Evaluation of Propofol Dosing Based on Total Body Weight Using Closes-loop Anaesthesia Delivery System

Sponsor
Sir Ganga Ram Hospital (Other)
Overall Status
Recruiting
CT.gov ID
NCT05305313
Collaborator
(none)
46
1
2
27.7
1.7

Study Details

Study Description

Brief Summary

The pharmacokinetic profile of various drugs is altered in obese patients especially those administered by the intravenous route. Propofol is the commonly used intravenous anesthetic agent for induction and maintenance of anaesthesia as part of total intravenous anaesthesia (TIVA) regimen. A major concern with propofol dosing based on total body weight (TBW) in obese patients is disproportionate drug administration leading to undue drug accumulation in body with a potential to overdosing, delayed recovery from anaesthesia, and adverse hemodynamic outcome. Studies on propofol dosing based on various weight scalars have recommended that lean body weight (LBW) should be used for calculating bolus dose during anaesthesia induction and TBW or adjusted body weight (ABW) for arriving at an infusion dose required for maintenance of anesthesia. Although propofol delivery based on dose calculated by TBW has been well researched the evidence for propofol delivery based on dose calculated by ABW is lacking.

Recent advance in the delivery of propofol has been the development of computer controlled anaesthesia delivery systems. These devices deliver propofol based on patient's frontal cortex electrical activity as determined by bispectral index (BIS). Evaluation of anaesthesia delivery by these systems has shown that they deliver propofol and maintain depth of anaesthesia with far more precision as compared to manual administration. One such indigenously developed computer controlled anaesthesia delivery system is the closed loop anesthesia delivery system (CLADS). CLADS functions on control of processed EEG response parameter captured from anesthetized patients with the help of a BIS- monitor, which is continuously fed into an automated drug infusion pump. The infusion pump then accordingly delivers the anesthetic drug to the patients based on pharmacodynamic requirements. The investigators plan to evaluate the propofol maintenance dose requirement based on TBW versus ABW using CLADS for propofol delivery.

Condition or Disease Intervention/Treatment Phase
Phase 4

Detailed Description

Propofol is the most used intravenous agent for induction and maintenance of anaesthesia as part of total intravenous anaesthesia (TIVA) regimen.

In the morbidly obese, various factors, such as, increased body fat content, lean body weight, cardiac output, total blood volume, and alterations in regional blood flow; which adversely/unpredictably affect the volume of distribution, clearance and elimination of intravenous anesthetic drugs, thereby making administration of TIVA difficult to control.

A major concern with propofol dosing based on total body weight (TBW) in the obese patients is disproportionate drug administration leading to undue drug accumulation in body with potential overdosing, delayed recovery from anaesthesia, and adverse hemodynamic outcome. Studies on propofol dose regimen for TIVA recommended that LBW should be used for calculating bolus dose during induction of anaesthesia and TBW or ABW for arriving at a infusion dose required for maintenance of anaesthesia.

Propofol requirement for induction of anaesthesia is based on LBW is especially relevant for the morbidly obese patients as because their surplus fat mass increases volume of distribution of propofol, which, in the face of decreased blood flow to adipose tissue; imposes the burden of potential drug accumulation. This may result in increased drug delivery to non-adipose tissue during induction of anaesthesia and possibly leading to undesirable rarefaction of depth-of-anaesthesia and attendant adverse haemodynamic effects.

Conversely, during the maintenance phase of propofol TIVA, the volume of distribution and clearance of propofol increases and correlates linearly with TBW. In this respect, controlling propofol delivery in the morbidly obese with Eleveld allometric PK model, which utilizes TBW as weight parameter; has been found to be superior to other models that employs other weight dosing scalars.

The use of ABW in Schnider and Marsh model takes into consideration drug distribution to lean tissues as well as a proportion to the body fat weight, thus accounting for lipid solubility dynamics of propofol. ABW is calculated by adding 40% excess fat weight (FW) to IBW.

In obese patients propofol delivery using the Eleveld allometric PK model by incorporating TBW has been found to be superior to other models using other dosing scalars.

Target-controlled infusion (TCI) forms the core of standard-of-care method used for administration of propofol TIVA. TCI system typically includes a microprocessor-controlled syringe pump that is designed to achieve a defined plasma concentration of the drug based on patient response and multi-compartment pharmacokinetic (PK) model.

While TCI systems are designed to deliver propofol at a rate based on a predetermined plasma concentration, they do not take into consideration patient's pharmacodynamic profile. Hence, it is difficult to determine whether the target plasma concentration achieved has produced adequate anaesthesia depth. In the absence of reliable depth of anaesthesia monitors, during the maintenance phase of propofol TIVA, the desired plasma concentration achieved may either result in intraoperative awareness due to under-dosing or delayed recovery from anaesthesia because of over-dosing.

Currently, an array of research on automated propofol delivery using computer-controlled closed loop anaesthesia delivery systems which deliver propofol based on patient's frontal cortex electrical activity as determined by bispectral index (BIS); have amply exhibited that these systems deliver propofol and maintain depth of anaesthesia with far more precision as compared to manual administration.

