Update of the European Society of Anaesthesiology and Intensive Care Medicine evidence-based and consensus-based guideline on postoperative delirium in adult patients

Postoperative delirium (POD) remains a common, dangerous and resource-consuming adverse event but is often preventable. The whole peri-operative team can play a key role in its management. This update to the 2017 ESAIC Guideline on the prevention of POD is evidence-based and consensus-based and considers the literature between 01 April 2015, and 28 February 2022. The search terms of the broad literature search were identical to those used in the first version of the guideline published in 2017. POD was defined in accordance with the DSM-5 criteria. POD had to be measured with a validated POD screening tool, at least once per day for at least 3 days starting in the recovery room or postanaesthesia care unit on the day of surgery or, at latest, on postoperative day 1. Recent literature confirmed the pathogenic role of surgery-induced inflammation, and this concept reinforces the positive role of multicomponent strategies aimed to reduce the surgical stress response. Although some putative precipitating risk factors are not modifiable (length of surgery, surgical site), others (such as depth of anaesthesia, appropriate analgesia and haemodynamic stability) are under the control of the anaesthesiologists. Multicomponent preoperative, intra-operative and postoperative preventive measures showed potential to reduce the incidence and duration of POD, confirming the pivotal role of a comprehensive and team-based approach to improve patients’ clinical and functional status.


Introduction
Postoperative delirium (POD) is widely accepted as a topic of important medical and public health relevance.It not only impacts on the health, the well being and the life perspective of those who experience this adverse postoperative complication, but it often has severe consequences for the families, the healthcare system and the society as a whole.In recent years, awareness of its pathophysiological pathways, its clinical manifestations and its prevention has increased.POD develops when anaesthesia-related and surgery-related precipitating factors interact with a patient's predisposing vulnerability to delirium.Because of this, assessing the preoperative physical, cognitive, mental and social status of a patient scheduled for surgery is essential to quantify a patient's overall risk for POD and to tailor the optimal preoperative, intra-operative and postoperative treatment.
The aim of this updated guideline on the prevention and management of POD was to summarise the evidence in adults published since the end of the last literature search in March 2015. 1 The suggestions and recommendations on the prevention and treatment and -if requiredaftercare of POD are based on those of the first version of the guideline and on the new evidence.
Because of the large amount of new literature, the working group split up into six subgroups.

General methods General approach for all working groups
The current broad literature search followed the same search strategy as outlined in the previous version of the guideline. 1The new literature search encompassed the periods from 01 April 2015, until 30 November 2020 (search 1) and from 01 December 2020 until 28 February 2022 (search 2).
Identical search terms as for the previous version of this guideline were used 1 : (delirium OR confusion OR confusion Ã OR disorientation OR bewilderment) AND (postoperative OR postoperative period OR postoperative period Ã OR postsurgical OR postsurgical OR anesthesia recovery period OR anesthesia recovery period Ã OR post anesthesia).
The 2291 (search 1) and 979 (search 2) references retrieved were screened using the following exclusion criteria ('screening step 1'): case reports, case series reports, comments, letters to the editor, editorials, errata, replies, study protocols, non-English publications, studies in paediatric patients or in patients less than 18 years, POD outcome not clearly defined, nonsurgical patients, or mixed surgical and nonsurgical patients with no separate presentation of surgical patients results, POD summarised among other postoperative complications such as 'neurological complications' or combinations of POD with postoperative cognitive dysfunction (POCD).
Definition of POD: For recommendations and suggestions, the Task Force and the Advisory Board agreed to include as underlying evidence, solely studies which used a validated POD screening tool (see Supplement Table S2, http://links.lww.com/EJA/A851), at least once per day (preferably two or three times per day) for at least 3 days, starting in the recovery room or in the PACU on the day of surgery or latest on postoperative day 1.It was further agreed that even when systematic reviews and metaanalyses existed, single studies in these already published systematic reviews and meta-analyses had to be screened again for the above-mentioned POD inclusion criteria.Single studies fulfilling the above-mentioned POD definition were used for the update of this guideline.This criterion was required for all kinds of studies including observational studies.
The detailed literature reviews and eventual specific literature searches of the six working groups are listed in the Supplement, http://links.lww.com/EJA/A851.The presentation of recommendation follows GRADE (Grading of Recommendations, Assessment, Development and Evaluations) methodology. 2The GRADE approach often involves numbers and letters being used to express the quality of evidence and strength of a recommendation.These approaches may lead to semantic confusion. 3Therefore, we decided to use the full-text description of quality of evidence and strength of recommendation according to the GRADE handbook. 4sults and recommendations Chapter 1: Basic Science Authors: Colm Cunningham, Robert D. Sanders, Bjoern Weiss The Basic Science working group provided -based on the results of the above-mentioned broad literature search -a narrative review of the research carried out in this field since 2015.After extensive discussion, the task force unanimously agreed that no explicit recommendations should be made in this section of the updated guideline.Rather, the areas that need further investigation and the weaknesses of the existing evidence should be highlighted to encourage more thorough research into the mechanisms underlying the emergence, existing risk factors, development and treatment of POD.Research on the pathophysiology of POD using animal models has been dominated by a dual focus on the deleterious effects of anaesthesia and those of inflammation.Although there are studies suggesting deleterious impacts of anaesthesia alone on hyperphosphorylation of Tau and other pathological features in animals, it is also the case that normal working memory and attention return within 1 to 2 h after general anaesthesia in humans. 5Although some complex interactions between anaesthetics and inflammation may occur, research published in the last 7 years (i.e. this review period) has shown an increasing focus on inflammation.The main animal models employed by researchers in this research period are laparotomy and tibial fracture (with occasional use of hepatolobectomy and cardiopulmonary bypass).These surgical interventions produce acute tissue injury and, therefore, cause the production/release of damage-associated molecular patterns (DAMPs) such as S100 proteins, nucleic acids and High Mobility Group Box-1 (HMGB1), which are analogous to, and activate the same receptors as, pathogenassociated molecular pattern (PAMPs), such as bacterial lipopolysaccharide (LPS) -also known as 'endotoxin'and pathogen nucleic acids that arise during infection.These DAMPs activate various inflammatory receptors to induce acute inflammatory responses in the periphery and also trigger some neuroinflammatory changes.The changes most commonly described in models of POD include circulating cytokines, induction of inflammatory transcripts in the brain, blood brain barrier impairments and changes in the morphology or number of microglial cells (brain resident macrophage population) and astrocytes.These inflammatory changes are now quite well established in the POD field, as they have been in the infection-induced delirium field. 6,7There have now been studies blocking individual cytokines, 8,9 depleting microglia 10 or inhibiting microglia/macrophages/monocytes 11 or blocking inflammatory pathways by exploiting natural antiinflammatory pathways, such as restoring levels of acetylcholine 12 and increasing resolvins, 13 which are endogenous lipid mediators of inflammatory resolution.Other lipidderived mediators, prostaglandins, blocked by cyclooxygenase inhibitors, have also been shown to contribute to neurophysiological and behavioural features of delirium, albeit in LPS models. 14,15Most of these anti-inflammatory treatments reduce the intensity or duration of inflammation not only in the brain but also in the periphery, although increased blood-CSF barrier permeability may facilitate closer interactions between peripheral and central processes. 16Most of the studies above report positive impacts on 'POD-like' changes in these animals.
However, these findings come with significant caveats.The nature of cognitive characterisation of animals in the postsurgical phase remains a weakness in this literature.It is essential to establish cognitive and behavioural tasks that inform on dysfunction in cognitive domains relevant to clinical delirium, but many studies rely on measures for which the level of disruption may be disproportionately weighted by typical responses to surgical trauma or illness, like anxiety, inactivity and suppression of appetite, which are significant confounders of many of the cognitive tasks used in this field.Inattention is a core feature of delirium and several studies, using tasks for memory consolidation, locomotor activity/exploration, food retrieval and novel object recognition, have inappropriately used the terms attention/inattention to describe tasks despite not measuring attention.There has been a tendency to relabel the behavioural measure actually recorded using terms that allow it to conform with criteria for delirium.Thus, there is a strong imperative to measure specific cognitive features, using tasks specifically designed for that feature and to report data using precise terminology appropriate to the task actually undertaken.
Independent of behavioural assessment, measures of cellular and molecular changes that occur in the postsurgical period provide relevant information, although it remains important to distinguish between studies that demonstrate causality with respect to POD measures and those that merely show associations.0][21] Growth factors including brain-derived neurotrophic factor (BDNF), netrin1 and mesencephalic astrocyte-derived neurotrophic factor (MANF), [22][23][24][25] as well as disrupted energy metabolism/ regulation, 19,26,27 mitochondrial dysfunction and oxidative stress 23,28 have all been shown to occur with surgery.Many of these are associations only but interventions targeting some of these dysregulated pathways have been reported to alter behavioural outcomes.
To summarise, the field is still in its infancy and further research is urgently required, but the best current information would support the idea that acute inflammation is a better predictor of postoperative cognitive changes than is anaesthesia.More precise cognitive testing will be required to assess whether the observed cognitive changes represent a delirium-like syndrome.As most studies have used young healthy animals, it is not intuitive that the changes observed in those studies with young healthy animals would reach the severity of delirium, which is more often associated with patients who are older, frailer or suffer from underlying dementia.Studies using older animals or with models of underlying degenerative disease have more often been performed in animals receiving bacterial LPS rather than surgery, 29,30 but similar studies are beginning to emerge in post-operative studies: with larger effects of tibial fracture described in animals with prior amyloid pathology 31 and significant effects of laparotomy in older animals. 32It will remain important to employ behavioural tasks that interrogate specific cognitive domains and to control for injuryassociated or illness-associated confounds.Finally, molecular findings from animal model studies will need to be validated in the relevant patient cohorts to examine the extent to which inflammatory 33 and brain injury markers 34 are associated with delirium and long-term outcomes.

