Perturbation of combined saccade-vergence movements by microstimulation in monkey superior colliculus.
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Perturbation of combined saccade-vergence movements by microstimulation in monkey superior colliculus. This study investigated the role of the monkey superior colliculus (SC) in the control of visually (V)-guided combined saccade-vergence movements by assessing the perturbing effects of microstimulation. We elicited an electrical saccade (E) by stimulation (in 20% of trials) in the SC while the monkey was preparing a V-guided movement to a near target. The target was aligned such that E- and V-induced saccades had similar amplitudes but different directions and such that V-induced saccades had a significant vergence component (saccades to a near target). The onset of the E-stimulus was varied from immediately after V-target onset to after V-saccade onset. E-control trials, where stimulation was applied during fixation of a V-target, yielded the expected saccade but no vergence. By contrast, early perturbation trials, where the E-stimulus was applied soon after the onset of the V-target, caused an E-triggered response with a clear vergence component toward the V-target. Midflight perturbation, timed to occur just after the monkey initiated the movement toward the target, markedly curtailed the ongoing vergence component during the saccade. Examination of pooled responses from both types of perturbation trials showed weighted-averaging effects between E- and V-stimuli in both saccade and fast vergence components. Both components exhibited a progression from E- to V-dominance as the E-stimulus was delayed further. This study shows that artificial intervention in the SC, while a three-dimensional (3D) refixation is being prepared or is ongoing, can affect the timing (WHEN) and the metric specification (WHERE) of both saccades and vergence. To explain this we interpret the absence of overt vergence in the E-controls as being caused by a zero-vergence change command rather than reflecting the mere absence of a collicular vergence signal. In the perturbation trials, the E-evoked zero-vergence signal competes with the V-initiated saccade-vergence signal, thereby giving rise to a compromised 3D response. This effect would be expected if the population of movement cells at each SC site is tuned in 3D, combining the well-known topographical code for direction and amplitude with a nontopographical depth representation. On E-stimulation, the local population would yield a net saccade signal caused by the topography, but the cells coding for different depths would be excited equally, causing the vergence change to be zero. (+info)
Emergence of postural patterns as a function of vision and translation frequency.
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Emergence of postural patterns as a function of vision and translation frequency. We examined the frequency characteristics of human postural coordination and the role of visual information in this coordination. Eight healthy adults maintained balance in stance during sinusoidal support surface translations (12 cm peak to peak) in the anterior-posterior direction at six different frequencies. Changes in kinematic and dynamic measures revealed that both sensory and biomechanical constraints limit postural coordination patterns as a function of translation frequency. At slow frequencies (0.1 and 0.25 Hz), subjects ride the platform (with the eyes open or closed). For fast frequencies (1.0 and 1.25 Hz) with the eyes open, subjects fix their head and upper trunk in space. With the eyes closed, large-amplitude, slow-sway motion of the head and trunk occurred for fast frequencies above 0.5 Hz. Visual information stabilized posture by reducing the variability of the head's position in space and the position of the center of mass (CoM) within the support surface defined by the feet for all but the slowest translation frequencies. When subjects rode the platform, there was little oscillatory joint motion, with muscle activity limited mostly to the ankles. To support the head fixed in space and slow-sway postural patterns, subjects produced stable interjoint hip and ankle joint coordination patterns. This increase in joint motion of the lower body dissipated the energy input by fast translation frequencies and facilitated the control of upper body motion. CoM amplitude decreased with increasing translation frequency, whereas the center of pressure amplitude increased with increasing translation frequency. Our results suggest that visual information was important to maintaining a fixed position of the head and trunk in space, whereas proprioceptive information was sufficient to produce stable coordinative patterns between the support surface and legs. The CNS organizes postural patterns in this balance task as a function of available sensory information, biomechanical constraints, and translation frequency. (+info)
Do arm postures vary with the speed of reaching?
