Background: We aimed to provide a systematic description of our 2-year experience using a standardized bedside, single burr hole approach to intracranial multimodality monitoring (MMM) in patients with severe traumatic brain injury (sTBI), focusing on safety and probe reliability.
Methods: We performed this observational cohort study at a university-affiliated, Level I trauma center with dedicated 20-bed neuroscience intensive care unit. We included 43 consecutive sTBI patients who required MMM to guide clinical care based on institutional protocol and had a four-lumen bolt placed to measure intracranial pressure, brain tissue oxygen, regional cerebral blood flow, brain temperature, and intracranial electroencephalography.
Results: sTBI patients were aged 41.6 ± 17.5 years (mean ± SD) and 84% were men. MMM devices were placed at a median of 12.5 h (interquartile range [IQR] 9.0-21.4 h) after injury and in non-dominant frontal lobe in 72.1% of cases. Monitoring was conducted for a median of 97.1 h (IQR 46.9-124.6 h) per patient. While minor hemorrhage, pneumocephalus, or small bone chips were common, only one (2.4%) patient experienced significant hemorrhage related to device placement. Radiographically, device malpositioning was noted in 13.9% of patients. Inadvertent device discontinuation occurred for at least one device in 58% of patients and was significantly associated with the frequency of travel for procedures or imaging. Devices remained in place for > 80% of the total monitoring period and generated usable data > 50% of that time.
Conclusions: A standardized, bedside single burr hole approach to MMM was safe. Despite some probe-specific recording limitations, MMM provided real-time measurements of intracranial pressure, oxygenation, regional cerebral blood flow, brain temperature, and function.
Keywords: Intracranial pressure; Multimodality monitoring; Neurocritical care; Neuromonitoring; PbtO2; Traumatic brain injury.