Outlook
There is now reasonable evidence that peripheral inflammation and, in turn, neuroinflammation contribute to acute deficits resembling delirium.The data that anaesthetics do likewise are significantly weaker.The alpha-2 agonist sedative drug dexmedetomidine has shown promise, and basic evidence is emerging that it also acts in an anti-inflammatory manner.This requires confirmation in human studies.There remains relatively little exploration of the idea that anti-inflammatory approaches more broadly might be helpful in patients.Given the caution around use of NSAIDs in older patients, evidence for beneficial effects will have to be pursued in experimental medicine or clinical trials.One recent randomised controlled trial demonstrated that postoperative intravenous acetaminophen was effective in the prevention of delirium 35 ; however, it is already typically prescribed for its analgesic effects.Detailed collection of data informing on inflammatory, metabolic and hypoxic changes is required in the peri-operative setting to support adoption of new clinical strategies to mitigate POD.

Chapter 2: Risk Factors
Authors: Federico Bilotta, Ali Forookhi, Henrik Kehlet, Lior Mevorach, Stefano Romagnoli From the 1243 articles of the initial broad literature search (see Supplement Figure S2, http://links.lww.com/EJA/A851 for details), 484 articles identified POD risk factors. 36The Risk Factor working group adopted a broader POD definition than the above-mentioned POD definition (see Definition of POD in the general methods section).The minimum required screening duration was 24 h (and not 72 h) and all studies were included as long as they screened for POD, using a validated screening tool at least once during the 24 h following surgery.When applying these criteria, 196 articles remained.Sixty-eight out of the 196 articles were included in a quantitative synthesis (meta-analysis) based on the following criteria: standardised methodology for measurement; more than five studies conducted on the variables (Fig. S2, http:// links.lww.com/EJA/A851).

Meta-analyses
Based on a recent publication, 36 the following recommendations can be given: Of note, for individual POD prevention planning and prehabilitation, a geriatric assessment evaluating frailty, sensory impairment, malnutrition, polypharmacy, anaemia and other risk factors, including social risk factors is warranted (see the current evidence on geriatric assessment and multicomponent interventions in Chapter 4).Although the Mini-mental state Examination (MMSE) is often used in clinical research, its use in clinical practice is limited by copyright restrictions.Freely available alternatives are the Montreal Cognitive Assessment (MOCA), 37 the Mini-Cog test 38 and the Addenbrooke's Cognitive Examination -Revised (ACE-R) 39 or the Addenbrooke's Cognitive Examination III (ACE-III). 40though the cut-offs presented in Recommendation 2.1 imply risk escalates significantly at certain thresholds, it is important to recognise that risk entails a continuum of disease and that the risk factors above similarly represent a continuous risk factor.This means that as the risk factors scale (e.g.age increases), it is reasonable to estimate that, on average, risk of delirium also increases.Furthermore, risk factors may interact and even synergise.For example, the available evidence suggests increasing delirium risk after the age of 60 years old, however impaired cognitive function likely interacts, increasing delirium risk for a given age.
8][59][60] After excluding the study using clonidine as the comparator, 61 the effect in the cardiac surgery subgroup was no longer significant (Fig. 4, upper part).
The level of certainty of the evidence was initially high originating exclusively from RCTs.However, the evidence was downgraded by two levels due to inconsistency and indirectness (Supplement Table S4, http://links.lww.com/EJA/A851).
Update of the ESAIC 87  Our rationale not to suggest dexmedetomidine for the prevention of POD in general, despite its apparent positive effects in some of the studies, is based on these main reasons: the concern about cardiovascular side effects, the selectiveness of the study populations and the heterogeneity of treatment effect in available studies.Additionally, the aspect of a prophylactic use was considered important and the principle of 'first do no harm' followed.
In summary, there is a possibility that there is a patient group that may benefit from intra-operative and/or postoperative dexmedetomidine, but this specific group and details of intervention (timing and dosage) remain to be defined.As age is a risk factor for delirium, the desired effect is probably more likely to occur in older patients; however, the results of recent systematic reviews 62,63 assessing subgroups based on age are conflicting.
PICO 2 (preventive use of neuroleptics preoperatively, intra-operatively, or postoperatively vs. nonneuroleptics/placebo) There was one RCT that met the inclusion criteria.Khan et al. 64 included 135 patients undergoing thoracic surgery and infused a low dose of haloperidol (0.5 mg three times daily for a total of 11 doses) postoperatively.They found that low-dose haloperidol given postoperatively did not reduce the incidence of POD.
PICO 3 (preventive use of sleep medications preoperatively or postoperatively vs. no sleep medications/placebo) Three studies (two RCTs and one observational study) evaluated the effects of sleep medications, such as melatonin or ramelteon (a strong agonist of melatonin receptors) on POD prevention.Shi 65 administered melatonin (3 mg for 7 days, starting on the day of surgery) and compared it with a placebo, in a good-quality pilot RCT, in 288 patients who underwent percutaneous transluminal coronary intervention (PCI).The incidence of POD was significantly lower in the melatonin group than in the placebo group (27.0 vs. 39.6%, respectively, P ¼ 0.02).In a second RCT (also of good quality), 66 ramelteon (8 mg) or placebo was administered starting from the night prior to the surgery up to 8 days, in 120 patients who underwent elective pulmonary thromboendarterectomy, with no statistically significant differences in the two study arms (36% placebo vs. 32.2%ramelteon; relative risk (RR) 0.9, 95% CI, 0.5 to 1.4, P ¼ 0.656).Finally, Artemiou et al. 67 carried out an observational study in a group of 250 patients (good quality), administering 5 mg of melatonin from the day before surgery to postoperative day 3.The incidence of delirium was 8.4% in the melatonin group vs. 20.8% in the control group (P ¼ 0.001).

