Automated vs Conventional Perioperative Glycemic Control in Diabetic Patients Undergoing Cardiopulmonary Bypass Surgery

NCT ID: NCT03314272

Last Updated: 2022-01-03

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: NA
• Total Enrollment: 59 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2018-05-16
• Study Completion Date: 2021-02-04

Brief Summary

The purpose of this randomized controlled trial is to evaluate a fully automated algorithm for the establishment of glycemic control in diabetic patients and to compare the results with routine management of hyperglycemia in patients undergoing cardiopulmonary bypass surgery.

Detailed Description

Upon admission of the patients to the hospital, demographic and physiological data will be collected including waist circumference and BMI. A set of baseline laboratory tests will be done for each patient including: glucose level, Hba1c, lipid profile, creatinine level, liver enzymes and micro albumin/creatinine urinary ratio.

Patients will be asked about the presence of any diabetes complications: nephropathy, retinopathy and/or neuropathy.

In the induction room, an intravenous cannula will be inserted by an experienced anesthesiology staff or resident. A three way stopcock will be connected directly to the cannula. Standard monitors (ECG, non-invasive blood pressure and oxygen saturation) will be connected to the patient. An arterial line will be inserted by the anesthesia resident under sterile conditions using 20 gauge angiocatheter.

General anesthesia will be started. A baseline glucose level will be taken from a blood gas sample, from the arterial line inserted at the beginning of the surgery.

In the Control group, patients' glucose levels will be managed as per the anesthesiologist and/or the anesthesia resident in charge of intraoperative anesthesia management of the patients. The patient will be given actrapid insulin using the glucose sliding scale for diabetic patients as set by the protocol set at AUBMC (mentioned in methodology).

The anesthesia resident will be just asked to take a blood gas sample for the patient every 30 minutes without telling him/her about the purpose of the study, so he/she will be blinded and will act accordingly (including administering insulin to the patient or just monitoring the blood glucose levels without intervening). At the end of the surgery a copy of the blood gas samples and chart of the patients will be collected.

In the Experimental group, patients will be treated using an automated protocol consisting of an insulin infusion pump named The Space Glucose Control System by B. Braun, in Melsungen, Germany. The Space Glucose Control system is a Class IIb medical device. The manufacturer, B. Braun, received the first CE mark in June 2004. The most recent renewal was in May 2013. At the bottom of this system, a central user interface is connected with a touch screen interface in order to enter the data. The glucose reading as measured has to be entered manually by the medical house staff (anesthesia resident) via the touch screen display. Based on this input the system gives advice on the insulin infusion rate. The suggested insulin infusion is displayed on the screen, but has to be entered manually and therefore confirmed by the medical staff.

For glucose measurement, a sample of blood gas will be taken every half an hour. Actrapid HM will be used in a 4IU/ ml concentration for infusion in a 50 ml syringe.

The range of glucose will be recorded throughout the intra-operative period. The number of hypoglycemic (<70mg/dl) and hyperglycemic (> 200mg/dl) events will be recorded.

Insulin allergy in patients with diabetes mellitus is a rare condition. Signs and symptoms including angioedema, hypotension, urticaria and rash, if present, are usually noticed immediately following the injection. Patients suspected of having insulin allergy will be treated by stopping the infusion, administering antihistaminic H2 and H1 blockers, corticosteroids and pressors depending on the magnitude of the allergic reaction.

Hypoglycemia defined as blood glucose level less than 70 mg/dl, will be detected and treated promptly to provide a rise in blood glucose to a safe level in order to eliminate any potential harm. The intervention will include intravenous infusion of 100 to 200 ml of D5 water over 1 to 3 minutes and repeating blood glucose level after 15 minutes to reach a target blood sugar of 100. The same intervention will be repeated in case this level wasn't reached and patient will be withdrawn from the study after two failed correction and will be treated more aggressively with an infusion of D10W.

Conditions

Diabetes; Cardiopulmonary Bypass

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: SINGLE

Study Groups

Sliding scale protocol

Consists of giving insulin every 30 minutes based on the blood glucose readings as follows:

• <150 mg/dl: 0 units of insulin
• 150-220 mg/dl: 2 units of insulin
• 201-250 mg/dl: 4 units
• 251-300 mg/dl: 6 units
• 301-350 mg/dl: 8 units
• 351-400 mg/dl: 10 units
• > 400 mg/dl: inform the MD on call

Group Type: NO_INTERVENTION

No interventions assigned to this group

Space Glucose Control

Automated protocol consisting of an insulin infusion pump named The Space Glucose Control System.

Intervention:

For glucose measurement, a sample of blood gas will be taken every 30 minutes. Actrapid HM will be used in a 4IU/ ml concentration for infusion in a 50 ml syringe.

The range of glucose will be recorded throughout the intra-operative period. The number of hypoglycemic (<70mg/dl) and hyperglycemic (> 200mg/dl) events will be recorded.

Group Type: EXPERIMENTAL

Space Glucose Control

Intervention Type: DEVICE

Development of a closed loop control system via Space Glucose Control that automatically infuses insulin on the basis of an automated algorithm, which integrates a continuous glucose signal, could help overcome these obstacles and permit strict glycemic control without increasing the workload.

Interventions

Space Glucose Control

Development of a closed loop control system via Space Glucose Control that automatically infuses insulin on the basis of an automated algorithm, which integrates a continuous glucose signal, could help overcome these obstacles and permit strict glycemic control without increasing the workload.

Intervention Type: DEVICE

Eligibility Criteria

Inclusion Criteria

• Type I or type II diabetic patients from both genders aged between 40 - 75 years, who are ASA III-IV undergoing Cardiopulmonary Bypass surgery under general anesthesia for more than 4 hours and requiring the insertion of an arterial line.

Exclusion Criteria

• Critically ill patients ASA V
• Pregnant patients
• Patients' refusal to consent
• Emergency or lifesaving cases

• Minimum Eligible Age: 40 Years
• Maximum Eligible Age: 75 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

American University of Beirut Medical Center

OTHER

Sponsor Role: lead

Responsible Party

Roland Kaddoum

Associate Professor Department of Anesthesiology/ Director of Pediatric Anesthesia/ Director of Operating Room

Responsibility Role: PRINCIPAL_INVESTIGATOR

Locations

American University of Beirut Medical Center

Beirut, , Lebanon

Countries

Lebanon

References

Bellon F, Sola I, Gimenez-Perez G, Hernandez M, Metzendorf MI, Rubinat E, Mauricio D. Perioperative glycaemic control for people with diabetes undergoing surgery. Cochrane Database Syst Rev. 2023 Aug 1;8(8):CD007315. doi: 10.1002/14651858.CD007315.pub3.

Reference Type: DERIVED

PMID: 37526194 (View on PubMed)

Kaddoum R, Khalili A, Shebbo FM, Ghanem N, Daher LA, Ali AB, Chehade NEH, Maroun P, Aouad MT. Automated versus conventional perioperative glycemic control in adult diabetic patients undergoing open heart surgery. BMC Anesthesiol. 2022 Jun 16;22(1):184. doi: 10.1186/s12871-022-01721-6.

Reference Type: DERIVED

PMID: 35710339 (View on PubMed)

Other Identifiers

ANES.RK.03

Identifier Type: -

Identifier Source: org_study_id