Explore the vast range of titles available.

The effect of Levosimendan on postoperative natriuretic peptides in noncardiac surgical patients remains unknown. Thus, this study evaluates the effect of a perioperative levosimendan administration on postoperative N-terminal brain pro natriuretic peptide (NT-proBNP) concentrations. In this prospective, double-blinded, parallel group, placebo-controlled, phase III trial 115 patients were assigned to perioperative single-dose of 12.5 mg of levosimendan and 115 to placebo between October 2020 through November 2023 (clinicaltrials.gov: NCT04329624). The primary outcome was postoperative maximum NT-proBNP concentration within the first 3 postoperative days. 228 patients completed the trial. Postoperative maximum NT-proBNP concentrations did not differ significantly between the groups (effect estimate: −64.51 ng.L -1 ; 95% CI −332.66 to 195.56; p = 0.61). Here, we show that perioperative levosimendan administration did not lead to a significantly lower release in postoperative NT-proBNP after noncardiac surgery. Here, the authors investigate the effect of perioperative levosimendan on postoperative subclinical heart failure, evaluated via NT-proBNP measurements in cardiac risk patients undergoing noncardiac surgery, and show no significant difference between levosimendan and placebo on the postoperative maximum NT-proBNP release.

Supplemental oxygen is a simple method to improve arterial oxygen saturation and might therefore improve myocardial oxygenation. Thus, we tested whether intraoperative supplemental oxygen reduces the risk of impaired cardiac function diagnosed with NT-proBNP and myocardial injury after noncardiac surgery (MINS) diagnosed with high-sensitivity Troponin T. Parallel-arm double-blinded single-centre superiority randomized trial. Operating room and postoperative recovery area. 260 patients over the age of 45 years at-risk for cardiovascular complications undergoing major abdominal surgery. Administration of 80% versus 30% oxygen throughout surgery and for the first two postoperative hours. The primary outcome was the postoperative maximum NT-proBNP concentration in both groups, which was assessed within 2 h after surgery, and on the first and third postoperative day. The secondary outcome was the incidence of MINS in both groups. 128 patients received 80% oxygen and 130 received 30% oxygen throughout surgery and for the first two postoperative hours. There was no significant difference in the median postoperative maximum NT-proBNP concentration between the 80% and the 30% oxygen group (989 pg.mL−1 [IQR 499; 2005] and 810 pg.mL−1 [IQR 409; 2386], effect estimate: 159 pg.mL−1, 95%CI -123, 431, p = 0.704). There was no difference in the incidence of MINS between both groups. (p = 0.703). There was no beneficial effect of perioperative supplemental oxygen administration on postoperative NT-proBNP concentration and MINS. It seems likely that supplemental oxygen has no effect on the release of NT-proBNP in patients at-risk for cardiovascular complications undergoing major abdominal surgery. ClinicalTrials.gov: NCT 03366857. https://clinicaltrials.gov/ct2/results?cond=NCT+03366857&term=&cntry=&state=&city=&dist= •Intraoperative inspired 80% versus 30% oxygen showed no significant effect in postoperative NT-proBNP concentration.•The incidence of MINS did not differ significantly between the 80% and 30% oxygen group.•NT-proBNP and Troponin T increased significantly in all patients after major abdominal surgery.

