Are 2 smaller intravenous catheters as good as 1 larger intravenous catheter?

Objective: Using Poiseuille's law and standardized gauge sizes, an 18-gauge (g) intravenous catheter (IV) should be 2.5 times faster than a 20-g IV, but this is not borne out by observation, in vitro testing, and manufacturer's data. Our objective was to determine if the infusion rate of a single 18-g IV was equivalent to the infusion rate of two 20-g IVs.

5-HT2C receptor mediation of unconditioned escape behaviour in the unstable elevated exposed plus maze.

Rationale And Objectives: m-Chlorophenylpiperazine (mCPP) induces panic in humans and dose dependently increases unconditioned escape behaviour in a novel pre-clinical model of extreme anxiety in rats, the unstable elevated exposed plus maze (UEEPM). Numerous studies indicate that the anxiogenic effects of mCPP may be mediated by its action at the 5-HT2C receptor. This study aimed to examine the involvement of the 5-HT2C receptor in the unconditioned fear responses observed in the UEEPM (after an acute dose of mCPP) by pre-treatment with the selective 5-HT2C receptor antagonist SB-242084.

Ethopharmacological analysis of the unstable elevated exposed plus maze, a novel model of extreme anxiety: predictive validity and sensitivity to anxiogenic agents.

Rationale And Objectives: The unstable elevated exposed plus maze (UEEPM) has been proposed as a novel model of anxiety which elicits unconditioned escape-related behaviour in rats thought to mimic the persistent "fight/flight" state exhibited by patients suffering from extreme anxiety disorders. This study investigated the predictive validity of the UEEPM by examining the behaviour of rats exposed to the test following administration of drugs known to induce panic and anxiety in panic disorder and post-traumatic stress disorder patients, namely m-chlorophenylpiperazine (mCPP), caffeine and yohimbine. The sensitivity of the UEEPM to two further putative anxiogenic agents, the benzodiazepine partial inverse agonist FG 7142 and pentylenetetrazole (PTZ), was also assessed.

Bypassing the Saccadic Pulse Generator: Possible Control of Head Movement Trajectory by Rat Superior Colliculus.

Saccades produced by electrical stimulation of the superior colliculus in primates are influenced primarily by the location of the stimulating electrode, with the suprathreshold intensity or frequency of the stimulating pulse train having little effect. Any given collicular site produces a characteristic movement of relatively fixed amplitude and velocity. In accordance with this finding, in models of the saccadic eye movement system the superior colliculus specifies the change of eye position: the velocity of movement components are determined by 'pulse generators' located between the superior colliculus and the oculomotor neurons.