Hyperglycemia Clinical Trial
Official title:
An Open, Mono-Centre Randomised Controlled Trial to Investigate the Feasibility of Blood Glucose Control With the Software-Algorithm eMPC (Enhanced Model Predictive Control) Via the Arterial-Intravenous Route in Patients at the Medical Intensive Care Unit.
This is an open mono-centre randomised controlled trial performed at the Medical University
Graz including a treatment visit (V1). In the treatment visit (V1) after admittance to the
ICU arterial blood glucose values will be monitored and either the software-algorithm eMPC
will be used to adjust the infusion rate of intravenously administered human soluble insulin
to normalise arterial blood glucose or routine treatment will be used to establish tight
glycaemic control. The treatment visit will last for 72 hours.
The primary hypothesis of the study is that blood glucose control by the eMPC algorithm is
not inferior compared to the implemented routine protocol.
Hyperglycaemia is commonly found in critically ill patients. The stress of critical illness
induces glucose counterregulatory hormones and a number of alterations in carbohydrate
metabolism, including increased peripheral glucose demands, enhanced hepatic glucose
production, insulin resistance and relative insulin deficiency. Moreover, clinical
interventions, such as corticoids, vasopressors, and enteral or parenteral nutrition,
further predispose these patients to elevated blood glucose levels. In patients in intensive
care as well as in general hospital settings patients with hyperglycemia have higher
mortality rates. Recent studies demonstrated that tight blood glucose control in ICU
patients results in a significant better outcome for the patients.
Based on this emerging clinical evidence, there are increasing efforts world-wide to
maintain strict glycaemic control in critically ill patients. However, achieving this goal
requires extensive nursing efforts, including frequent bedside glucose monitoring and the
implementation of complex intensive insulin infusion protocols and such increased work
demands may not be readily accepted by a busy ICU nursing staff.
The development of a closed loop control system that automatically infuses insulin on the
basis of glucose measurements could permit strict glycaemic control and improve clinical
outcome without increasing workload of the ICU nursing staff. The EU founded project
CLINICIP (Closed Loop Infusion in Critically ill patients) aims to develop a low–risk
monitoring and control system which allows maintaining metabolic control in intensive care
units. As a first step a local bedside semi-closed system will be developed. Based on
arterial spot measurement, an adaptive control algorithm will generate advice and thus
represent a decision supporting system for the ICU nursing staff. This control algorithm was
adapted for patients in the ICU. The first study using this algorithm was performed at the
Medical University Hospital in Graz. In all six patients, who were included in this
feasibility trial, blood glucose levels could be normalised and maintained in the narrow
target range for up to 24 hours without a single hypoglycaemic episode. Subsequently, the
algorithm was tested in a multicentric randomized controlled trial setting and showed
superiority by means of a reduced number of hypoglycaemic events and a higher percentage of
glucose values within the target range as compared to routine care glucose management
protocols. In this study it was a fact that the hourly sampling frequency in the algorithm
group has positively influenced the outcome in the algorithm group. Therefore in an enhanced
version of the algorithm (eMPC) the sampling interval is expanded up to 240 min.
The purpose of this study is to evaluate the feasibility of this enhanced model predictive
control algorithm for glycaemic control in critically ill patients compared to routine
treatment.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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