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Clinical Trial Summary

Propofol is currently the most common drug used but has drawbacks like narrow therapeutic window and potential complications. Dexmedetomidine is an attractive alternative due to its unique properties like minimal respiratory depression. Studies are ongoing to find the optimal use of dexmedetomidine for these procedures. A combination of propofol and dexmedetomidine might be ideal, but the best balance between the two drugs needs further investigation.


Clinical Trial Description

Advanced upper gastrointestinal tract procedures such as Endoscopic retrograde cholangiopancreatography (ERCP) & Endoscopic ultrasound (EUS) are very important diagnostic and therapeutic procedures for the diagnosis & management of many pancreatobiliary pathologies whether benign or malignant (1-4). These procedures require moderate-deep sedation with the patient lying in the lateral or semi-prone position to provide the operator easier access & insertion while permitting fluoroscopic visualisation (1-4). Propofol sedation is currently the most popular drug used for advanced endoscopic procedures because of its shorter half-life which results in a shorter recovery time than conventional sedation (benzodiazepine &/or opioid) (5). Propofol was administered initially by intermittent boluses but later on was superseded by continuous infusion guided by clinical scoring, e.g., Ramsey sedation score (6), by target-controlled infusion (TCI) (7) or more recently by bispectral index (BIS) monitoring (8). Propofol, however, has a narrow therapeutic window that may cause fluctuation of the level of sedation from moderately deep sedation to near general anesthesia. Not only that but also propofol sedation is associated with many other complications including apnoea, airway obstruction desaturation, hypotension, bradycardia, gagging, restlessness, regurgitation & vomiting & delayed recovery (9). Dexmedetomidine, a highly specific, potent and selective α2-adrenoceptor agonist, was originally introduced as a sedative for critically ill mechanically ventilated patients [9]. In addition to sedation, it has a group of unique properties in the form of analgesia, reduction of sympathetic tone and attenuation of the neuroendocrine and hemodynamic responses to anesthesia and surgery with minimal respiratory depression, making it an attractive agent for perioperative sedation especially in remote areas outside the operating theatres (6,10). The quest to replace propofol coupled with the unique sedo-analgesic properties of dexmedetomidine resulted in the interest in the use of dexmedetomidine for providing sedation for advanced endoscopic procedure (6,10). In 2021, Srivastava et al (6), studied the effects dexmedetomidine as a sole sedative agent in the form of a loading dose of 1 µg.kg-1 followed by 0.5 µg.kg-1.hr-1 continuous infusion. They reported that although this dexmedetomidine regimen produced adequate sedation in many patients yet it was associated with a relatively high sedation failure rate requiring rescue propofol boluses (6). Moreover, dexmedetomidine was associated with bradycardia & hypotension (6,7,11). It was 2013, When Wang et al (12), examined the propofol sparing effect of various dexmedetomidine loading doses ranging between 0.25 & 1 µg.kg-1 followed by a fixed infusion of 0.5 µg.kg-1.hr-1 and reported a dose dependent reduction of propofol requirements for induction of sedation (12). However, they did not investigate the impact of these dexmedetomidine doses on the total propofol consumption for the whole procedure, the incidence of adverse events or the recovery profile of such a combination in the context of sedation for advanced endoscopic procedures. Thus, the" sweet spot" (13), where there is a maximal synergism between propofol and dexmedetomidine, is still to be identified. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT06414395
Study type Interventional
Source Theodor Bilharz Research Institute
Contact Sameh M. Elaidy, Msc.
Phone 1111776906
Email sameh.elaidy@hotmail.com
Status Recruiting
Phase Phase 4
Start date May 1, 2024
Completion date October 1, 2024

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