The effect of volatile anesthetics on postoperative recovery in older adults is still not entirely clear. Thus, we evaluated the effect of desflurane versus sevoflurane anesthesia on speed of postoperative recovery in older adults eligible for same-day discharge. We further evaluated the incidence of postoperative nausea and vomiting (PONV), bispectral index (BIS) values, and S100B concentrations. Single-center, prospective, observer-blinded, randomized clinical trial. Operating room. 190 patients ≥65 years of age and scheduled for minor- to moderate-risk noncardiac surgeries. Goal-directed administration of desflurane versus sevoflurane for maintenance of anesthesia with an intraoperative goal of BIS 50 ± 5. The primary outcome was the time to anesthesia recovery, which was defined as the time between arrival at the post-anesthesia care unit (PACU) and reaching criteria for discharge from PACU, based on modified Aldrete score ≥ 12 points. Modified Aldrete scores were assessed at PACU arrival and thereafter in five-minute intervals. PONV was evaluated during PACU stay and the first three postoperative days, BIS values were recorded during PACU stay, and S100B values were measured before and after surgery, and on the second postoperative day. 95 patients were randomized to receive desflurane, and 95 patients to receive sevoflurane. We did not observe a significant difference in median duration of postoperative recovery between the groups (desflurane: 0 min [0;0]; sevoflurane: 0 min [0;0]; p = 0.245). 77 patients (81.1%) in the desflurane group and 84 patients (88.4%) in the sevoflurane group already had Aldrete scores ≥12 points upon arrival at PACU (p = 0.277). There was also no significant difference in the incidences of PONV (p = 0.606), postoperative BIS values (p = 0.197), and postoperative maximum S100B concentrations (p = 0.821) between the groups. Despite previous reports, we did not observe significant faster recovery times after desflurane anesthesia. Both volatile anesthetics may be appropriate for same-day discharge in older adults. •Older adults are at-risk for prolonged recovery after volatile anesthesia.•The effect of desflurane versus sevoflurane on recovery is not entirely clear.•Postoperative recovery was not significantly faster after desflurane anesthesia.•PONV, delirium and cognitive dysfunction were similar between the groups.

Oxidative stress plays a pivotal role in the development and aggravation of cardiovascular diseases. The influence of intraoperative inspired oxygen concentrations on oxidative stress is still not entirely known. Therefore, we evaluated in this sub-study if supplemental oxygen affects the oxidation-reduction potential in patients at-risk for cardiovascular complications undergoing moderate- to high-risk major abdominal surgery. Sub-study of a prospective parallel-arm double-blinded single-center superiority randomized trial. Operating room and postoperative recovery area. Administration of 0.8 FiO2 versus 0.3 FiO2 throughout surgery and for the first two postoperative hours. The primary outcome was the static oxidation-reduction potential (sORP) and the oxidation-reduction potential capacity (cORP) between both groups. The secondary outcome was the trend of sORP and cORP in the overall study population. We assessed sORP and cORP before induction of anesthesia, 2 h after induction of anesthesia, within 2 h after surgery and on the first and third postoperative day. 258 patients were analyzed. 128 patients were randomly assigned to the 80% oxygen group and 130 patients were randomly assigned to the 30% oxygen group. Postoperative sORP values did not differ significantly between the 80% and 30% oxygen group (effect estimate: −1.162 mV,95% CI: −2.584 to 0.260; p = 0.109). On average, we observed a change in sORP of 5.288 mV (95% CI:4.633 to 5.913, p < 0.001) per day. cORP values did not differ significantly between the 80% and 30% oxygen group (effect estimate: −0.015μC, (95%CI: −0.062 to 0.032; p = 0.524). On average, we observed a change in cORP values of −0.170μC (95%CI: −0.194 to −0.147, p < 0.001) per day. In contrast to previous reports, we could not find any evidence of an association between intraoperative supplemental oxygen and perioperative oxidative stress assessed by sORP and cORP. clinicaltrials.gov: NCT03366857https://clinicaltrials.gov/ct2/show/NCT03366857?term=vienna&cond=oxygen&draw=2&rank=1 •0.8 FiO2 versus 0.3 FiO2 during major abdominal surgery showed no significant effect intra- and postoperative oxidation-reduction potential.•Oxidative stress increased and antioxidative capacity decreased significantly after surgery in the overall study population.•Perioperative supplemental oxygen might play a negligible role as a source of oxidative stress in patients undergoing major abdominal surgery.