Liu et al used a BIS-guided dual loop anaesthesia delivery system to determine requirement of propofol and remifenatnil in the obese versus lean patients. The propofol delivery was controlled by a closed loop set through TCI pump. Propofol was delivered with dose calculation by TBW and based on the Schnider model. The propofol dosage delivered as per TBW in real-time was analyzed post hoc on a IBW scale. The propofol requirements for induction and maintenance based on TBW was equivalent both in obese and lean patients.

CLADS is a BIS-guided automated closed-loop anaesthesia delivery system developed by Puri, which delivers propofol using a non-TCI infusion pump. This system uses a control algorithm that is based on the relationship between diverse rates of propofol infusion and BIS variable. CLADS regulates the propofol infusion rate to maintain a predetermined BIS target (BIS=50) and is independent of plasma propofol concentration status. CLADS is uniquely versatile in that it can calculate propofol dosage delivered both on basis of TBW or IBW.

Whereas, in a study comparing CLADS administered propofol versus desflurane-GA in morbid obese patients undergoing bariatric surgery (unpublished data) the propofol maintenance dosage based on ABW was 5.5 + 1.3 mg kg-1 h-1; Liu et al reported a median propofol consumption of 5.2 [4.1, 6] mg kg-1 h-1 with their dual-loop closed loop anaesthesia delivery system that also utilized TBW based administration of propofol and remifentanil. In both the study, BIS was used as an input control actuator to close the feedback loop joining the patient, the delivery system, and the infusion flow system.

Although maintenance of propofol TIVA based on TBW is well established, the dosing schedule based on ABW is not well explored. Since the ABW takes into consideration a certain percentage of FW in addition to IBW and not the complete FW as in TBW, we hypothesize that propofol dosing using ABW will result in lower propofol requirement as compared to TBW for maintaining equivalent anesthetic depth. Since CLADS gives an objective assessment of propofol dose delivered and anaesthesia depth consistency, this randomized study aim to compare the maintenance requirements of propofol in obese patients given propofol dosing based on TBW versus ABW

Study Design

Study Type:
Interventional
Anticipated Enrollment :
46 participants
Allocation:
Randomized
Intervention Model:
Parallel Assignment
Intervention Model Description:
Forty six- patients of either sex, and schedule for laparoscopic and non-laparoscopic surgery of more than 60-minutes duration will be randomly divided into two groups of 23 each patients: Group-I [TBW group, n=23]: Patients in this group will receive maintenance propofol calculated using total body weight (TBW). Group-II [ABW group, n=23]: Patients in this group will receive maintenance propofol calculated using adjusted body weight (ABW).Forty six- patients of either sex, and schedule for laparoscopic and non-laparoscopic surgery of more than 60-minutes duration will be randomly divided into two groups of 23 each patients:Group-I [TBW group, n=23]: Patients in this group will receive maintenance propofol calculated using total body weight (TBW). Group-II [ABW group, n=23]: Patients in this group will receive maintenance propofol calculated using adjusted body weight (ABW).
Masking:
Double (Participant, Outcomes Assessor)
Masking Description:
The patient will be blinded to the type of anaesthesia intervention. The attending anaesthesiologist will however not be blinded to the technique utilized to administer GA and recovery immediately after extubation inside the OR. The postoperative patient recovery profile will be evaluated by an independent assessor blinded to the technique of GA.
Primary Purpose:
Basic Science
Official Title:
Evaluation of Propofol Dosing Based on Total Body Weight Versus Adjusted Body Weight in Obese Patients Receiving Total Intravenous Anaesthesia With Automated Closed-Loop Anaesthesia Delivery System: A Randomized Controlled Study
Actual Study Start Date :
Apr 19, 2022
Anticipated Primary Completion Date :
Aug 4, 2024
Anticipated Study Completion Date :
Aug 10, 2024

Arms and Interventions

Arm Intervention/Treatment
Active Comparator: Total Body Weight group

Anesthesia will be induced with Propofol administered by CLADS which will be set to deliver Propofol according to lean body weight (LBW). A BIS-value of 50 will be used as the target for induction of anesthesia. Thereafter anaesthesia maintenance will be done with Propofol, with the dosing based on total body weight (TBW), and administration controlled with CLADS tuned to consistent anaesthetic depth (BIS-50) feedback from the patients.

Drug: Propofol
Propofol delivery will be controlled using automated closed loop anaesthesia delivery system which will control propofol delivery rate to consistent anaesthetic depth (BIS-50) feedback from the patient.

Active Comparator: Adjusted Body Weight group

Anesthesia will be induced with Propofol administered by CLADS which will be set to deliver Propofol according to lean body weight (LBW). A BIS-value of 50 will be used as the target for induction of anesthesia. Thereafter anaesthesia maintenance will be done with Propofol, with the dosing based on total body weight (TBW), and administration controlled with CLADS tuned to consistent anaesthetic depth (BIS-50) feedback from the patients.

Drug: Propofol
Propofol delivery will be controlled using automated closed loop anaesthesia delivery system which will control propofol delivery rate to consistent anaesthetic depth (BIS-50) feedback from the patient.

