OBJECTIVE: A rupture of the intracranial aneurysm is frequently complicated, with an increase of intracranial pressure (ICP) requiring conservative and/or surgical treatment. We ana- lyzed the risk factors related to the duration of pathologic ICP increase and the relationship be- tween ICP burden and the outcome of subarachnoid hemorrhage (SAH).
METHODS: Consecutive cases with aneurysmal SAH treated at our institution between 01/2003 and 06/2016 were eligible for this study. Different admission variables were evaluated to predict the duration of ICP increase >20 mmHg in univariate and multivariate analyses. The association of the ICP course with SAH outcome parameters (risk of cerebral infarction, in-hospital mortali- ty, and unfavorable outcome at 6 months defined as modified Rankin scale >3) was adjusted for major outcome-relevant confounders.
RESULTS: Of 820 SAH patients, 378 individuals (46.1%) developed at least one ICP increase re- quiring conservative and/or surgical management after aneurysm treatment (mean duration: 1.76 days, range: 1 - 14 days). In the multivariable linear regression analysis, patients\' age (unstand- ardized coefficient [UC]=-0.02, p <0.0001), World Federation of Neurosurgical Societies (WFNS) grade 4-5 at admission (UC=0.71, p <0.004), regular medication with the angiotensin- converting enzyme (ACE) inhibitors (UC=-0.61, p =0.01), and presence of intracerebral hemor- rhage (UC=0.59, p =0.002) were associated with the duration of ICP increase. In turn, patients with longer ICP elevations were at higher risk for cerebral infarction (adjusted odds ratio [aOR]=1.32 per-day-increase, p <0.0001), in-hospital mortality (aOR=1.30, p <0.0001) and un- favorable outcome (aOR=1.43, p <0.0001). SAH patients who underwent primary decompres- sive craniectomy (DC) showed shorter periods of ICP increase than patients with a secondary decompression (mean: 2.8 vs 4.9 days, p <0.0001).
CONCLUSIONS: The duration of ICP increase after aneurysm rupture is a strong outcome predictor and is related to younger age and higher initial severity of SAH. Further analysis of the factors impacting the course of ICP after SAH is essential for the optimization of ICP management and outcome improvement.

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The black hole sign (BHS) is a rare radiological sign seen in the hyperacute phase of bleeding. It manifests within a hemorrhage in early hours, with limited studies exploring clot formation and evolution over a short duration. Despite various hypothesized mechanisms, the precise lifetime and dynamics of black hole sign development remain unclear. We describe the rare finding of a black hole sign within a deep brain hemorrhage, initially observed in the lateral portion of the clot during the first CT scan. Remarkably, in a subsequent CT scan, just 1 hour later, the BHS migrated towards the inner edge. Notably, while the hemorrhage size remained largely unchanged within this short timeframe, hyperacute bleeding led to increased perihematomal edema and sulci flattening. Histopathological features of the \"evolving clot\" are initially characterized by heightened cellularity. This increased cell density renders the hematoma less resistant to compressive forces, such as heightened endocranial pressure, offering a plausible explanation for the crushing and displacement of the BHS. Our study sheds light on the unique radiological progression of BHS within a deep brain ICH, emphasizing its association with dynamic clot formation and the consequential impact on surrounding structures.

Timely detection of elevated intracranial pressure (ICP) in highrisk preterm infants may be critical to avoid permanent neurologic sequelae. Size of optic nerve sheath diameter (ONSD) is highly correlated with changes in ICP. Normal ultrasonographic ONSD values for preterm infants have been published. This study sought to compare these data with MRI measured OSND and to propose suggested ultrasonographic ONSD values.
The ONSD in preterm MRIs were retrospectively measured and related to pre-existing ultrasonographic ONSD. Data were stratified for corrected gestational age. Simple linear regression between ONSD mean values and age was modeled for both eyes, and R2 was calculated. Suggested values for ultrasonographic ONSD were ascertained through linear regression and calculated prediction intervals.
ONSD measurements demonstrated R2 values of 0.95 (right ONSD MRI), 0.95 (left ONSD MRI), 0.96 (right ONSD ultrasound), and 0.93 (left ONSD ultrasound). Suggested ONSD values were incremental with corrected gestational age.
ONSD measurements with MRI and ultrasound are similar. The proposed suggested ONSD values may be helpful in clinical situations where ICPs are suspected or known.

Intracranial pressure monitoring (ICP) is based on the doctrine proposed by Monroe and Kellie centuries ago. With the advancement of technology and science, various invasive and non-invasive modalities of monitoring ICP continue to be developed. An ideal monitor to track ICP should be easy to use, accurate, reliable, reproducible, inexpensive and should not be associated with infection or haemorrhagic complications. Although the transducers connected to the extra ventricular drainage continue to be Gold Standard, its association with the likelihood of infection and haemorrhage have led to the search for alternate non-invasive methods of monitoring ICP. While Camino transducers, Strain gauge micro transducer based ICP monitoring devices and the Spiegelberg ICP monitor are the emerging technology in invasive ICP monitoring, optic nerve sheath diameter measurement, venous opthalmodynamometry, tympanic membrane displacement, tissue resonance analysis, tonometry, acoustoelasticity, distortion-product oto-acoustic emissions, trans cranial doppler, electro encephalogram, near infra-red spectroscopy, pupillometry, anterior fontanelle pressure monitoring, skull elasticity, jugular bulb monitoring, visual evoked response and radiological based assessment of ICP are the non-invasive methods which are assessed against the gold standard.

In preterm infants, early diagnosis and management of a raised intracranial pressure (ICP) may be important to improve neurodevelopmental outcomes. While invasive ICP monitoring is not recommended, ultrasonography of the optic nerve sheath diameter (ONSD) could provide a noninvasive alternative to evaluate ICP. The objective of this pilot study was to document ranges of ONSD in preterm infants.
This prospective cohort pilot evaluated preterm infants who were admitted to the neonatal intensive care unit without suspected raised ICP. Three images per eye were obtained from a 20-5 MHz linear array ultrasound transducer placed on the patient\'s superior eyelid. The OSND was measured 3 mm behind the globe. A second ultrasonographer duplicated half of the scans. Multiple linear regression analysis was conducted for both right and left ONSD with corrected gestational age, weight, and head circumference as predictors. Lin\'s concordance assessed interrater reliability.
In 12 preterm infants 114 scans were performed on both eyes. The median age was 33 weeks (corrected gestational age) with a range of 29-36 weeks. Corrected gestational age was the strongest predictor for ONSD, and preliminary measurements at each gestational age were established. Interrater reliability demonstrated substantial agreement (Qc = 0.97).
In preterm infants, ONSD strongly correlates with corrected gestational age. These data should be validated with other imaging modalities before abnormal ranges can be considered.