IntroductionThe effect of different anaesthetics on the incidence of postoperative delirium is still not entirely clear. Therefore, we will evaluate the effect of desflurane versus sevoflurane versus propofol for the maintenance of anaesthesia on the incidence of postoperative delirium in older adults undergoing moderate- to high-risk major non-cardiac surgery. We will further compare the incidences of delayed neurocognitive recovery, long-term postoperative neurocognitive disorder, postoperative nausea and vomiting between the groups.Methods and analysisIn this multicentre, prospective, observer-blinded, randomised controlled clinical trial, we will include 1332 patients ≥65 years of age undergoing moderate- to high-risk major non-cardiac surgery lasting at least 2 hours. Patients will be randomly 1:1:1 assigned to receive desflurane, sevoflurane or propofol for anaesthesia. Maintenance of anaesthesia will be performed in a goal-directed manner using processed electroencephalography with an intraoperative goal of bispectral index 40–60. Our primary outcome will be the incidence of postoperative delirium within the first five postoperative days. Postoperative delirium will be assessed using the three-dimensional-confusion assessment method (3D-CAM) or CAM-intensive care unit (ICU) in the morning and evening of the first five postoperative days by blinded study personnel. The primary outcome, the incidence of postoperative delirium, will be compared between the three study groups using a χ2 test. Furthermore, a logistic regression model for the incidence of postoperative delirium will be performed, accounting for randomised groups as well as other predefined confounding factors.Ethics and disseminationThis clinical trial has been approved by the ethics committee and the Federal Office for Safety in Healthcare as the competent authority for clinical trials in Austria. The results of this trial will be published in a peer-reviewed journal.Trial registration numberClinicalTrials.gov NCT05990790.

Background Elevated postoperative N -terminal pro-B-type natriuretic peptide (NT-proBNP) concentrations are predictive for cardiac adverse events in noncardiac surgery. Studies indicate that supplemental oxygen decreases sympathetic nerve activity and might, therefore, improve cardiovascular function. Thus, we will test the effect of perioperative supplemental oxygen administration on NT-proBNP release after surgery. Methods/design We will conduct a single-center, double-blinded, randomized trial at the Medical University of Vienna, including 260 patients with increased cardiac risk factors undergoing moderate- to high-risk noncardiac surgery. Patients will be randomly assigned to receive 80% versus 30% oxygen during surgery and for 2 h postoperatively. The primary outcome will be the difference in maximum NT-proBNP release after surgery. As secondary outcomes we will assess the effect of supplemental oxygen on postoperative maximum troponin T concentration, oxidation-reduction potential, von Willebrand factor concentration and perioperative fluid requirements. We will perform outcome measurements 2 h after surgery, on postoperative day 1 and on postoperative day 3. The NT-proBNP concentration and the oxidation-reduction potential will also be measured within 72 h before discharge. Discussion Our trial should determine whether perioperative supplemental oxygen administration will reduce the postoperative release of NT-proBNP in patients with preoperative increased cardiovascular risk factors undergoing noncardiac surgery. Trial registration ClinicalTrials.gov, ID: NCT03366857 . Registered on 8th December 2017.

Background The impact of changes in portal pressure before and after liver resection (defined as ΔHVPG) on postoperative kidney function remains unknown. Therefore, we investigated the effect of ΔHVPG on (i) the incidence of postoperative AKI and (ii) the renin-angiotensin system (RAAS) and sympathetic nervous system (SNS) activity. Methods We included 30 patients undergoing partial liver resection. Our primary outcome was postoperative AKI according to KDIGO criteria. For our secondary outcome we assessed the plasma renin, aldosterone, noradrenaline, adrenaline, dopamine and vasopressin concentrations prior and 2 h after induction of anaesthesia, on the first and fifth postoperative day. HVPG was measured prior and immediately after liver resection. Results ΔHVPG could be measured in 21 patients with 12 patients HVPG showing increases in HVPG (∆HVPG≥1 mmHg) while 9 patients remained stable. AKI developed in 7/12 of patients with increasing HVPG, but only in 2/9 of patients with stable ΔHVPG ( p  = 0.302). Noradrenalin levels were significantly higher in patients with increasing ΔHVPG than in patients with stable ΔHVPG. ( p  = 0.009). Biomarkers reflecting RAAS and SNS activity remained similar in patients with increasing vs. stable ΔHVPG. Conclusions Patients with increased HVPG had higher postoperative creatinine concentrations, however, the incidence of AKI was similar between patients with increased versus stable HVPG.

