Addition of low-dose ketamine to midazolam-fentanyl-propofol–based sedation for colonoscopy: a randomized, double-blind, controlled trial

Abstract Study Objective To evaluate the effects of low-dose ketamine on midazolam-fentanyl-propofol–based sedation for outpatient colonoscopy. Design Prospective, randomized, double-blinded, placebo-controlled trial. Setting Gastroenterology unit at a practice and clinical research center. Subjects...

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Bibliographic Details
Published in:Journal of clinical anesthesia 2015-06, Vol.27 (4), p.301-306
Main Authors: Tuncali, Bahattin, MD, Pekcan, Yonca Ozvardar, MD, Celebi, Arzu, MD, Zeyneloglu, Pinar, MD
Format: Article
Language:English
Subjects:
Aged
Anesthesia
Anesthesia & Perioperative Care
Anesthesia - methods
Anesthesia Recovery Period
Blood pressure
Colonoscopy
Colonoscopy - methods
Double-Blind Method
Drug dosages
Ethics
Female
Fentanyl - administration & dosage
Gastroenterology
Hemodynamics - drug effects
Humans
Hypnotics and Sedatives - administration & dosage
Intubation
Ketamine
Ketamine - administration & dosage
Male
Midazolam - administration & dosage
Middle Aged
Pain Medicine
Patient Satisfaction
Propofol - administration & dosage
Prospective Studies
Safety
Satisfaction
Sedation
Ventilation
Vomiting
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Summary:Abstract Study Objective To evaluate the effects of low-dose ketamine on midazolam-fentanyl-propofol–based sedation for outpatient colonoscopy. Design Prospective, randomized, double-blinded, placebo-controlled trial. Setting Gastroenterology unit at a practice and clinical research center. Subjects Ninety-seven healthy American Society of Anesthesiology physical status 1 volunteers. Interventions Subjects were randomized to receive midazolam (0.02 mg/kg), fentanyl (1 μ g/kg), and ketamine (0.3 mg/kg) and midazolam (0.02 mg/kg), fentanyl (1 μ g/kg), and placebo (0.9% sodium chloride) in group K and group C, respectively. In both groups, incremental doses of propofol were used to maintain a Ramsay sedation score of 3 to 4. Measurements Values of heart rate, blood pressure, oxygen saturation, and respiratory rate were measured. Procedure times, recovery times, drug doses used, complications associated with the sedation, and physician and patient satisfaction were also recorded. Main Results In group K, mean amount of propofol used and mean induction time ( P < .001), the need for the use of jaw thrust maneuver and mask ventilation, and the incidence of disruptive movements were significantly lower ( P < .05) and gastroenterologist satisfaction at the beginning of the procedure was significantly superior ( P < .05). Mean systolic blood pressures at 4, 6, 8, and 10 minutes ( P < .01); diastolic blood pressures at 4, 6, and 8 minutes ( P < .05); respiratory rates at 4, 6, 8, 10, 15, 20, and 25 minutes ( P < .01); and oxygen saturation at 6, 8, 10, 15, and 20 minutes ( P < .05) were significantly lower in group C. Patient satisfaction scores, recovery times, and discharge times were similar. No patient in either group experienced unpleasant dreams or hallucination in the postanesthesia care unit and on the first postoperative day. Conclusions Addition of low-dose ketamine to midazolam-fentanyl-propofol–based sedation for outpatient colonoscopy resulted in more rapid and better quality of sedation, less propofol consumption, more stable hemodynamic status, and less adverse effects with similar recovery times in adult patients.
ISSN:0952-8180
1873-4529
DOI:10.1016/j.jclinane.2015.03.017