Blood Pressure Clinical Trial
Official title:
Optimal Dose of Intravenous Oxycodone for Attenuation of Hemodynamic
Intravenous form of oxycodone is recently used for the adjunct of anesthetic agents to avoid
adverse effects of the stimulation of endotracheal intubation. The potency ratio of oxycodone
to fentanyl is not absolutely defined. The aim of this study was to assess the optimal dose
of intravenous oxycodone for attenuation of hemodynamic responses to laryngoscopy and
endotracheal intubation.
A prospective, randomized, double-blind study was conducted. Ninety one patients were
randomly divided into 5 group based on the dose of oxycodone; 0, 0.05, 0.1, 0.15, 0.2 mg/kg.
After giving each assigned dose of intravenous oxycodone, anesthesia was induced with
thiopental and rocuronium. Heart rate (HR) and blood pressure (BP) was collected at baseline,
before intubation, 1, 2, 3 minutes after intubation. The change of BP was calculated by
(highest BP after intubation - baseline BP)/baseline BP.
Endotracheal intubation is almost always associated with increase of catecholamine and
arterial blood pressure. To prevent the responses to laryngoscopy and tracheal intubation,
adjuvant use of opioid to sedative drugs during anesthetic induction phase are common.
Intravenous form of oxycodone is recently used for the adjunct of anesthetic agents to avoid
adverse effects of the stimulation of endotracheal intubation. However, The potency ratio of
oxycodone to fentanyl is not absolutely defined. Therefore, the investigators aimed to assess
the optimal dose of intravenous oxycodone for attenuation of hemodynamic responses to
laryngoscopy and endotracheal intubation.
The patients were randomly divided into five different groups based on the dose of oxycodone;
0. 0.05, 0.1, 0.15, 0.2 mg/kg. The drug was prepared by a person who is not participating the
anesthetic management and surgery of the patient. In five groups, the drug was mixed with
normal saline which makes the total drug volume to be 10 ml. After monitoring was started
including ECG, noninvasive blood pressure, and pulse oximetry, the anesthesiologist who has
no information about the drug give the drug when starting induction of anesthesia. Thiopental
4-5 mg/kg and rocuronium 0.6-0.9 mg/kg was given subsequently. Manual ventilation was done
with sevoflurane 3-5 volume% for 2-3 minutes and tracheal intubation was done. Maintenance of
anesthesia was done with 50% O2 with nitrous oxide and sevoflurane. Mechanical ventilation
was done with tidal volume 10 ml/kg and respiratory rate 12 /min. The baseline hemodynamic
data including heart rate and blood pressure was recorded and those before intubation, 1,2,3
minutes after intubation were obtained. The discrepancies between the highest and baseline,
the lowest blood pressure and heart rate and baseline were used to make out the proportion of
hemodynamic changes. This proportion of the hemodynamic changes were compared in five groups.
In addition, the use of vasopressor was also recorded and the frequency and the cumulative
dose was compared among the groups.
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