Patients with hypertension exhibit reduced heart rate control during the recovery period after elective surgery. Clonidine prevents this reduction in heart rate control. This may represent a basis for the improved circulatory stability seen with perioperative administration of clonidine.
The analgesic effect of extradural clonidine was evaluated in a double-blind study. In the recovery room, following orthopaedic or perineal surgery 20 ASA I and II patients were allocated randomly to two groups. The extradural clonidine (EC) group received clonidine 2 micrograms kg-1 in isotonic saline solution 15 micrograms ml-1. The extradural saline (ES) group received the equivalent volume of plain isotonic saline solution. Pain was evaluated by a visual analogue scale (VAS) at 15-min intervals for the first 2 h and subsequently at 30-min intervals for the following 4 h. Morphine 5 mg was given s.c. when patients complained of pain after extradural saline or clonidine. In the EC group, the mean (SD) maximum pain relief was 68.2 (24.1)% of the initial VAS score, but it was only 14.7 (25.2)% in the ES group. The mean duration of analgesia, before injection of morphine, was significantly longer in the EC group (210 (87) min) compared with the ES group (45 (27) min) (P less than 0.001). Drowsiness and moderate hypotension were observed in the EC group.
In the critical care setting, α-2 agonists present a multifaceted profile: sedation combined with arousability, suppression of delirium, preservation of respiratory drive, reduced O(2) consumption, preserved renal function, and reduced protein metabolism. In addition, this review details the reduced arterial impedance, improved left ventricular performance, preserved vascular reactivity to exogenous amines, preserved cardiac baroreflex reactivity, preserved vasomotor baroreflex activity combined with a lowered pressure set point: these features may explain the good tolerance observed when α-2 agonists are used as continuous infusion without any loading dose. Reviewing the literature allows one to suggest that a new management appears possible with arousable sedation. However, it remains to be demonstrated whether this arousable sedation can be combined with the preservation of spontaneous ventilation, in the setting of severe respiratory distress, as opposed to conventional controlled mechanical ventilation combined with conventional sedation. Should such a speculative view be confirmed, then α-2 agonists will move from second-line sedative agents to first-line sedative agents. However, key studies are lacking to demonstrate the effect of α-2 agonists on physiological endpoints and outcome. Presently, the existing body of data suggests a niche for the use of α-2 agonists in the critical care setting.
Twenty-eight patients presenting for aortic surgery were randomly assigned in a double-blind, placebo-controlled protocol to receive placebo (n = 14) or clonidine (4.7 +/- 1.2 micrograms.kg-1 po; n = 14), in addition to flunitrazepam 120 min before induction of anesthesia. Plasma catecholamines (CA) and hemodynamic variables were determined at 7 stages during surgery. In the placebo group, plasma epinephrine (E) and norepinephrine (NE) had risen twofold at skin closure compared to baseline (E: from 109 +/- 51 pg.ml-1 to 294 +/- 161 pg.ml-1; NE: from 658 +/- 226 to 1150 +/- 494 pg.ml-1). Plasma CA were significantly lower in the clonidine group (P less than 0.001 and 0.01 vs placebo for NE and E respectively). In both groups, similar directional changes were observed for the circulatory variables, upon aortic clamping and declamping. In the clonidine group, however, mean arterial pressure was lower at most stages (P less than 0.05 vs placebo); moreover, stroke volume index was greater in the clonidine group (P less than 0.05) upon declamping. This improved stability in the clonidine group was achieved with a halving in the number of anesthetic/circulatory interventions (P less than 0.05 vs placebo). Provided intravascular volume is adequate, clonidine suppresses the increase in plasma catecholamines induced by aortic surgery and improves circulatory stability, with a reduced number of anesthetic, circulatory adjustments.
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