PICO 4 (preventive use of cholinesterase inhibitors preoperatively or postoperatively vs. no use of cholinesterase inhibitors)
One good-quality RCT 68 evaluated the effects of physostigmine (a bolus of 0.02 mg kg À1 body weight followed by 0.01 mg kg À1 body weight h À1 vs. placebo) for the prevention of POD in 261 patients who underwent elective liver surgery.The incidence of POD did not differ significantly between the physostigmine and placebo groups (20 vs. 15%; P ¼ 0.334).

PICO 6 (anaesthetic drugs: intravenous anaesthetics vs. inhalation anaesthetics)
Only one study met the inclusion criteria.Mei et al. 86 carried out a single-centre pilot RCT, including 209 patients aged at least 60 years old undergoing total hip/knee replacement, who were randomised to either a propofol or sevoflurane group.Days of POD per person were higher in the propofol (0.5 AE 0.8) anaesthesia group compared with the sevoflurane anaesthesia group (0.3 AE 0.5, P ¼ 0.049).

PICO 7 (anaesthetic drugs: ketamine intraoperatively or postoperatively vs. no ketamine)
One study met the inclusion criteria.Avidan et al. 87 carried out a good-quality RCT that enrolled 672 patients older than 60 years undergoing major cardiac or noncardiac surgery under general anaesthesia.Patients were randomised to one of the three groups: placebo (0.9% saline), low-dose ketamine (0.5 mg kg À1 ) or high-dose ketamine (1.0 mg kg À1 ) after induction of anaesthesia.
There was no difference in delirium incidence between PICO 8 (type of anaesthesia: regional anaesthesia vs. general anaesthesia) Seven studies met the inclusion criteria (six RCTs and one observational) with six out of seven studies showing no difference in the incidence of POD between regional anaesthesia and general anaesthesia.A RCT by Tang et al. 88 that aimed to compare the combined lumbar-sacral plexus block (CLSB) plus general anaesthesia with the unilateral spinal anaesthesia in 124 elderly patients undergoing hip fracture surgery, showed no significant differences in the incidence of POD (5.5 vs.

PICO 9 (surgery: minimally invasive surgery [except laparoscopy] vs. more invasive surgery [except laparotomy])
There were no studies on the effects of minimally invasive surgery that met the inclusion criteria for POD assessment.
PICO 10 (surgery: laparoscopy vs. laparotomy) One study met the inclusion criteria.In an observational study, Shin et al. 95 [105][106][107][108][109][110][111][112][113][114][115] As stated in the chapter on risk factors, the risk model for POD is composed of patients' underlying clinical and functional vulnerabilities (the so-called patientrelated 'predisposing' risk factors) and the surgeryrelated and anaesthesia-related ('precipitating') factors, such as induced inflammatory reaction, anatomical site, length and invasiveness of the procedure.Depending on the local organisation, the preoperative risk assessment is done by anaesthesiologists -independently if they have the legal responsibility, or other specialists might be involved, such as geriatricians or neurologists.
Various predisposing and precipitating factors are nonmodifiable (such as age, ASA physical status and surgical site).Interventions in single modifiable risk factors such as anaemia 120 or nutritional and hydration deficits 121 through targeted optimisation strategies showed mixed results in reducing the incidence of POD.Bundles of multicomponent interventions seem more effective in reducing the incidence of POD, both in surgical and nonsurgical hospitalised patients. 122This requires a valid picture of a patient's individual risk profile.Consequently, potentially modifiable predisposing vulnerabilities should be identified preoperatively, as a first step toward their evidence-based correction. 116The screening for risk factors may integrate routine data from the preoperative anaesthesia consultation (clinical history, medication intake, ASA physical status classification, etc.) and data deriving from more specific screenings such as Comprehensive Geriatric Assessment (CGA) tools (evaluation of cognitive, emotional, sensorial, nutritional and functional deficits, together with the need for family or social support 117 ).The effectiveness of this approach depends on the time interval available to implement prehabilitation measures and the urgency of the surgical treatment. 119Older adults with frailty and a low functional reserve because of chronic medical conditions particularly benefit from such efforts. 118e recommendation to share the information inside the team is based on the principle of good clinical practice that there should be a 'team-based approach'.In fact, many multicomponent interventions require close co-operation among the different team members, which is essentially linked to both a preoperative team-based discussion and agreement among the professionals involved in the realisation of such multicomponent measures.

Strength of recommendation
We do not suggest using biomarkers to identify patients at risk of POD.

Strength of recommendation
We recommend that preoperative anaesthesia consultation in older adults includes the screening for risk factors for POD and addresses patients' needs to optimise their preoperative status.

