Risk Factors for Postoperative Delirium after Cardiac Surgery

Citation: Matsuura Y, Kamidaira M, Tamura A (2018) Risk Factors for Postoperative Delirium after Cardiac Surgery. Int Arch Nurs Health Care 4:103. doi.org/10.23937/2469-5823/15100103 Accepted: October 23, 2018: Published: October 25, 2018 Copyright: © 2018 Matsuura Y, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.


Introduction
Delirium is a common clinical syndrome characterized by deviations of consciousness, cognitive function, Tools for diagnosing delirium include the confusion assessment method for the ICU (CAM-ICU) and intensive care delirium screening checklist (ICDSC).These tools are useful for diagnosis [18,19].However, it is difficult to assess delirium using these tools in patients who cannot communicate because of sedation and intubation.Furthermore, it will also be difficult for medical professionals to predict and prevent delirium using these tools.Therefore, this study aimed to reveal the risk factors for postoperative delirium based on general characteristics such as circulatory dynamics in patients admitted to the ICU after cardiac surgery.

Study design
Retrospective cohort study.

Patients' selection
Patients who underwent cardiac surgery between January 1, 2014, and March 31, 2016, participated in this study.We excluded patients who underwent re-intubation or underwent tracheotomy because of prolonged ventilator use.

Delirium assessment
Trained nurses assessed postoperative delirium using ICDSC from immediately after extubation to 2 days after extubation.The assessment was performed every 8 h and when the patients' condition varied.Moreover, postoperative delirium was defined as a patient with ICDSC score ≥ 4, or a patient diagnosed with delirium by a psychiatrist.

Data collection
Research variables were selected from those identified in previous studies and those typically monitored by nurses and divided into four categories, namely, preoperative, intraoperative, postoperative, and post-extubation factors.All data were acquired from the patients' medical records.Preoperative factors included the patients' medical histories (diabetes, hypertension, hypercholesterolemia, cerebral vascular disease, dementia, and atrial fibrillation [AF]) and living environment.In addition, the following variables were selected as preoperative factors: age, sex, body mass index, ejection fraction, alcohol use, Brinkman's index, and residential status.The intraoperative variables include surgical time, type of surgery, in/out balance during the surgery, cardiopulmonary bypass time, blood loss, and emergency operation.Postoperative factors were defined as those evaluated immediately after ICU admission following surgery, and the following variables were assessed: cardiac index, systemic vascular resistance index (SVRI), and central venous pressure (CVP) measured using a pulmonary artery catheter (Swan-Ganz thermodilution catheter, Edwards, USA); pH, partial pressure of arterial oxygen (PaO 2 ), partial pressure of arterial car-bon dioxide (PaCO 2 ), and potassium measured via blood gas analysis; doses of propofol and fentanyl; continuous hemodiafiltration/hemodialysis (CHD); and family visitation.Moreover, the post-extubation variables, which were monitored immediately after extubation, were respiratory time and noninvasive positive pressure respirator (NPPV), in addition to factor assessed immediately after surgery.We performed the assessment following extubation and change of the reservoir or oxygen mask.The study was approved by the ethics review board of Rinku General Medical Center.

Data analysis
The primary outcome was the occurrence of delirium, and classified the patient according to whether the presence of delirium or absence.In the statistics analysis, we first performed univariate logistic regression analysis among the four categories.The significance level was p < 0.1.Concerning type of surgery, Pearson's chi-square test was used.Data were presented as the mean ± standard deviation or number (percent).Second, multivariate logistic regression analysis was used to analyze factors that satisfied the statistical significance level in the previous analysis to estimate odd ratios (ORs) and 95% confidence intervals [CIs].The significance level was p < 0.05.Finally, we analyzed sensitivity and specificity by calculating the area under the curve (AUC) from the obtained receiver operating characteristic curve (ROC).JMP Pro Version 13 (SAS Institute Inc., USA) was used for all statistical analyses.

Results
Of 149 patients included in the study, 40 (26.8%)developed delirium with 2 days of ICU admission.

Multivariate logistic regression analyses
Table 5 shows the result of multivariate logistic regression, in which the 8 factors (age, AF, surgical time, balance during operation, immediately postoperative cardiac index, postoperative potassium levels, post-extubation SVRI, and respiratory time) associated with statistical correlation was not observed (r = 0.08, p = 0.334).Therefore, these two factors were included in the multivariate logistic regression models.

In/out balance during the surgery
Invasive reactions caused by the surgery include enhanced vascular permeability, resulting in the movement of extracellular fluid to the third space; thus, patients undergoing cardiac surgery require large quantities of transfused during the operation to maintain the circulating blood volume.Consequently, an increased in/out balance during surgery may be caused gas exchange disturbances, electrolyte balance disturbances, and low output.The in/out balance during surgery is possibly associated with postoperative delirium [34].Smelter, et al. reported that the in/out balance during surgery is an independent risk factor for delirium in patients who underwent cardiac surgery, (OR = 2.77 [95% CI = 1.51-5.11],p = 0.001) [35], in line with our findings.

