Cerebrovascular Reserve Capacity as a Predictor of Postoperative Delirium: A Pilot Study

Introduction: Postoperative delirium is a common complication after cardiac surgery with cardiopulmonary bypass (CPB). Compromised regulation of the cerebral circulation may be a predisposing factor for delirium. However, the potential relationship between cerebrovascular reserve capacity and delirium is unknown. The aim of this study was to investigate if impaired cerebrovascular reserve capacity was associated with postoperative delirium.Methods: Forty-two patients scheduled for cardiac surgery with CPB were recruited consecutively. All patients underwent preoperative transcranial Doppler (TCD) ultrasound with calculation of breath-hold index (BHI). BHI < 0.69 indicated impaired cerebrovascular reserve capacity. In addition, patients were examined with preoperative neuropsychological tests such as MMSE (Mini Mental State Examination) and AQT (A Quick Test of cognitive speed). Postoperative delirium was assessed using Nursing Delirium Screening Scale (Nu-DESC) in which a score of ≥2 was considered as delirium.Results: Six patients (14%) scored high for postoperative delirium and all demonstrated impaired preoperative cerebrovascular reserve capacity. Median (25th−75th percentile) BHI in patients with postoperative delirium was significantly lower compared to the non-delirium group [0.26 (−0.08–0.44) vs. 0.83 (0.57–1.08), p = 0.002]. Preoperative MMSE score was lower in patients who developed postoperative delirium (median, 25th−75th percentile; 26.5, 24–28 vs. 28.5, 27–29, p = 0.024). Similarly, patients with postoperative delirium also displayed a slower performance during the preoperative cognitive speed test AQT color and form (mean ± SD; 85.8 s ± 19.3 vs. 69.6 s ± 15.8, p = 0.043).Conclusion: The present findings suggest that an extended preoperative ultrasound protocol with TCD evaluation of cerebrovascular reserve capacity and neuropsychological tests may be valuable in identifying patients with increased risk of developing delirium after cardiac surgery.

Abstract WP171: Are We Correctly Measuring Cerebrovascular Reserve Capacity: A Study on Multiple Sequential Post-Acetazolamide Injection Cerebral Blood Flow Measurements Using Arterial Spin Labeling in a Moyamoya Patient Population?

Introduction: Cerebrovascular reserve capacity (CVRC), an important predictor and prognostic factor for patients with moyamoya disease (MMD), can be derived by measuring cerebral blood flow (CBF) before and after administration of acetazolamide (ACZ). Commonly, a single CBF measurement is performed after ACZ injection at a time point varying between 5 to 20 minutes, whereas the dynamic temporal response using sequential CBF measurements has not been studied extensively. Furthermore, current literature reports group averaged CVRCs with high standard deviations indicating a patient-specific CVRC is spread over a wide range of values. The aim of this study was to assess the temporal dynamic response of CBF and derived CVRC during the ACZ challenge using arterial spin labeling in patients with MMD. Methods: Ten patients with MMD were included before and/or after revascularisation surgery and examined on a 3T MR scanner. CBF maps, based on 3D-pseudocontineous arterial spin labeling, were acquired before and 5, 15 and 25 minutes after an i.v. ACZ injection and registered to each patient’s 3D-T1-weighted image. A vascular territory template was spatially normalised to patient-specific space, defined by the 3D-T1-weighted image, including bilateral ACA, MCA and PCA. A post label delay of 2500 ms and large regions-of-interests were used to account for possible arterial transit time artefacts. CVRC was calculated as CBF augmentation post-ACZ injection relative to baseline. Results: A total of sixteen examinations were analysed. Average peak CBF augmentation occurred at 5 min post-ACZ injection, successively decreasing at 15 - and 25 min post-ACZ injection . CVRC followed a similar pattern. Peak CBF augmentation mostly occurred at 5 min for all vascular regions (frequency distribution 5 min: 64 %, 15 min: 23 %, 25 min: 13 %). Average ratio between CVRC calculated using 15 min CBF augmentation and CVRC using true peak CBF augmentation (5, 15 or 25 min) was 0.80 to 0.90 for all vascular regions. Conclusion: CVRC assessed using 15 min as a single post-ACZ injections time point may underestimate CVRC in average by 10 % to 20 % because of individual temporal patient response. The use of multiple post-injection time points is warranted.

Evaluation of Cerebrovascular Reserve Capacity in Symptomatic and Asymptomatic Internal Carotid Stenosis With Transcranial Doppler

Cerebrovascular reserve capacity (CVRC) is a hemodynamic parameter indicating the brain’s capacity to overcome ischemia. Transcranial Doppler (TCD) is a useful device to measure CVRC, with high availability and low cost. The aim of the study is to investigate asymptomatic patients with affected CVRC, who could benefit from CEA. One hundred and forty five consecutive patients (60 symptomatic and 65 asymptomatic), with internal carotid artery (ICA) stenosis >70 % and 20 healthy individuals without internal carotid stenosis underwent TCD-inhalation CO2 tests in order to measure the CVRC in both hemispheres of each patient. CVRC between asymptomatic and symptomatic patients were significantly different in the 95 % confidence interval (CI) as well as the mean CVRC value in contralateral carotid artery. The correlation between CVRC in the carotid artery with stenosis and the existence of symptoms is significant at the 0.01 level. Additionally, symptoms and CVRC of the contralateral carotid artery are also significant at the 0.05 level and CVRC values in asymptomatic patients and the control group at the 0.01 level. None of the covariant factors, except the age, are significantly correlated with CRVC. CVRC could be an early mark-index to evaluate the risk of stroke in this group of patients and to design their therapeutic approach.