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Do arm postures vary with the speed of reaching? For reaching movements in one plane, the hand has been observed to follow a similar path regardless of speed. Recent work on the control of more complex reaching movements raises the question of whether a similar "speed invariance" also holds for the additional degrees of freedom. Therefore we examined human arm movements involving initial and final hand locations distributed throughout the three-dimensional (3D) workspace of the arm. Despite this added complexity, arm kinematics (summarized by the spatial orientation of the "plane of the arm" and the 3D curvature of the hand path) changed very little for movements performed over a wide range of speeds. If the total force (dynamic + quasistatic) had been optimized by the control system (e.g., as in a minimization of the change in joint torques or the change in muscular forces), the optimal solution would change with speed; slow movements would reflect the minimal antigravity torques, whereas fast movements would be more strongly influenced by dynamic factors. The speed-invariant postures observed in this study are instead consistent with a hypothesized optimization of only the dynamic forces. (+info)
Effects of contingent and non-contingent cocaine on drug-seeking behavior measured using a second-order schedule of cocaine reinforcement in rats.
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Rats were trained to respond with intravenous cocaine as the reinforcer under a fixed interval 15-min schedule, during which conditioned stimuli paired with cocaine were presented contingent on completion of a fixed ratio of 10 responses (i.e., second-order schedule of reinforcement). The effects of contingent and noncontingent cocaine were investigated. The results show that pretreatment with noncontingent (i.e., experimenter-administered) cocaine led to a satiation-like effect that was reflected in decreased numbers of responses and a tendency for an increased latency to initiate responding when the doses of cocaine administered were similar to or higher than the training/maintenance dose of cocaine. By contrast, noncontingent administration of cocaine doses lower than the training/maintenance dose, and response-contingent cocaine administration, led to increased drug-seeking behavior, as reflected in increased numbers of responses. The present data indicate that at least two factors determine whether administration of cocaine would lead to drug-seeking behavior: whether the cocaine administration is contingent or noncontingent, and the relative magnitude of the cocaine dose administered in relation to the training/maintenance dose of cocaine. (+info)
Behavioral effects of psychomotor stimulant infusions into amygdaloid nuclei.
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The role of amygdaloid nuclei in locomotion, stereotypy, and conditioned place preference (CPP) produced by psychomotor stimulants was examined. Five 2-day conditioning trials were conducted over 10 consecutive days. Rats received bilateral intracranial infusions of saline, cocaine (25-100 micrograms/side), or amphetamine (0.31-20 micrograms/side) into the ventricles (ICV), basolateral amygdala (BlA), or central amygdala (CeA) and were confined to a compartment. On alternating days, rats received sham infusions and were confined to a different compartment. Locomotion was measured daily, stereotypy was measured on trials 1 and 5, and CPP was measured 24 h after conditioning. ICV infusions of cocaine or amphetamine produced locomotion, rearing, and CPP. Intra-BlA and intra-CeA infusions of the highest dose of cocaine produced locomotion. In contrast, intra-CeA infusions of amphetamine potently produced locomotion and CPP. Intra-BlA infusions of amphetamine, however, did not produce any behavioral changes. These results suggest that the CeA, but not the BlA, is involved in initiating reward and locomotion produced by amphetamine. (+info)
Pharmacological characterization of nicotine's interaction with cocaine and cocaine analogs.
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Cocaine and a number of 3beta-phenyltropane cocaine analogs were investigated for their potential to block various pharmacological effects of nicotine in animals. They blocked the antinociceptive effect of nicotine in the tail-flick test after systemic administration in a dose-dependent manner. Similarly, cocaine was also able to block nicotine-induced motor impairment in mice. Furthermore, cocaine blocked nicotine-induced seizures at a lower potency than for antinociception, but failed to block nicotine's effect on body temperature and drug discrimination. The antagonistic potencies of the 3beta-phenyltropane cocaine analogs were not correlated with their affinity for monoamines transporters. Additionally, bupropion, nomifensin, GBR 12909, and nisoxetine, but not methylphenidate and fluoxetine, blocked nicotine-induced antinociception; however, their antagonistic potencies were unrelated to their affinities for the transporters. Taken together, these results suggest that the mechanism of cocaine's antagonistic activity is not related to its binding and uptake of inhibition on monoamine neurotransporters. The failure of lidocaine and procaine to antagonize nicotine's effects in the tail-flick assay rules out local anesthetic effects. In addition, cocaine blocked differentially the response of nicotine in the oocyte receptor expression system for the alpha4beta2 and alpha3beta2 subtypes in a dose-dependent manner. Our results suggest that cocaine is a noncompetitive nicotinic antagonist with some selectivity for neuronal nicotinic receptor subtypes. Our studies also demonstrate that 3beta-phenyltropane analogs constitute a new class of nicotinic antagonists. Elucidation of the mechanism of action of this new class of antagonists may provide an explanation for the effectiveness of agents such as bupropion for the treatment of smoking cessation. (+info)
Assessment of opioid partial agonist activity with a three-choice hydromorphone dose-discrimination procedure.