Outcome Measures

Primary Outcome Measures

  1. Propofol Maintenance Dose (mg/kg/hour) [From start of anesthesia till 5- minutes post skin closure]

    Propofol required for maintenance of anaesthesia based on total body weight versus adjusted body weight

Secondary Outcome Measures

  1. Anaesthesia Depth consistency [From start of anesthesia till 5- minutes post skin closure]

    Percentage of the total valid CLADS time during which the BIS remained + 10% of the target BIS value of 50.

  2. Performance characteristic of propofol delivery system [From start of anesthesia till 5- minutes post skin closure]

    It will be determined using the Varvel criteria parameter :median performance error (MDPE). This parameter is calculated by the computer software which analyses the intraoperative BIS data. This parameter have no unit of measurement. Its just a abstract number

  3. Performance characteristic of propofol delivery system [From start of anesthesia till 5- minutes post skin closure]

    It will be determined using the Varvel criteria parameter: median absolute performance error (MDAPE).This parameter is calculated by the computer software which analyses the intraoperative BIS data. This parameter have no unit of measurement. Its just a abstract number.

  4. Performance characteristic of propofol delivery system [From start of anesthesia till 5- minutes post skin closure]

    It will be determined using the Varvel criteria parameter: wobble. This parameter is calculated by the computer software which analyses the intraoperative BIS data. This parameter have no unit of measurement. Its just a abstract number.

  5. Performance characteristic of propofol delivery system [From start of anesthesia till 5- minutes post skin closure]

    It will be determined using the Varvel criteria parameter: global score. It is calculated using the formula Median absolute performance error + wobble / percentage of the anesthesia time during which the BIS remained +/- 10 of the target BIS of 50. This parameter have no unit of measurement. Its just a abstract number.

  6. Intra-operative heart Rate (beats per minute) [From beginning of anaesthesia till 10 hours intraoperatively]

    Comparison of intra-operative heart rate between the study arms will be done

  7. Intra-operative systolic , diastolic, and mean blood pressure (mmHg) [From beginning of anaesthesia till 10 hours intraoperatively]

    Comparison of intra-operative blood pressure- systolic, diastolic, and mean blood pressure between the study arms will be done

  8. Early recovery from anaesthesia [From beginning of anaesthesia till 30-minutes postoperatively]

    Time taken by the patient to open his/her eyes after discontinuation of anaesthesia will be noted

  9. Early recovery from anaesthesia [From beginning of anaesthesia till 30-minutes postoperatively]

    Time taken for tracheal extubation after discontinuation of anaesthesia will be noted

  10. Postoperative sedation [From end of anaesthesia till 24-hours postoperatively]

    Will be assessed using Modified Observer's assessment of alertness/sedation scale. The scale has a maximum value of '5', which refers to a fully awake patient and a minimum value of '0' which refers to a deeply sedated patient.

  11. Intraoperative awareness [From the end of anaesthesia till 48-hours, postoperatively]

    Will be assessed using modified brice questionnaire. The questionnaire has a set of '5' questions, if answer to any of the question is in affirmative then it is suggestive of intraoperative awareness

Eligibility Criteria

Criteria

Ages Eligible for Study:
18 Years to 65 Years
Sexes Eligible for Study:
All
Accepts Healthy Volunteers:
No
Inclusion Criteria:
  1. ASA physical status II/III

  2. laparoscopic and non-laparoscopic surgery of more than 60-minutes duration

Exclusion Criteria:
  1. Cardiovascular disorders (uncontrolled hypertension, Atrio-ventricular block, sinus bradycardia, congenital heart disease, reduced LV compliance & diastolic dysfunction)

  2. Neurological disorders (previous neurosurgery, psychiatric disorders, autonomic nervous system disorders- orthostatic hypotension, transient ischemic attacks)

  3. Hepato-renal insufficiency

  4. Uncontrolled diabetes mellitus

  5. Known allergy/hypersensitivity to study drug

  6. Pulmonary dysfunction (restrictive /obstructive lung disease)

  7. Acute/chronic drug dependence/substance abuse

Contacts and Locations

Locations

Site City State Country Postal Code
1 Nitin Sethi New Delhi Delhi India 110060

Sponsors and Collaborators

  • Sir Ganga Ram Hospital

Investigators

  • Study Director: Goverdhan D Puri, MD, PhD, Post Graduate Institute of Medical Education & Research, Chandigarh, India
  • Study Chair: Jayashree Sood, MD, FFRCA, PGDHHM, FICA, Sir Ganga Ram Hospital, New Delhi, INDIA

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.
Responsible Party:
Dr Nitin Sethi, Principal Investigator, Sir Ganga Ram Hospital
ClinicalTrials.gov Identifier:
NCT05305313
Other Study ID Numbers:
  • EC/01/22/1992
First Posted:
Mar 31, 2022
Last Update Posted:
May 5, 2022
Last Verified:
May 1, 2022
Individual Participant Data (IPD) Sharing Statement:
No
Plan to Share IPD:
No
Studies a U.S. FDA-regulated Drug Product:
No
Studies a U.S. FDA-regulated Device Product:
No
Additional relevant MeSH terms:

Study Results

No Results Posted as of May 5, 2022