Low
Dalton and Zafirova, 2018 116 Lim and Lee, 2020 117 Carli and Baldini, 2021 118 Carli et al Both the process of decision-making about surgery and patients' preoperative optimisation should be planned and managed at a multidisciplinary team level as suggested by the US Coalition for Quality in Geriatric Surgery. 123This requires, apart from risk factor screening and preoperative medication management, multidisciplinary conferences for high-risk patients. 123Staff training aimed at increasing the understanding of POD, and good communication skills among different medical professions seem prerequisites for the implementation of successful multicomponent interventions to reduce the incidence of POD. 124Retrospective data suggest that a combination of staff education, protocols for implementation, preprinted orders and systematic screening for POD reduces its incidence. 125Although POD is considered relevant for patients' outcomes, not all teams communicate delirium care plans during handover and not all professionals are confident about their role in its prevention. 126e details on the eight RCTs on multicomponent interventions are displayed in the Supplement Tables S10 97,99,102 ) slightly varied between studies.However, all three studies assessed frailty, cognition, comorbidities and functional status/functional impairment.Based on these screenings, a set of 'bestpractice delirium prevention modules' 97 or a 'tailored HELP protocol' 102 was available.Other studies used 'recommendations based on a structured protocol'. 100ese elements of geriatric assessment and tailored treatments were brought into the existing teams by an 'independent delirium study prevention team', 97 a 'geriatric team, which supervised an individual treatment plan with specific attention to patient-related risk factors', 99 a 'proactive geriatrics consultation within 24 h after surgery' 100 or a 'geriatric team' composed of a geriatrician, a rehabilitation specialist and a specific social worker. 101his team implemented a 'complete geriatric evaluation to identify and quantify medical and psychosocial problems and functional capability to elaborate a comprehensive therapeutic plan'. 103In another study, the whole procedure took place in an 'outpatient clinic setting'. 102 alternative approach (see again Supplement Table 11, http://links.lww.com/EJA/A851) was to train the existing staff and to implement a set of measures for all patients undergoing (elective) surgery. 101These 'delirium prevention bundles' included reorientation measures, sleeping aids (quiet ward, eye masks/earplugs at night, avoiding caffeinated drinks in the afternoons and evenings), and early mobilisation, early catheter removal and early nutrition commencement. 101Another study evaluated preop visits to the ICU, the introduction of the medical equipment used in combination with reorientation strategies, sleep hygiene, catheter removal and early mobilisation and nasal feeding by 'educated staff'. 98en applying the revised risk-of-bias assessment tool (RoB-2), 127 see Supplement Table S12, http://links.lww.com/EJA/A851, four studies were graded with low risk of bias, 97,98,101,102 and another four studies with a high risk of bias. 99,101,102,128gure 5 displays the results of meta-analyses for all eight RCTs and for the subgroups of the six studies using a combination of geriatric assessment and individualised treatments.The pooled evidence from all eight RCTs indicated a positive effect of multicomponent interventions with a pooled RR ¼ 0.62; 95% CI [0.41 to 0.92]; P ¼ 0.0248.
There was clear evidence of publication bias, indicated by an asymmetric funnel plot, see Supplement Figure S7, http://links.lww.com/EJA/A851 and a significant regression test for funnel plot symmetry (H 0 ¼ funnel plot symmetry, i.e., no evidence for publication bias) with P ¼ 0.0034.
In the subgroup of the six studies, which evaluated a combination of CGA plus tailored interventions based on the individualised risk profile, there was no overall significant effect of the interventions with RR ¼ 0.60; 95% CI [0.34 to 1.09]; P ¼ 0.0797 (Fig. 6).
There was again clear evidence for a publication bias, indicated by an asymmetric funnel plot, see Supplement Figure S8, http://links.lww.com/EJA/A851 and a significant regression test for funnel plot symmetry (H 0 ¼ funnel plot symmetry, i.e. no evidence for publication bias) with P ¼ 0.0211.
The level of certainty of the evidence was initially high, only RCTs were pooled.However, the evidence was downgraded due to high heterogeneity (>70%) and indirectness and the results of the risk-of-bias assessment (Supplement As reported above, POD has a multifactorial genesis, and patients have their own risk profiles for POD.Therefore, it is unlikely that any single intervention is sufficient to reduce POD in all patients (although some will benefit).
It is further unlikely that multicomponent interventions (heterogeneously composed because of many factors such as team knowledge and culture, resource availability and internal organisation) will reduce POD in all patients (although again some will benefit).Therefore, Regarding the single interventions, both the study population (see Supplement Table S13, http://links.lww.com/EJA/A851) and the interventions (see Supplement Table S14, http://links.lww.com/EJA/A851) were so heterogeneous that pooling of the results by meta-analyses was not feasible.Of note, several studies are of major importance for patients' safety, not only concerning the prevention of POD.This particularly holds for fast-track surgery in hip fracture surgery, 107 the management of heavy smokers in the peri-operative setting 109 and the management of patients with severe depression and antidepressant treatment undergoing surgery. 110Although guidance in such situations would be desirable, current evidence does not allow confident suggestions or recommendations.Other single interventions such as patient education, 105,113 music interventions 111 or cognitive training/enhancement 112,113 were often integrated in the multicomponent interventions that we summarised in recommendation 3. Of note, fast-track approaches, as in the study by Jia et al., 108 are usually accompanied by a series of further treatment modifications (see Supplement Table S14, http://links.lww.com/EJA/A851).Single studies of rather uncommon interventions for the prevention of POD exist, such as foot reflexology massage 114 or the use of a structured mirror intervention to 'positively impact on mental status and attention, thereby enhancing factual encoding' 'as opposed to delusion memories after ICU discharge'. 106Their usefulness and benefit for the patient have to be proven in further studies.
Based on a detailed review of the included studies and discussions within our neuromonitoring working group we give the following recommendations: PICO 14: Is processed EEG monitoring during anaesthesia able to reduce POD?
We performed a systematic review and meta-analysis on the effect of processed EEG monitoring on POD, with an a priori-defined aim to include only RCTs.Of the 12 RCTs included, 4 RCTs were not considered in the final systematic review and meta-analysis.Cotae et al. 136 was not explicit in the number of days of POD evaluation, Kunst et al. 137 evaluated POD only on days 3 and 5 and Sponholz et al. 138 did not state how POD was assessed.Finally, the RCT from Xu et al. 139 compared Indexguided anaesthesia vs. multiparameter-guided anaesthesia (Index, burst suppression activity and density spectral array) and was, therefore, excluded from our meta-analysis.0][131][132][133][134][135] The meta-analysis using inverse variance heterogeneity model analysis suggested no significant benefit of processed EEG monitoring in reducing the risk of POD (OR 0.78; 95% CI, 0.60 to 1.01) (Fig. 7).
Although these data may suggest that further trials are needed, a significant limitation is a concentration on index values in the literature.Index values may be less reliable in older people with reduced cortical electrical activity.
Although the borderline significance of the meta-analysis, high heterogeneity and risk of bias (see Supplement

