Validation of Noninvasive Absolute Intracranial Pressure Measurements in Traumatic Brain Injury and Intracranial Hemorrhage.

@article{Kienzler2019ValidationON,
  title={Validation of Noninvasive Absolute Intracranial Pressure Measurements in Traumatic Brain Injury and Intracranial Hemorrhage.},
  author={Jenny Christine Kienzler and Rolandas Zakelis and Sabrina B{\"a}bler and Elke Remonda and Arminas Ragauskas and Javier Fandino},
  journal={Operative neurosurgery},
  year={2019},
  volume={16 2},
  pages={
          186-196
        }
}
BACKGROUND Increased intracranial pressure (ICP) causes secondary damage in traumatic brain injury (TBI), and intracranial hemorrhage (ICH). Current methods of ICP monitoring require surgery and carry risks of complications. OBJECTIVE To validate a new instrument for noninvasive ICP measurement by comparing values obtained from noninvasive measurements to those from commercial implantable devices through this pilot study. METHODS The ophthalmic artery (OA) served as a natural ICP sensor… 
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Human ophthalmic artery as a sensor for non-invasive intracranial pressure monitoring: numerical modeling and in vivo pilot study
TLDR
The results show that the OA can be used as a linear natural pressure sensor and that it could potentially be possible to monitor the ICP for up to 1 h without recalibration.
Changing the paradigm of intracranial hypertension in brain tumor patients: a study based on non-invasive ICP measurements
TLDR
It is demonstrated that ICP in patients with intracranial tumors and mass effect is not necessarily increased, therefore, clinical signs of intrac Cranial hypertension do not necessarily reflect increased ICP.
Non-invasive techniques for multimodal monitoring in Traumatic Brain Injury (TBI): systematic review and meta-analysis.
TLDR
The current meta-analysis has shown that the two most prominent and widely used technologies for non-invasive monitoring in traumatic brain injury are near-infrared spectroscopy and transcranial doppler.
Multimodal Neuromonitoring: Current Scenario in Neurocritical Care
TLDR
This narrative review is undertaken to know the status and recent advancement of multimodal NM in neurocritical care and may provide a supportive tool to interpret physiological events and guide pathophysiological-based therapeutic decisions.
Controlled decompression alleviates early brain injury in rabbit intracranial hypertension model by regulating apoptosis/necroptosis
TLDR
Controlled decompression can effectively reduce neuronal damage and cerebral edema after craniocerebral injury and, thus, protect the brain tissue by alleviating necroptosis and apoptosis.
In Reply: Validation of Noninvasive Absolute Intracranial Pressure Measurements in Traumatic Brain Injury and Intracranial Hemorrhage.
Letter: Validation of Noninvasive Absolute Intracranial Pressure Measurements in Traumatic Brain Injury and Intracranial Hemorrhage.

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