BACKGROUND: Near infrared spectroscopy (NIRS) is widely used to monitor regional cerebral tissue oxygenation (rScO2). We compared rScO2 values during cardiac surgery in patients with or without new cerebral ischaemic lesions on diffusion weighted magnetic resonance imaging (DWI). We hypothesised patients with new cerebral lesions would have impaired tissue oxygenation reflected in their rScO2 values.
METHODS: NIRS and DWI data were collected in 152 elective cardiac surgery patients. Absolute rScO2 values, duration of desaturation below thresholds (baseline, 10%, and 20%), and accumulated cerebral desaturation load were compared between patients with or without new cerebral lesions on DWI. Primary outcome was time below 10% from rScO2 baseline.
RESULTS: The time below 10% from rScO2 baseline was significantly longer for patients with new cerebral lesions than for patients without [median (inter-quartile range): 11.0 (0.4; 37.5) min vs 1.8 inter-quartile range: (0.05; 20.9) min, P=0.02]. Furthermore, they had a higher accumulated desaturation load below baseline (P=0.02) and 10% below baseline (P=0.02). Finally, their absolute minimum rScO2 value was significantly lower (P=0.01). However, the frequency of patients with desaturation below 10% and 20% was comparable between patients with and without new cerebral lesions. Receiver-operating characteristic curve analysis did not identify a clear-cut critical threshold among the investigated rScO2 variables.
CONCLUSIONS: Use of NIRS identified significant group differences in rScO2 values between patients with or without new ischaemic lesions. However, a critical threshold could not be identified because of a high variation in NIRS values across both groups.
CLINICAL TRIAL REGISTRATION: NCT 02185885.
|Journal||British Journal of Anaesthesia|
|Number of pages||9|
|Publication status||Published - Dec 2018|
- Brain Ischemia/diagnostic imaging
- Cardiac Surgical Procedures/adverse effects
- Diffusion Magnetic Resonance Imaging/methods
- Middle Aged
- Postoperative Complications/diagnostic imaging
- Spectroscopy, Near-Infrared