Discussion
Anaesthesiologists should be trained not only to observe the Index number given by the processed EEG monitors (e.g.PSI or BIS) but also understand and interpret the raw EEG and the density spectral array. 139 older patients, deep anaesthesia frequently causes burst suppression activity in the raw EEG, 150 which has been identified as a risk factor for POD. 129,130,140 - 143This EEG pattern -an isoelectric line with intermittent bursts -can easily be identified in the raw EEG if presented on the monitors.Thus, anaesthesiologists should ensure that the monitors they use provide raw EEG traces.
Additionally, it has been shown that reduced intraoperative alpha-band power is related to an increased risk of POD. 147,149Frontal coherent alpha-band and slow-deltaband power physiologically are triggered by a thalamocortical feedback mechanism induced by GABAergic activation. 151These frontal coherent alpha and slowdelta bands can be identified in the density spectral array given on the screen of EEG monitors.However, these EEG patterns are not only related to the dose of the anaesthetic agent given but also to age, 150,152 to the preexisting cognitive function of the patients, 153,154 cerebral perfusion 155 and premedication with a benzodiazepine. 156Also, it should be noted that this alpha-delta pattern has been associated with connected consciousness intraoperatively 157 and hence, while it likely represents a state of adequate anaesthesia in the majority, some patients may not be unconscious.
In older patients, the EEG power is generally very low, so the alpha-band power might not be visible on the monitor when using the default power scale, and the operator should modify the sensitivity scale to better see the alpha power in the density spectral array (DSA) screen.This is related to the fact that the power range of fast oscillations such as beta and alpha activity has a lower power than slow oscillations such as theta and delta activity.In general, faster oscillations are associated with concious, cognitive active states and slow oscillations are associated with sleepiness and unconsciousness.Hence, there is a risk that older patients get overdoses of anaesthetic agents, because of false high-level Index parameters.This problem might be overcome if anaesthesiologists can interpret the density spectral array pattern.In older patients, it could be of help to increase the power sensitivity of the monitor, to make alpha-bands more clearly visible, and hence avoid overdosage of anaesthetic agents in these vulnerable patients.POD had a significant impact on long-term mortality in noncardiac and cardiac surgery [158][159][160][161][162][163][164][165][166][167][168][169][170][171][172][173] (Figs. 8 and 9, the corresponding Funnel plots are Supplement Figures S11, http://links.lww.com/EJA/A851 and S12, http://links.lww.com/EJA/A851).Surprisingly two of sixteen studies showed no decline in mortality associated with POD. 159,174POD further impacted on ICU length of stay (LoS) in cardiac surgery patients [175][176][177][178][179] (Fig. 10 the corresponding Funnel plots is Supplement Figure S13, http://links.lww.com/EJA/A851) and hospital LoS for both cardiac and noncardiac surgical patients 167,168,174,[180][181][182][183][184][185][186][187][188][189] (Figs.11 and 12, the corresponding Funnel plots are Supplement Figure S14, http://links.lww.com/EJA/A851 and S15, http://links.lww.com/EJA/A851).Overall, 12 vs. 9 RCTs showed a significant negative effect of POD on hospital LOS.POD led to higher costs. 163,175,189,190Meta-analysis of underlying health economics studies was not possible because of different currency and billing systems.The need for nursing care after hospital stay is more frequently required in POD patients compared with patients without POD 161,163,168,172,184,191 -195 (Fig. 13).
The objective of our working group was to find evidencebased information on different options of pharmacological interventions for POD, and to evaluate their efficacy as well as their harms and benefits.The first-line measures for prevention and treatment of POD are nonpharmacological.Only when there is severe and intractable distress should medications be used.For pharmacological therapy of POD, there are different treatment options available for the different delirium symptoms.For example, hallucinations can occur in patients with POD even When nonpharmacological measures have failed, a pharmacological treatment should be considered.Although there is little-to-no evidence from RCTs on the treatment of specific single symptoms, the following symptomoriented treatment options are possible suggestions and should be carefully considered: (1) Psychotic symptoms/hallucinations (using a validated monitoring such as the Questionnaire for Psychotic Experiences, QPE 196 ): Neuroleptics [haloperidol, e. g. starting with 0.125 to 0.25 mg single dose, maximum dose per day less than 3 mg (mortality increased !6 mg day À1 !), risperidone (starting with 0.125 mg single dose), olanzapine, quetiapine] (2) Pain (using a validated monitoring such as NRS/ VAS 197,198 or BPS-NI/PAINAD 199 ): opioid-based analgesia   starts, the more likely cognitive decline and worse clinical outcomes may be expected. 204lirium in the presence of alcohol withdrawal syndrome is a special sub-form of delirium, which can occur in the perioperative setting as well, and it is challenging to differentiate the overlap with other forms of delirium. 205The diagnosis of delirium in the presence of alcohol withdrawal syndrome is a clinical diagnosis of exclusion, after considering all other diagnoses. 203Therapy of alcohol withdrawal delirium is based on long-acting benzodiazepines (e.g.diazepam, lorazepam). 203CO 16: Should antipsychotics be used for the treatment of POD?
Update of the ESAIC 97 The evidence in support of the use of antipsychotics for POD treatment remains inconsistent and controversial.9][210] It also showed several adverse effects, such as hypotension, sedation, 211 extrapyramidal symptoms, 212 and QT-prolongation. 206,209,210Most analysed randomised-controlled studies on the use of antipsychotics for POD treatment showed no positive effects on delirium overall.There was one systematic review with moderate certainty of the evidence, which included 12 RCTs on the treatment of POD with haloperidol and atypical antipsychotics and revealed no significant on delirium severity, delirium duration, mortality, hospital and ICU lengths of stay. 210It also concluded that low-dose haloperidol therapy has comparable efficacy and side effect rates to atypical neuroleptics.
We consider it necessary to emphasise that the studies included in the narrative synthesis were very heterogeneous, both in terms of the timing of drug application and the dosage of antipsychotics administered.They were often used for sedation and not strictly symptom-oriented, so neither harm nor benefit could be clearly proven.
Our analysis of five RCTs and two systematic reviews suggests that intravenous administration of haloperidol for the treatment of POD is still inconsistent but may slightly reduce the worsening of POD 206,209 as well as the ICU LoS. 213Low-dose haloperidol demonstrated    comparable efficacy and side effect rates to atypical neuroleptics, 207,210 whereby the atypical neuroleptics showed a slightly lower incidence of adverse effects. 210 a systematic review from Neufeld et al., 210 antipsychotics for the treatment of delirium were analysed.They had no subgroup for POD, so that we could not adopt this review to our guideline because of a high proportion of nonsurgical patients suffering from delirium.In the included patients, collectively, no benefits of antipsychotic treatment for delirium was found.
Regarding the benefits and harms of haloperidol or other antipsychotics for delirium therapy, it is uncertain if there are clear and the risk of undesired side effects remains.Delirium is a complex disorder, and there is no single drug intervention that plausibly could treat all cases of delirium. 214Therefore, the concept of a drug treatment for delirium as a whole is flawed.However, in some circumstances, the use of antipsychotics might provide some benefit.There is no clear evidence for this, but expert consensus from published guidelines and standards supports limited use of antipsychotics only for severe distress particularly in the context of psychosis, and/or if hyperactivity and/or agitation is causing significant safety concerns when nonpharmacological interventions have been insufficiently effective or if the indication is urgent.We advise a short-term, symptomoriented therapy.The application should be bolus-wise and with the lowest dose (suggestion on the initial dose in the elderly: 0.125 to 0.25 mg haloperidol): especially in elderly patients, who are considered being at particular risk of developing delirium after surgery and in which the sedative effect of antipsychotics predominates.
Antipsychotic drugs should be used with caution or not at all in patients with certain preexisting neurologic conditions, such as Parkinson's disease or Lewy bodies dementia.
PICO 17: Should benzodiazepines be used for the treatment of POD?
Benzodiazepines act at the g-aminobutyric acid receptor (GABA-A) and mediate via anxiolytic, amnesic, sedative and anticonvulsant effects via various subunits.In some hospitals, benzodiazepines are still an integral part of sedation in ICUs and are used routinely to treat agitation and other symptoms.Dependence can occur even at therapeutic doses and carries the risk of developing withdrawal symptoms.Benzodiazepines often have active metabolites with a greater half-life than the basic substance itself, which increases the risk of accumulation, especially in patients with organ dysfunction requiring intensive care.Midazolam, in particular, is associated with a risk of accumulation because of its poor controllability.The certainty of the evidence for the use of benzodiazepines in treatment strategies for POD was very low to nonexistent.In the studies analysed here, there was only one RCT using benzodiazepines for the treatment of POD.Its efficacy was lower compared with alpha-2 agonists. 215erefore, a symptom-orientated medication is essential in a bolus-titrated dosage, as low as possible.
PICO 18: Should alpha-2 agonists be used for the treatment of POD?
The importance of alpha 2-adrenoceptor agonists has increased in recent years, both clinically and economically.There is evolving evidence of the beneficial use of alpha 2-adrenoceptor agonists, particularly in elderly patients with delirium, although the underlying pathological mechanisms are still uncertain.Clinically, these agents are primarily characterised by analgesic, sedative, anxiolytic and antihypertensive effects.They also lower sympathetic tone.In Europe, dexmedetomidine is approved by the EMA for mild-to-moderate sedation levels from Richmond Agitation and Sedation Scale (RASS) 0 to RASS -3.Deeper sedation with dexmedetomidine in younger adults is currently being discussed as being harmful in these patients, while it may be beneficial in older surgical patients. 217garding POD treatment studies with alpha 2-adrenoceptor agonists, there is little evidence.We analysed eight studies using dexmedetomidine in the perioperative context.Seven of the eight studies were in cardiac surgery patients, including one systematic review.Therefore, no recommendation on alpha 2-adrenoceptor agonists for delirium treatment in noncardiac surgical patients is possible.Some of the studies included in our analysis overlapped with the studies included in the chapter on pharmacologic prevention of POD.
In some study protocols, the investigated drug continued to be used even after the onset of POD.Thus, like the authors of the section on pharmacologic prevention of POD, the authors of the present section made the judgement that it was reasonable to draw some conclusions about the therapeutic effectiveness from these studies. 61e chose delirium duration as our outcome for therapeutic effectiveness, and we rated delirium incidence as a preventive effect, when the investigational drug was started before delirium occurred.
Certainty in reduction of severity of POD was rated from very low to low because of serious risk of bias: not all studies fulfilling POD assessment criteria included in the meta-analysis distinguished between POD and ICU delirium in postoperative patients, nor between preventive and treatment effects of dexmedetomidine.Two of the eight analysed studies lacked blinding of the participating physicians.
There is moderate certainty of evidence that postoperative patients receiving dexmedetomidine may lower delirium duration 57,59,61 and also mortality rates compared with patients receiving placebo, propofol or clonidine infusion. 42,61The heterogeneity of the studies made meta-analysis inappropriate (Supplement Figure S17, http://links.lww.com/EJA/A851).There is low-to-moderate certainty of evidence that postoperative administration of dexmedetomidine is likely to reduce time to extubation, 42,53,215 hospital LoS, 42,57,61 ICU LoS 42,61 and time to onset of delirium. 57The main limitations in all studies analysed were considerable imprecision (small sample sizes) and significant indirectness (i.e.mixed ICU and surgical patients, different timing or dosage of dexmedetomidine administration).As only one RCT used another alpha 2-adrenoceptor agonist (clonidine) as a comparator to dexmedetomidine, 61 the panel decided to use 'dexmedetomidine' in the suggestion.
Another concern with the use of alpha 2 agonists for POD treatment is their dependence on availability in different hospitals.Dexmedetomidine appears to be more expensive, but it is associated with significant cost reduction because of shorter ICU/hospital stays. 218The trials were all conducted in a hospital setting.The use of dexmedetomidine for POD treatment was only recommended for cardiac surgery patients, as most of the studies included in the analyses focused on this patient population.
Melatonin (no recommendation due to severe bias) Three RCTs from 2021 were included in the final analysis.All studies investigated the effect of melatonin on POD. 63,219,220Due to the small number of studies, their serious indirectness and imprecision, and resulting low to very low grade of evidence, no recommendations could be made for the use of melatonin in the treatment of POD.The panel discussed the matter and voted unanimously.
Other medications (no recommendation due to insufficient data) No recommendations could be made for the use of other drugs (namely pregabalin, gabapentin, rosuvastatin and morphine sulphate) 68,211,221 for POD therapy in a hospital setting due to the lack of adequate studies (only one study of each drug fulfilling our POD criteria).