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The discriminative stimulus and subjective effects of opioid mixed agonist-antagonists were assessed in volunteer nondependent heroin users trained in a three-choice drug discrimination procedure to discriminate among the effects of i.m. administration of 2 ml of saline, 1 mg of hydromorphone, and 4 mg of hydromorphone (a morphine-like mu agonist). Other subjective, behavioral, and physiological measures were concurrently collected. The discrimination was readily learned by six of the eight subjects. After training, generalization curves were determined for the following i.m. drug conditions: hydromorphone (0.375-4.0 mg), pentazocine (7.5-60 mg), butorphanol (0.75-6 mg), nalbuphine (3-24 mg), and buprenorphine (0.075-0.6 mg). All five of the test drugs were discriminated significantly or showed trends toward being discriminated as hydromorphone 1 mg-like at one or more dose levels. Hydromorphone showed an inverted U-shaped dose-effect function on the hydromorphone 1 mg-like discrimination. Subjective effect measures produced clearer differentiation among the test drugs than did drug discrimination performance. The present results differ from those of a previous study that observed a close relationship between the results of the discrimination measure and subjective effect measures. The previous study used similar methods and test drugs but different training drugs (e.g., 3 mg of hydromorphone versus 6 mg of butorphanol versus saline). It appears that both the sensitivity of drug discrimination performance to between-drug differences and the relationship between discriminative and subjective effects depends upon the specific discrimination that is trained (e.g., two-choice or three-choice). The present high dose-low dose-saline discrimination procedure appears useful for assessing partial agonist activity. The present data are consistent with partial agonist activity for pentazocine, butorphanol, nalbuphine, and buprenorphine. (+info)
Subjective, psychomotor, and physiological effects of cumulative doses of opioid mu agonists in healthy volunteers.
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The subjective, psychomotor, and physiological effects of three opioid mu-receptor agonists were studied in healthy volunteers using a cumulative-dosing procedure. Sixteen volunteers with no history of drug abuse received i.v. injections of saline (SAL), morphine (MOR), hydromorphone (HM), or meperidine (MEP) in a randomized double-blind crossover design. Subjects received 1 injection/h for the first 4 h, and a 3-h recovery period followed. SAL was injected first during each session, then SAL or increasing doses of each drug were administered every hour for the next 3 h. The absolute doses per injection were MOR: 2.5, 5, and 10 mg/70 kg; HM: 0.33, 0.65, and 1.3 mg/70 kg; and MEP: 17.5, 35, and 70 mg/70 kg. These injections resulted in cumulative doses of MOR: 2.5, 7.5, and 17.5; HM: 0.33, 0.98, and 2.28; and MEP: 17.5, 52.5, and 122.5 mg/70 kg. Subjects completed mood forms and psychomotor tests, and physiological measures were recorded at various times after each injection and during recovery. MEP tended to produce the most intense effects immediately after drug injection, which dissipated rapidly. MOR produced the mildest effects but was associated with unpleasant side effects during recovery and after the session. HM's effects were stronger than MOR's, and the recovery from HM was slower than with MEP. None of the opioids produced consistent effects that are typically associated with abuse liability. Orderly dose-response functions suggested that our cumulative-dosing procedure is an efficient way of determining dose-response functions for multiple opioids within the same subjects within the same study. (+info)