MedPath

Volume Optimisation and Cognitive Function in Major Abdominal Surgery

Not Applicable
Completed
Conditions
Cognitive Decline
Interventions
Device: multimodal monitoring
Device: placebo
Registration Number
NCT03186846
Lead Sponsor
University Medical Centre Ljubljana
Brief Summary

In the last 25 years, there has been a lot of attention directed on reducing perioperative morbidity and mortality by improving intraoperative monitoring and hemodynamic optimisation of patients. Advanced monitoring devices and new parameters have shifted the focus of anaesthesia management from macro- to micro circulation with the emphasis on the determinants of oxygen delivery and tissue oxygenation. There is increasing evidence that long-term outcome is improved by goal-directed optimisation of hemodynamic parameters (optimisation of stroke volume and cardiac output by fluids and inotropic and vasoactive drugs). Besides, new monitoring possibilities (depth of anaesthesia and cerebral and tissue oxygenation monitors) and adherence to protocols have proved beneficial in reducing morbidity cognitive dysfunction.

However, questions are raised what the optimal goals (healthy population derived normal values, preoperative values, maximal values, restrictive fluid management) should be. Secondly, all new methods were used separately and there is a lack of studies to show the effect of combined (multimodal) monitoring on occurrence of cognitive dysfunction. All gathered data indicate that the combined use of new methods with adherence to an appropriate protocol might radically improve the perioperative management and outcome of high-risk surgical patients.

The present study tests the hypothesis that intraoperative multimodal monitoring with hemodynamic optimisation, BIS-guided anaesthesia and maintenance of optimal cerebral oxygen saturation will reduce cognitive dysfunction.

Detailed Description

BACKGROUND There is increasing evidence that intraoperative aesthetic management influences outcomes. (5). Besides this the occurrence of low MAP, low minimum alveolar concentration (MAC) and low bispectral index (BIS) increased hospital stay and mortality.

Conventional intraoperative monitoring can result in occult low levels of blood flow and oxygen delivery that lead to complications that only occur days or weeks following surgery and give false re-assurance to the anaesthetist that he or she is doing a "good job". Advanced monitoring devices and new parameters have shifted the focus of anaesthesia management from macro- to microcirculation with the emphasis on the determinants of oxygen delivery and tissue oxygenation. There are more and more trials showing that introduction of new monitors and treatment protocols with predefined treatment limits or targets (goal-directed optimisation of hemodynamic parameters) improves long-term patient outcome and reduces morbidity and mortality by over 50%. Several studies have shown benefit when individualised; targeted oxygen delivery algorithms incorporating both fluid resuscitation and vasoactive drugs were used with high-risk surgical patients. The measurement of regional cerebral oxygen saturation can predict cognitive dysfunction after cardiac surgery. BIS monitoring facilitates anaesthetic titration, and reduced anaesthetic exposure and decreased the risk of postoperative cognitive dysfunction. There is reduction in strokes, less mechanical ventilation and shorter length of stay (LOS) with the use of INVOS.

However, all new methods have been studied separately and there is a lack of studies to show the effect of combined (multimodal) monitoring on mortality and occurrence of complications, including cognitive decline. All gathered data indicate that the combined use of new methods (assessment of fluid status, depth of anaesthesia and tissue oxygenation) with adherence to appropriate protocol might radically improve perioperative management and outcome of high-risk surgical patients.

Besides, questions are raised what the optimal goals (healthy population derived normal values, preoperative values, maximal values) should be. Lately, studies have shown that optimising cardiac output and oxygen delivery to higher (supra-normal) values intra- and postoperatively did not affect post-operative complications rate, intensive care unit stay or hospital length of stay. Probably the target should be maintaining patient's blood flow and oxygen delivery at preinduction levels. The question was also raised in fluid management. Liberal approach can lead to oedema of the intestines and other tissues, which may be responsible for poor tissue healing and other complications. In abdominal surgery, protocol-based fluid restriction reduced the incidence of perioperative complications such as cardiopulmonary events and disturbances of bowel motility while improving wound and anastomotic healing and reducing hospital stay in comparison to liberal fluid management. One of the trials has shown 52% lower rate of major postoperative complications in restrictive group than in the conventional group.

HYPOTHESIS The present study tests the hypothesis that intraoperative multimodal monitoring with hemodynamic optimisation, BIS-guided anaesthesia and maintenance of optimal cerebral oxygen saturation will reduce cognitive decline.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
30
Inclusion Criteria
  • ASA 2-3 patients,
  • > 18 years
  • signed written consent for anesthesia and study participation
  • Major abdominal surgery (stomach and intestin resection)
  • epidural catheter insertion
Exclusion Criteria
  • pregnant women

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
multimodal monitoringmultimodal monitoringLiDCO Rapid, unilateral INVOS and unilateral BIS monitors will be applied. Should there be pre-existing carotid stenosis, INVOS sensor will be applied on the same side. In case of pre-existing cerebral pathology, the INVOS sensor will be applied to the contralateral side. Baseline values of nominal stroke index (SI), cardiac index (CI), BIS, mean arterial pressure (MAP) and regional oxygen saturation (rSO2) will be recorded. Basal rSO2 will be recorded prior to preoxygenation which raises the value. Before the induction, up to 250ml of balanced crystalloid solution will be administered. These will include antibiotics solvents and other pre-induction i.v. therapy.
placeboplaceboNo multimodal monitoring will be applied in control group.
Primary Outcome Measures
NameTimeMethod
Cognitive decline assessment changethree days

Blood samples for determination of brain injury biomarkers (NSE, S 100, GFAP, TAU, UCH-L1, MMP-9, miRNA, apo E4) before and at the end of operation.

Cognitive function testing (Mini mental test): before the operation and on day 2 after the surgery.

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

University Medical Centre

🇸🇮

Ljubljana, Slovenia

Related Trials

Influence of Postoperative Cognitive Function in Patients With Sevoflurane Postconditioning on Carotid Intima Stripped

Unknown StatusEarly Phase 1
Second Affiliated Hospital, School of Medicine, Zhejiang University
Posted 7/6/2021

Redesigning the Surgical Pathway (PROMoTE)

RecruitingNot Applicable
Sunnybrook Health Sciences Centre
Posted 11/10/2021
Updated 1/12/2024

Cognitive and Physical Optimization in Prevention of Postoperative Cognitive Deficit in Elderly With Lung Resection

RecruitingNot Applicable
Military Medical Academy, Belgrade, Serbia
Posted 4/1/2024
Updated 4/24/2025

Imaging of the Neural Correlates of Arousal and Awareness

Not Yet RecruitingNot Applicable
Hospices Civils de Lyon
Posted 10/5/2020
Updated 11/3/2020
© Copyright 2025. All Rights Reserved by MedPath
HomeTerms & ConditionsPrivacy Policy