Brain hypoxia and metabolic crisis are common in patients with acute brain injury despite a normal intracranial pressure

Anton Lund; Anna Forsberg Madsen; Tenna Capion; Helene Ravnholt Jensen; Axel Forsse; John Hauerberg; Sigurður Þor Sigurðsson; Tiit Illimar Mathiesen; Kirsten Møller; Markus Harboe Olsen

doi:10.1038/s41598-024-75129-2

Brain hypoxia and metabolic crisis are common in patients with acute brain injury despite a normal intracranial pressure

Anton Lund^*, Anna Forsberg Madsen, Tenna Capion, Helene Ravnholt Jensen, Axel Forsse, John Hauerberg, Sigurður Þor Sigurðsson, Tiit Illimar Mathiesen, Kirsten Møller, Markus Harboe Olsen

^*Corresponding author for this work

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Abstract

Patients with acute brain injury are vulnerable to secondary deterioration, which may go undetected by traditional monitoring. However, multimodal neuromonitoring of brain tissue oxygen tension (PbtO₂) and energy metabolism may be able to detect such episodes. We report a retrospective, observational study of 94 patients with aneurysmal subarachnoid haemorrhage (SAH) or traumatic brain injury (TBI) who underwent multimodal neuromonitoring during admission. We examined the co-occurrence of pathological neuromonitoring values: elevated intracranial pressure (ICP, > 20 mmHg), inadequate cerebral perfusion pressure (CPP, < 60 mmHg), brain hypoxia (PbtO₂ < 20 mmHg), and metabolic crisis (lactate/pyruvate ratio > 40 and a glucose level < 0.2 mmol/L in cerebral microdialysate). Mixed effects linear regression demonstrated significant associations between abnormal ICP/CPP, cerebral hypoxia and metabolic crisis. However, brain hypoxia occurred in 40% and 31% of observations in patients with SAH and TBI, respectively, despite normal concurrent values of ICP. Similarly, metabolic crisis was observed in 8% and 16% of measurements for SAH and TBI, respectively, despite a normal ICP. The pattern was identical for CPP. In conclusion, although all neuromonitoring variables are interrelated, brain hypoxia and metabolic crisis are common despite an absence of abnormalities in conventional monitoring. Multimodal neuromonitoring may help identify such episodes and guide individualised treatment.

Original language	English
Article number	23828
Journal	Scientific Reports
Volume	14
Number of pages	12
ISSN	2045-2322
DOIs	https://doi.org/10.1038/s41598-024-75129-2
Publication status	Published - 2024

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

Keywords

Brain hypoxia
Energy Metabolism
Intracranial hypertension
Intracranial pressure
Microdialysis
Oxygen
Subarachnoid hemorrhage
Traumatic brain Injury

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Brain hypoxia and metabolic crisis are common in patients with acute brain injury despite a normal intracranial pressure. / Lund, Anton; Madsen, Anna Forsberg; Capion, Tenna; Jensen, Helene Ravnholt; Forsse, Axel; Hauerberg, John; Sigurðsson, Sigurður Þor; Mathiesen, Tiit Illimar ; Møller, Kirsten; Olsen, Markus Harboe.

In: Scientific Reports, Vol. 14, 23828, 2024.

Research output: Contribution to journal › Journal article › Research › peer-review

Lund, Anton ; Madsen, Anna Forsberg ; Capion, Tenna ; Jensen, Helene Ravnholt ; Forsse, Axel ; Hauerberg, John ; Sigurðsson, Sigurður Þor ; Mathiesen, Tiit Illimar ; Møller, Kirsten ; Olsen, Markus Harboe. / Brain hypoxia and metabolic crisis are common in patients with acute brain injury despite a normal intracranial pressure. In: Scientific Reports. 2024 ; Vol. 14.

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abstract = "Patients with acute brain injury are vulnerable to secondary deterioration, which may go undetected by traditional monitoring. However, multimodal neuromonitoring of brain tissue oxygen tension (PbtO2) and energy metabolism may be able to detect such episodes. We report a retrospective, observational study of 94 patients with aneurysmal subarachnoid haemorrhage (SAH) or traumatic brain injury (TBI) who underwent multimodal neuromonitoring during admission. We examined the co-occurrence of pathological neuromonitoring values: elevated intracranial pressure (ICP, > 20 mmHg), inadequate cerebral perfusion pressure (CPP, < 60 mmHg), brain hypoxia (PbtO2 < 20 mmHg), and metabolic crisis (lactate/pyruvate ratio > 40 and a glucose level < 0.2 mmol/L in cerebral microdialysate). Mixed effects linear regression demonstrated significant associations between abnormal ICP/CPP, cerebral hypoxia and metabolic crisis. However, brain hypoxia occurred in 40% and 31% of observations in patients with SAH and TBI, respectively, despite normal concurrent values of ICP. Similarly, metabolic crisis was observed in 8% and 16% of measurements for SAH and TBI, respectively, despite a normal ICP. The pattern was identical for CPP. In conclusion, although all neuromonitoring variables are interrelated, brain hypoxia and metabolic crisis are common despite an absence of abnormalities in conventional monitoring. Multimodal neuromonitoring may help identify such episodes and guide individualised treatment.",

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AU - Madsen, Anna Forsberg

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AU - Forsse, Axel

AU - Hauerberg, John

AU - Sigurðsson, Sigurður Þor

AU - Mathiesen, Tiit Illimar

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AU - Olsen, Markus Harboe

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AB - Patients with acute brain injury are vulnerable to secondary deterioration, which may go undetected by traditional monitoring. However, multimodal neuromonitoring of brain tissue oxygen tension (PbtO2) and energy metabolism may be able to detect such episodes. We report a retrospective, observational study of 94 patients with aneurysmal subarachnoid haemorrhage (SAH) or traumatic brain injury (TBI) who underwent multimodal neuromonitoring during admission. We examined the co-occurrence of pathological neuromonitoring values: elevated intracranial pressure (ICP, > 20 mmHg), inadequate cerebral perfusion pressure (CPP, < 60 mmHg), brain hypoxia (PbtO2 < 20 mmHg), and metabolic crisis (lactate/pyruvate ratio > 40 and a glucose level < 0.2 mmol/L in cerebral microdialysate). Mixed effects linear regression demonstrated significant associations between abnormal ICP/CPP, cerebral hypoxia and metabolic crisis. However, brain hypoxia occurred in 40% and 31% of observations in patients with SAH and TBI, respectively, despite normal concurrent values of ICP. Similarly, metabolic crisis was observed in 8% and 16% of measurements for SAH and TBI, respectively, despite a normal ICP. The pattern was identical for CPP. In conclusion, although all neuromonitoring variables are interrelated, brain hypoxia and metabolic crisis are common despite an absence of abnormalities in conventional monitoring. Multimodal neuromonitoring may help identify such episodes and guide individualised treatment.

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