Discussion
Despite the enormous amount of newly published research results on POD, significant changes in recommendations regarding either prevention or treatment are absent.Healthcare resources are almost exclusively absorbed by curative strategies.The prevention of POD requires multicomponent strategies delivered by multidisciplinary teams and ideally starting weeks before an elective surgery.No two older patients with planned (or unplanned) surgery will have the same risk profile and will, thus, equally profit from a standardised prevention plan.However, such standardised strategies are necessary to allow the common evidence-based pathways from RCTs to evidence-to-decision-based recommendations and suggestions.This seems appropriate in RCTs on anaesthetic drugs where randomisation and (even triple) blinding is easily feasible.
However, in studies on neuromonitoring or in studies on nonpharmacologic multicomponent interventions, blinding the study personnel is much more challenging.Additionally, multicomponent strategies usually offer a set of different treatment options, which are tailored to the specific risk profile of the single patient.Thus, within a single study, not all participants in the intervention group receive the same set of interventions, and not all participants even receive all the interventions they were allocated. 98This makes it difficult to correctly judge the efficacy of certain approaches.It makes it even more difficult to pool evidence from different studies on multicomponent interventions.It is, however, obvious that there is no 'one-size-fits-it-all' solution, which can be recommended.Pre-post study designs could overcome some of these problems.However, when examining the many clinical or registry-based studies using a pre-post study design, it turned out that often participants in the intervention period of the study were prospectively evaluated for POD, while diagnoses of POD in control patients were derived from retrospective chart reviews or discharge letters.Even the prospective assessment of POD substantially varied between studies, which hampered pooling of study results.