IntroductionIncreased inflammatory processes after non-cardiac surgery are very common. The association between postoperative inflammation and the occurrence of cardiovascular complications after non-cardiac surgery are still not entirely clear. Therefore, we will evaluate the association between postoperative inflammation and the occurrence of major cardiovascular complications in patients at-risk for cardiovascular complications undergoing non-cardiac surgery. We will further evaluate the association of postoperative inflammation and days-at-home within 30 days after surgery (DAH30), the incidence of acute kidney injury, postoperative N-terminal probrain natriuretic peptide (NT-proBNP) concentrations and neurocognitive decline.Methods and analysisIn this multicentre study, we will include 1400 patients at-risk for cardiovascular complications undergoing non-cardiac surgery. Our primary aim is to evaluate the association of postoperative maximum C-reactive protein concentration and the occurrence of a composite of five major cardiovascular complications (myocardial infarction, myocardial injury after non-cardiac surgery, new onset of atrial fibrillation, stroke and death) within 30 days after surgery using a Mann-Whitney-U test as well as a logistic regression model. As our secondary aim, we will evaluate the association of a composite of three inflammatory biomarkers (interleukin 6, procalcitonin and copeptin) on the occurrence of our composite of five cardiovascular complications within 30 days and 1 year after surgery, acute kidney injury, DAH30 and NT-proBNP concentrations using linear or logistic regression models. We will measure inflammatory biomarkers before surgery, and on the first, second, third and fifth postoperative day. We will check medical records and conduct a telephone survey 30 days and 1 year after surgery. We evaluate neurocognitive function, using a Montreal Cognitive Assessment, before and 1 year after surgery.Ethics and disseminationThis study was approved by the ethics committees at the Medical University of Vienna (2458/2020) and at the Medical University of Graz (33-274 ex 20/21).Trial registration numberNCT04753307.

Background N-terminal pro brain natriuretic peptide (NT-proBNP) and troponin T are released during myocardial wall stress and/or ischemia and are strong predictors for postoperative cardiovascular complications. However, the relative effects of goal-directed, intravenous administration of crystalloid compared to colloid solutions on NT-proBNP and troponin T, especially in relatively healthy patients undergoing moderate- to high-risk noncardiac surgery, remains unclear. Thus, we evaluated in this sub-study the effect of a goal-directed crystalloid versus a goal-directed colloid fluid regimen on postoperative maximum NT-proBNP concentration. We further evaluated the incidence of myocardial injury after noncardiac surgery (MINS) between both study groups. Methods Thirty patients were randomly assigned to receive additional intravenous fluid boluses of 6% hydroxyethyl starch 130/0.4 and 30 patients to receive lactated Ringer’s solution. Intraoperative fluid management was guided by oesophageal Doppler-according to a previously published algorithm. The primary outcome were differences in postoperative maximum NT-proBNP (maxNT-proBNP) between both groups. As our secondary outcome we evaluated the incidence of MINS between both study groups. We defined maxNT-proBNP as the maximum value measured within 2 h after surgery and on the first and second postoperative day. Results In total 56 patients were analysed. There was no significant difference in postoperative maximum NT-proBNP between the colloid group (258.7 ng/L (IQR 199.4 to 782.1)) and the crystalloid group (440.3 ng/L (IQR 177.9 to 691.2)) during the first 2 postoperative days ( P  = 0.29). Five patients in the colloid group and 7 patients in the crystalloid group developed MINS ( P  = 0.75). Conclusions Based on this relatively small study goal-directed colloid administration did not decrease postoperative maxNT-proBNP concentration as compared to goal-directed crystalloid administration. Trial registration ClinicalTrials.gov ( NCT01195883 ) Registered on 6th September 2010.