Postoperative potassium
In prior research, Jang reported that a decreased potassium concentration is independently associated with delirium in patients admitted to rehabilitation wards (OR = 0.144 [95% CI = 0.064-0.327],p < 0.001) [36].In addition, disturbance of the balance of electrolytes such as sodium and potassium or glucose increases the risk of delirium after surgery [37,38].In a prospective cohort study of patients after cardiac surgery, Zhang, et al. identified electrolyte disturbance as a risk factor for delirium for patients who underwent CABG [25].In research about the correlation between delirium and potassium levels, increased potassium concentrations were positively correlated with delirium [39].However, the mechanism by which electrolyte disturbances, in particular those of potassium, lead to delirium remains unclear.In addition, only a few reports have identified a link between potassium disturbances and delirium.It is possible that decreases of the potassium concentration prolong the action potential duration, leading to overexcited neurons and delirium.

SVRI after extubation
The causes of increased SVRI include hypertension, peripheral vascular constriction, shock, and low output.Immediately after extubation, factors linked to respiration and hemodynamics, such as the cardiac index, CVP, and PaO 2 , were not associated with delirium.
Conversely, it is suggested that variation of hemodynamic variables such as systemic vascular resistance and heart rate are caused by stimulation to cardiovascular system during intubation [40,41].Additionally, the increase of SVRI may have been caused by stimulation associated with extubation.Cardiovascular stimulation enhances sympathetic nerve activity, resulting in elevated adrenaline and dopamine release [42].These changes could explain the association of SVRI with delirium.obtained via multivariate logistic regression, was 0.809.Consequently, the sensitivity and specificity were 82.9% and 67.0%, respectively.

Discussion & Conclusion Preoperative atrial fibrillation
Preoperative AF may contribute to postoperative delirium by inducing cerebral emboli, brain hypoperfusion, and periods of atrial hypotension [20,21].Conversely, hypoperfusion increases the probability of cerebral hypoxia, which reduces the synthesis of acetyl coenzyme A, glutamate, and acetylcholine in the citric acid cycle.Decreased brain cholinergic and glutaminergic activity could be responsible for delirium [22].Cholinergic neurons, which inhibit the excitation of neurons extensively, projected into a large of the cerebral cortex and hippocampus.Furthermore, cholinergic neurons in the pedunculopontine tegmental nucleus and laterodorsal tegmental nucleus project to the thalamus, which is associated with the adjustment of arousal [23,24].

Surgical time
Afonso, et al. reported in a prospective observation study that assessed delirium using RASS or CAM-ICU for patients after cardiac surgery that the duration of surgery was independently associated with delirium (OR = 1.3 [95% CI = 1.1-1.5],p = 0.0002) [27].Prolonged surgical times may lead to increased invasion and immune reactions.The levels of inflammatory cytokines that control biological defense reactions, such as interleukin (IL)-6, IL-8, and tumor necrosis factor (TNF), are increased by invasive treatment such as surgery.These reactions can act individually or as part of a network system [28].These pro-inflammatory cytokines act on the brain via a fast neural pathway and a slower humoral pathway [29].Delirium can possibly occur because of abnormal neurotransmitter production and balance [30].An elevated cerebrospinal fluid IL-6 concentration is observed in patients undergoing cardiac surgery [31].Furthermore, a positive correlation was noted between inflammatory cytokine levels and surgical time [32].In previous studies of the relationships between delirium and inflammatory cytokines, the IL-6 concentration was positively correlated with the Memorial Delirium Assessment Scale (MDAS), which assesses the severity of delirium (r = 0.449, p < 0.001) [33].In addition, Rooij, et al. reported associations of IL-6 (OR = 2.39 [95% CI = We identified five factors that were associated with delirium following cardiac surgery.It is important that medical professionals, especially nurses, gather preoperative patient information before ICU admission and share intraoperative information with the surgical staff.During postoperative management, potassium levels must be measured at appropriate times such as when increasing or decreasing diuresis and when electrocardiographic abnormalities such as arrhythmia are observed, and adequate corrective measures must be employed.Concerning SVRI, sympathetic hyperactivity caused by acute stress and invasion should be reduced.It may be possible to prevent delirium by preventing these changes.
In conclusion, we identified significant associations of postoperative delirium with AF, surgical time, in/out balance during the surgery, postoperative potassium levels, and post-extubation SVRI.These results suggest that medical professionals, especially nurses, can predict and prevent delirium by observing and correcting these risk factors.In addition, to prevent postoperative delirium, nurses have to need to gather preoperative and intraoperative patient information, manage appropriate postoperative potassium levels, and provide to care as reduce SVRI.

Limitations
This study had several limitations.First, we could not completely exclude the effect of bias because this study analyzed a retrospective cohort.In particular, we could not assess the Acute Physiology and Chronic Health Evaluation score (APACH), which evaluates the severity of illness in patients admitted to the ICU.Second, because the study was conducted at a single institute, there may have been bias regarding intraoperative factors and intubation times.Third, we did not use CAM-ICU because of many of the patients were very severe and sedated by RASS -3 to -4 not to be burden on hemodynamics.However duration of mechanical ventilation have been too longer by deep sedation.We needed to consider that sedation levels and assessment of delirium during sedation.Fourth, the specificity was low in this study, indicating that the occurrence of delirium was overestimated.As an explanation, skill in evaluating delirium possibly differed among nurses because the work experience of the nursing staff ranged 1-20 years.Finally, we could not assess the subtype of delirium.Risk factors for delirium possibly differ by subtype.These issues must be analyzed in the future.