Update of the ESAIC 101
Eur J Anaesthesiol 2024; 41:81-108 Substantial improvements in study design and measurement methodologies are warranted.For the future, it is highly recommended that assessments focus on either the reference standard DSM-5-based definition of POD, or on tools that are validated against a reference standard.This means using a validated reference standard method or tool suitable for the setting and the patient population. 214Considering the fluctuating course of POD during the day, the Task Force and Advisory board of this guideline further recommends for all future POD studies to start screening for POD in the recovery room.The screening for POD should be continued at least until day 3 after surgery and at least twice a day.In addition, the suspected underlying medical reason for POD is important to describe and should additionally be documented for each POD assessment.
Apart from study data, it is also desirable to rely more on structured routine data annotated in a register-based format with an internationally accepted and agreed terminology, such as the Systematized Nomenclature of Medicine (SNOMED) 222  For both ERAS-inspired approaches combining nonpharmacological and pharmacological treatments, future studies should holistically integrate elements of personalised medicine from genetic makeup, molecular mechanisms, clinical phenomenology to subjective feelings and views of patients and their relatives.Patients' needs should be adequately addressed through a 3608 appraisal.Delirium intervention trials have mostly used the blunt approach of considering delirium as a binary outcome; future studies should allow for studying the effects of interventions on particular symptoms of delirium such as distress and psychosis to better enable targeting of treatments.Finally, it will also be beneficial to better understand positive trajectories, when POD does not occur and also when patients not only recover to their presurgical status but also clearly benefit from their surgical and anaesthesiological treatment.Further advances in anaesthesia and surgery techniques as well as in geriatric peri-operative care will decrease or even eliminate the risk of negative cognitive trajectories after geriatric surgery.

Executive summary
Life expectancy is still increasing and a 65-year-old European has around 20 more years to live. 223The need for surgery (and the accompanying need for anaesthesia) rises with increasing age. 224,225Consequently, over the next decades, surgery-related and anaesthesia-related complications such as POD will increase in absolute numbers.To reduce both the individual and the societal burden of POD and its long-term sequelae, preventive strategies are necessary.This requires knowledge, understanding, training and intention on the part of the entire peri-operative and postoperative team.Implementation of dedicated pathways for the prevention, screening and eventual treatment of POD in the clinical routine is urgently warranted.Such implementation concerns the evaluation of preoperative risk factors for POD (recommendation 2.1), the use of prophylactic drugs, biomarkers, type of surgery or anaesthesia (recommendations 3.1 to 3.4) and the implementation of nonpharmacological interventions (recommendations 4.1 to 4.3).Neuromonitoring (recommendations 5.1 and 5.2) plays a crucial role in the prevention of POD.If POD is not avoidable and nonpharmacological measures fail, pharmacological treatment options exist (recommendations 6.1 to 6.3).Research on POD has strongly intensified within the last decade, and findings on basic pathophysiological mechanisms will continue to emerge over the next decade, thus crystallising or revising current understanding.As with all rapidly developing fields, current conclusions will be subject to revision in years to come.This guideline is published under a CC BY 4.0 licence (https:// creativecommons.org/licenses/by/4.0).This means that -as long as the guideline title and the authors names are correctly citedscientists, health care workers and policy makers are permitted the unrestricted use of its contents and recommendations.The use of the guideline is allowed and its implementation may be promoted through institutional clinical pathways, apps, AI supported apps, standard operating procedures (SOPs), process instructions, data storage and data sciences.
Assistance with the article: none.

Update of the ESAIC 103
Recommendation 3.2

Strength of recommendation
When dexmedetomidine is used intra-operatively or postoperatively with the aim to prevent POD, we recommend balancing the expected benefits against the most important side effects (bradycardia and hypotension).
Moderate Strong Recommendation 3.3

Strength of recommendation
In patients undergoing surgery, we do not suggest any specific type of surgery or type of anaesthesia to reduce the incidence of POD.
Low Weak Recommendation 3.4

Strength of recommendation
We do not suggest using biomarkers to identify patients at risk of POD.
Low Weak Recommendation 4.1

Strength of recommendation
We recommend that preoperative anaesthesia consultation in older adults includes the screening for risk factors for POD and addresses patients' needs to optimise their preoperative status.
Low Strong Recommendation 4.2

Strength of recommendation
We recommend that the results of the screening for POD risk factors are shared among the care team and the preventive strategies discussed and registered in the medical records.

Strength of recommendation
The use of benzodiazepines for the treatment of delirium in postoperative patients is not suggested.The evidence for the benefits of benzodiazepine therapy for treating POD symptoms or the underlying causes is very low to nonexistent.This recommendation is not to be confused with delirium in the context of alcohol withdrawal, where benzodiazepines are recommended symptom orientated as the first-line medication (in a bolus-titrated dose, lowest as possible).

Very low Weak
Recommendation 6.3

Strength of recommendation
We suggest using dexmedetomidine for the treatment of POD in cardiac surgery.

Fig. 1
Fig. 1 STEP 1: flow chart of the study selection process from April 2015 until November 2020 (search 1).

Fig. 4
Fig. 4 Forest plot for postoperative delirium outcomes in dexmedetomidine vs. other drugs.Study POD Total POD Total OR 95%-CI Dexemedetomidine Other drugs Cardiac

Fig. 7
Fig. 7 Forest plot using inverse variance heterogeneity model analysis for postoperative delirium outcomes on intraoperative processed EEG Neuromonitoring guidance vs. usual intraoperative care or comparing deep anaesthesia vs. light anaesthesia 22 in older patients, n ¼ 8 studies.

Update of the ESAIC 95 EurJ
Anaesthesiol 2024; 41:81-108 when they are oriented, and if distressing they could be treated with antipsychotics, if nonpharmacological measures have failed.

( 3 )
Day/night rhythm disorders (Richards-Campbell Sleep Questionnaire 200 ): melatonin (4) Anxiety (FAS 201 ): short-acting benzodiazepines with bolus-wise applications of low doses (5) Agitation (Richmond Agitation and Sedation Scale, RASS): 202 in ICU settings, alpha-2 agonists, for fluctuating symptoms, drugs with a short contextsensitive half-life (e.g.propofol) (6) Vegetative symptoms (clinical appearance): in ICU settings, alpha-2 agonists, if necessary, beta-blockers to treat sinus tachycardia (7) Delirium in the presence of alcohol withdrawal syndrome (diagnosis of exclusion, after considering all other diagnoses 203 ): long-acting benzodiazepines (e.g.diazepam, lorazepam) If POD is detected, patients should not be discharged from the recovery room to the ward without having started cause-based and symptom-based treatment.The longer the delirium lasts and the later the treatment 96 Aldecoa et al.

Fig. 8
Fig.8Forest plot for mortality in patients with postoperative delirium after noncardiac surgery vs. patients with no postoperative delirium.The corresponding Funnel plot is shown in Supplement FigureS11, http://links.lww.com/EJA/A851.

