Anesthesiology
-
Prolonged nerve blockade is potentially useful in the management of many acute and chronic pain problems. Aside from infusions via an indwelling catheter, most currently available nondestructive techniques for prolonging local anesthetic action cannot provide more than 1-2 days of blockade. Bioerodible polymer matrixes have been used to deliver a variety of drugs in patients and animals for periods lasting weeks to years. Previously, dibucaine and bupivacaine were incorporated into copolymers of 1,3 bis(p-carboxyphenoxy) propane-sebacic acid anhydride (1:4), and demonstrated sustained release in vitro following incubation of the drug-polymer matrixes in phosphate-buffered solution (pH 7.4, 37 degrees C). ⋯ This biodegradable polymer system provides a promising new alternative for the delivery of local anesthetics to peripheral nerves to produce prolonged blockade for the management of acute and chronic pain.
-
Noxious cutaneous stimuli enhance spinal excitability. The behavioral correlate to this response is found in the rat formalin test, in which formalin injection into the hindpaw evokes signs of nociception (flinching and licking of the injected paw) with acute (phase 1) and delayed-hyperalgesic (phase 2) components. ⋯ These observations offer systematic support for the powerful interaction between NSAIDs and opioids and certain other analgesics in clinical pain states. These studies also demonstrate that spinal synergy is not a common property of all interactions. Thus, the NSAID synergy appears to occur with agents that exert a concurrent action both pre- and postsynaptic to the primary afferents.
-
Few studies have been reported on the direct depressive effects of sevoflurane on myocardial contractility in humans. Direct assessment of contractile state is possible by examining the slope of left ventricular end-systolic wall stress (LVESWS) versus velocity of circumferential fiber shortening with heart rate corrected (Vcfc) relationship with echocardiography. Using this contractile index, the effects of sevoflurane/nitrous oxide were compared with that of enflurane/nitrous oxide on myocardia contractility in humans. ⋯ The results of the present study suggest that sevoflurane has fewer depressant effects on cardiac function than does enflurane.
-
Research has demonstrated that platelet activating factor may modulate, in part, the severity of postischemic neurologic injury. The proposed mechanism involves a platelet activating factor-mediated release of cerebral cellular lipids and free fatty acids, resulting in increased cerebral edema and cell injury. The present study tested the hypothesis that a specific platelet activating factor antagonist, BN 52021, would improve neurologic outcome after 12 min of complete global cerebral ischemia in a canine model. ⋯ The present data demonstrate that the platelet activating factor antagonist BN 52021, at a dose of 20 mg/kg intravenously given 5 min before cerebral ischemia, did not protect the brain from injury in this canine model of complete global ischemia.
-
Clonidine prolongs the duration of sensory and motor block induced by bupivacaine, and this association, in constant infusion by the epidural route, is used for postoperative analgesia. After a near-fatal intravenous bolus of bupivacaine in dogs, clonidine improves ventricular electrophysiologic parameters, but probably worsens bupivacaine-induced bradycardia and depression of the myocardial contractility. The current study, using a rodent animal model, evaluated the influence of clonidine pretreatment on the systemic toxic effects of bupivacaine overdose induced by a constant intravenous infusion. ⋯ In this model, clonidine given prophylactically delays the toxic manifestations of bupivacaine overdose and does not accentuate the subsequent hypotension.