Pupillometry and Somatosensory Evoked Potential in Cardiac Arrest

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Background: Anoxic/ischemic brain injury is the most common cause of death among comatose survivors of cardiac arrest (CA). The neurological prognosis of these patients is assessed using the multimodal prognostication model, which includes several methods. Somatosensory Evoked Potentials (SSEP) and ...

Background: Anoxic/ischemic brain injury is the most common cause of death among comatose survivors of cardiac arrest (CA). The neurological prognosis of these patients is assessed using the multimodal prognostication model, which includes several methods. Somatosensory Evoked Potentials (SSEP) and Pupillary Light Reflex (PLR) are key methods for prognostication, as both have low false positive rates. Though they assess different functions of the brain, they should both be sensitive to severe anoxic/ischemic injury from cardiac arrest. The primary aim of the study is to describe the association between PLR quantified as the Neurological Pupil index (NPi) and bilateral absence of the cortical SSEP signal in patients remaining comatose after cardiac arrest. The secondary aim is to define a NPi cut-off value that renders a false positive rate (FPR) of less than 5% for a bilaterally absent SSEP response. Methods: An explorative, prospective, observational, cohort of 50 adult (>18 years) comatose survivors of CA admitted to the intensive care unit at Sahlgrenska University Hospital. The results from routine SSEP performed > 48 hours after CA and PLR assessed using NPi calculated by automated pupillometry are compared. Neurological outcome at hospital discharge is classified using the modified Rankin Scale (mRS), where poor neurological outcome is defined by mRS 4-6. Statistical analysis: In order to find a significant difference in NPi of 0.7 with a power of 95% with two-sided Fisher's non-parametric permutation test, 45 patients are needed assuming allocation 2:1 and unequal SD in the groups 0.37 and 0.67, calculated from the IQR above, and significance level 0.01. To account for uncertainty within these estimates, we aim to include 50 patients with a complete protocol. A receiver operating characteristics curve (ROC-curve) will be used to find the NPi cut-off values resulting in a false positive rate of less than 5% for absent SSEP to predict poor neurological outcome. NPi values below the cut-off i.e., values consistent with poor outcome, will be used to calculate the predictive value for SSEP at its given prevalence. Fisher's exact test will be used to assess correlation between NPi and SSEP. Discussion: A clear correlation between the absence of cortical SSEP response and NPi values will permit application of the adequate method to the individual patient. This may also enable rationalisation of the multimodal assessment of the neurological prognosistication using a smaller number of methods. In clinical practice, this may render the prognostication of neurological function of comatose patients after cardiac arrest more accurate, as well as more cost- and time efficient.

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