Fig. 11
Fig.11Forest plot for hospital length of stay in days in patients with postoperative delirium after noncardiac surgery vs. patients with no postoperative delirium.The corresponding Funnel plot is shown in Supplement FigureS14, http://links.lww.com/EJA/A851.

Fig. 12
Fig.12Forest plot for hospital length of stay in days in patients with postoperative delirium after cardiac surgery vs. patients with no postoperative delirium.The corresponding Funnel plot is shown in Supplement FigureS15, http://links.lww.com/EJA/A851.

2 =666. 87 ,Fig. 13
Fig.13 Forest plot of need for nursing care in patients with postoperative delirium after noncardiac surgery vs. patients with no postoperative delirium.The corresponding Funnel plot is shown in Supplement FigureS16, http://links.lww.com/EJA/A851.
96CO 11(cardiac surgery: off-pump in cardiac surgery vs. on-pump in cardiac surgery) Only one study met the inclusion criteria.Szwed et al.96carried out a good-quality RCT on 192 patients scheduled for elective isolated off-pump coronary bypass (OPCAB) and randomised patients to three parallel compared POD in elderly patients following laparoscopic gastrectomy vs. open gastrectomy in 130 patients aged at least 65 years with gastric cancer.In both groups, the overall incidence of POD was not significantly different: 31.6%(19/60) in the laparoscopic gastrectomy group and 41.2%(26/63)in the open gastrectomy group (P ¼ 0.359).arms:1.The first study arm underwent anaortic OPCAB (ANA) with total arterial revascularisation.2.The second study arm underwent OPCAB with vein grafts using carbon dioxide surgical field flooding (CO 2 FF). 3. The control arm underwent 'conventional' OPCAB with vein grafts.The incidence of POD was the lowest in the ANA group[12.5% in the ANA group vs. 32.8% in the CO 2 FF arm, and 35.9% in the control (OPCAB) arm, P ¼ 0.006].ies showed specific biomarkers with sufficiently high sensitivity and specificity in predicting and/or confirming POD.Hence, no recommendation can be made regarding the practical use of any biomarker in preventing POD or in the early identification of patients at risk of POD.Update of the ESAIC 89 Weak Eur J Anaesthesiol 2024; 41:81-108 1192021119 StrongEur J Anaesthesiol 2024; 41:81-108

Table S15
, http://links.lww.com/EJA/A851) were all seen, the clinical experts decided to upgrade recommendation 5.1.This is due to balance of benefits and Low Chan et al., 2013 129 Radtke et al., 2013 130 Whitlock et al., 2014 131 Zhou et al., 2018 132 Wildes et al., 2019 133Tang et al., 2020 134 Evered et al., 2021 22 Wang et al., 2022 135 Weak Eur J Anaesthesiol 2024; 41:81-108 Ten observational studies were evaluated, five on burst suppression and five on raw EEG (See recommendation 5.2).ratio, 3.79; 95%CI [1.5 to 9.6]; P ¼ 0.005), along with age (OR, 1.09; 95%CI [1.02 to 1.16]; P ¼ 0.009), abbreviated Montreal Cognitive Assessment (OR, 0.80; 95%CI [0.66 to 0.97]; P ¼ 0.024), and alpha power (OR, 0.75; 95%CI [0.59 to 0.96]; P ¼ 0.025).In a secondary analysis from Fritz et al. 144 of the data from the ENGAGES trial, which enrolled 1113 patients aged 60 or older undergoing surgery with general anaesthesia patients were randomised to electroencephalogram-guided anaesthesia or usual care.Four hundred and thirty patients had evidence of preoperative abnormal cognition.Of these 151/430 (35%) patients had POD.Of the total effect size, 2.4%; 95%CI [0.6 to 4.8%] was an indirect effect mediated by electroencephalogram suppression.The author's concluded that a small portion of the total effect of preoperative abnormal cognition on POD was mediated by electroencephalogram suppression. 147included 237 patients aged at least 65 years in an observational study and performed the raw EEG analysis calculating the perioperative spectral edge frequency (SEF).The authors showed that lower preoperative SEF, absence of slowing in EEG while transitioning from 94 Aldecoa et al.
Low WeakEur J Anaesthesiol 2024; 41:81-108 Assistance with the GRADE methodology: this work was supported by Professor Ina Kopp and Dr Monika Nothacker from the Association of the Scientific Medical Societies in Germany (AWMF).Financial support and sponsorship: this work was funded by the ESAIC in Brussels to the members of the Task Force and the Guideline Chair, Dr CDS, and by institutional resources of the members of the Task Force and the Advisory Board (see authors' list).Conflicts of interest: For the Task Force, CA received honoraria or consultation fees from Becton and Dickinson.CDS received grants or contracts from the German Research Society (DFG); German Aerospace Center (DLR); Einstein Foundation Berlin; Federal Joint Committee (G-BA); Non-Profit Society Promoting Science and Education (Stifterverband); European Society of Anaesthesiology and Intensive Care (ESAIC); Federal Ministry for Economic Affairs and Climate Action (BMWI); Robert Koch Institute Berlin (RKI); Georg Thieme Verlag; Dr F. K€ ohler Chemie GmbH; Sintetica GmbH; Max-Planck-Gesellschaft zur F€ orderung der Wissenschaften e.V.; Medtronic; Philips Electronics Nederland BV.CDS has International Patent (IP) planned, issued or pending [15753 627.7 (GER;AT;CH;LI;DE;FR;GB;NL); PCT/EP 2015/ 067731 (USA), 3 174 588 (GER;CH;LI;DE;FR;NL), 10 2014 215 211.9, 10 2018 114 364.8, 10 2018 110 275.5, 50 2015 010 534.8, 50 2015 010 347.7, 10 2014 215 212.7].CDS has an unpaid leadership or fiduciary role in other board, society, committee or advocacy group: Association of the Scientific Medical Societies in Germany (AWMF); DFG review boards; German National Academy of Sciences (Leopoldina).All other members of the Task Force declare no conflicts of interest.For the Advisory Board, PA received honoraria or consultation fees from Merck Sharp Dohme; AC participated in a Nestl e-sponsored speaker's bureau; CC received grants and research supports from Ionis Therapeutics and honoraria or consultation fees from Exalys Therapeutics.SK received grants and research supports from DFG and honoraria or consultation fees from Medtronic and the ESAIC.SK has, together with Dr CDS, International Patent (IP) planned, issued or pending (10 2018 114 364.8, 10 2018 110 275.5, 19 72 1581.7,19 73 2938.6).FR received grants and research supports from Medtronic as well as honoraria or consultation fees from Medtronic.ARB received honoraria or consultation fees from Nestl e, Fresenius Kabi, Nutricia and VIPUN.AS is unsalaried advisor of Prolira, a Start-up company, which develops a delirium monitor.The profits are used for scientific research only.BW received grants and research supports from Teladoc Health GmbH and honoraria or consultation fees from Orion Pharma Ltd and Dr F. Koehler Chemie.All other members of the Advisory Board declare no COI.
Presentation: none.This manuscript was handled by Charles Marc Samama.