration spaceflight have been found to have a syndrome consisting of swelling of the optic nerve, impaired vision, and elevated cerebrospinal fluid pressure (also known as intracranial pressure \[ICP\]) via lumbar puncture (LP), which is similar to the syndrome of idiopathic intracranial hypertension (IIH). In astronauts, this syndrome is called Visual Impairment/Intracranial Pressure (VIIP). It is not possible to perform an LP on astronauts in space. Noninvasive methods of estimating ICP exist but have not been tested against continuous ICP methods in a patient cohort that is physiologically similar to that of astronauts. The primary objective of this study is to determine the validity, reliability, accuracy, and precision of two noninvasive methods of ICP measurement (tympanic membrane displacement (TMD, Marchbanks Measurements Systems, UK) and distortion product otoacoustic emissions (DPOAE) in comparison to a reference standard, invasive ICP measurement, in human subjects undergoing diagnostic ICP monitoring. The two noninvasive methods are based on the responses of the inner ear and middle ear to changes in ICP. The first method is TMD, which measures tiny movements of the ear drum, and the second is DPOAE, which is routinely used for newborn hearing screening. Adults with hydrocephalus or pseudotumor cerebri who have been recommended on the basis of standard clinical criteria to have ICP monitoring either by insertion of a temporary spinal catheter or by insertion of a needle into an existing shunt reservoir are eligible. After insertion of the spinal catheter or the needle in the shunt, subjects will undergo testing with the TMD and DPOAE in the lying, sitting, standing, and head-down tilt (10 degrees) position. In addition, testing will be performed during sleep, when normal fluctuations of ICP occur. Diagnostic decisions will be based on the standard invasive ICP monitoring only, and not based on the noninvasive ICP monitoring.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
5
The CCFP Analyser has a passive mode and an active mode. When used in active mode, the device generates a tone burst that is transmitted to the ear to elicit contraction of the stapedius muscle. The passive mode requires no stimulus or sound burst. For the lying, sitting, standing, and 10-degree head-down tilt conditions, the active mode will be used. Each condition comprises 13 stimuli of 0.3s duration. Overnight recording of non-invasive ICP will be done using the passive mode of the CCFP device.
DPOAE measurement uses a clinical acoustic probe to record the ear's response to two simultaneous tones. DPOAE measurements will be made for 13 tones. The total measurement time for each condition is 2-4 minutes.
Sinai Hospital of Baltimore
Baltimore, Maryland, United States
Noninvasive ICP
Bland-Altman analysis: the difference between the noninvasive ICP and the invasive ICP is plotted against the mean of both the noninvasive and invasive ICP at each ICP level
Time frame: Day 1 (Concurrent with invasive ICP monitoring)
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