Identification of a common mutation (R245H) in Sanfilippo A patients from The Netherlands

Two groups of male rats were tested to determine whether pre-exposure to d-amphetamine would enhance the motivation to self-administer the drug under a progressive ratio schedule of reinforcement. In the first phase of the experiment, one group of rats received d-amphetamine (2 mg/kg IP), while a second group received saline on alternate days for a total of ten injections. Following a 21-day drug withdrawal period, behavioral sensitization was confirmed by a significant increase in amphetamine-induced stereotypy in the d-amphetamine-pretreated group, relative to the saline-pretreated group. In the second phase of the study, all rats were implanted with chronic jugular catheters and trained to self-administer d-amphetamine (0.2 mg/kg per infusion) under a fixed-ratio schedule of reinforcement. The progressive ratio paradigm was then imposed for 7 consecutive days; d-amphetamine-pretreated rats attained significantly higher break points than saline-pretreated animals. These data suggest that pre-exposure to d-amphetamine may enhance the motivation to self-administer this drug.     

Predictive validity of the potentiated startle response as a behavioral model for anxiolytic drugs

The fear-potentiated startle (PSR) paradigm is a putative behavioral model for the determination of anxiolytic properties of drugs. The present study further investigated the predictive validity of the model. Predictive validity is high, when only drugs clinically used as anxiolytics attenuate PSR dose dependently. Results showed that startle potentiation decreased dose dependently after the administration of the anxiolytics CDP (2.5-10 mg/kg, IP) and alprazolam (1-3 mg/kg, IP). After administration of the clinically non-anxiolytic drugs amitriptyline (2.5-10 mg/kg, IP), carbamazepine (5-20 mg/kg, IP), fentanyl (0.0025-0.04 mg/kg, SC), naloxone (2.5-10 mg/kg, IP), nicotine (0.4-1.6 mg/kg, IP), alcohol (500-2000 mg/kg, IP), and d-amphetamine (0.6-2.4 mg/kg, IP), a dose-dependent decrease in startle potentiation was not found. The PSR correctly discriminated most of the drugs tested in clinically anxiolytic and clinically non-anxiolytic drugs. However, haloperidol behaved as a false positive, and results of nicotine and alcohol were at variance with results reported by others.     

Regional differences in the effects of amphetamine withdrawal on dopamine dynamics in the striatum. Analysis of circadian patterns using automated on-line microdialysis

The purpose of the study is to determine the relationship between behavioral symptoms of amphetamine withdrawal and the extracellular concentration of dopamine (DA) in the dorsolateral caudate nucleus and the nucleus accumbens across the entire light-dark cycle. This was accomplished using automated on-line microdialysis sampling in behaving rats. Animals were pretreated with escalating doses of d-amphetamine (or saline) over a 6-week period and then were withdrawn from amphetamine for 3, 7, or 28 days before testing. There were regional differences in the effects of amphetamine withdrawal on the concentrations of DA and DA metabolites in dialysate. Early during withdrawal (3 and 7 days), when animals showed postamphetamine withdrawal behavioral depression (nocturnal hypoactivity), there was a significant decrease in DA and DA metabolites in the dorsolateral caudate nucleus and a disruption in the normal circadian pattern of DA activity. In contrast, there was no effect of amphetamine withdrawal on DA dynamics in the nucleus accumbens. By 28 days after the discontinuation of amphetamine pretreatment, after basal DA in the caudate returned to normal, there was a significant increase in basal DA metabolism in both the caudate and the accumbens. This increase in DA metabolism may be related to the expression of sensitization, including a hypersensitivity to an amphetamine challenge. It is concluded that the role of the dorsal striatum in psychostimulant drug withdrawal syndromes deserves further consideration.     

Mifepristone prevents the expression of long-term behavioural sensitization to amphetamine

Three weeks following intermittent amphetamine exposure (2.5 mg/kg/day for 5 days), rats showed an enhanced locomotor response to an amphetamine challenge. Mifepristone (20 mg/kg) given 45 min prior to the challenge completely prevented the expression of amphetamine hyperresponsiveness. The glucocorticoid antagonist did not affect the locomotor response to amphetamine in drug-naive rats. These data demonstrate for the first time that glucocorticoid receptor antagonist treatment may prevent long-term hyperreactivity to drugs of abuse in individuals with a drug history.     

Effects of repeated methylphenidate treatment in the young rat: Sensitization of both locomotor activity and stereotyped sniffing.

The behavioral effects of repeated methylphenidate (MPH) treatment were assessed in young rats. In 4 experiments, rats (starting at Postnatal Day 10 or 16) were pretreated on 5 consecutive days with saline or MPH (2.5–20.0 mg/kg ip). Sensitization was assessed after 1 or 7 abstinence days, with rats receiving a test day challenge injection of either a low dose of MPH (2.5 mg/kg) or the same dose of MPH as given during pretreatment. Results show that a test day injection of 2.5 mg/kg MPH produced a sensitized locomotor response in rats pretreated with 2.5–20.0 mg/kg MPH. This MPH-induced locomotor sensitization was evident only after 1 abstinence day. Various pretreatment doses of MPH (5, 10, 15, or 20 mg/kg) were capable of sensitizing the stereotyped sniffing of young rats, but only rats pretreated and tested with the highest dose (20 mg/kg) of MPH showed an augmented stereotyped sniffing response that was still robust after 7 abstinence days. Results indicate that young rats are capable of exhibiting sensitization after an extended abstinence period, which contrasts with previous research suggesting that psychostimulant treatment does not produce long-term sensitization in young rats. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Role of metabolism in ethyl carbamate-induced suppression of antibody response to sheep erythrocytes in female Balb/C mice

A possible role of metabolism by cytochrome P450 (P450) in ethyl carbamate-induced suppression of the antibody response to a T-cell-dependent antigen, sheep erythrocytes (SRBCs), was investigated in female Balb/C mice. When mice were treated with ethyl carbamate intraperitoneally for 14 consecutive days at 25, 50, 100, 200 and 400 mg/kg, the antibody response was significantly suppressed from 200 mg/kg. These doses also caused a decrease in thymus weight. An acute dosing of ethyl carbamate at 1 g/kg also caused not only a significant suppression of the antibody response, but also a decrease in thymus weight. The antibody response was most likely to be the IgM antibody response, which was demonstrated in a haemagglutination study. When mice were pretreated with phenobarbital (80 mg/kg) for 3 days to induce P450 enzymes, followed by administration of ethyl carbamate intraperitoneally for 7 consecutive days, the antibody response was more suppressed than in saline-pretreated controls. Moreover, a study using aminoacetonitrile, a P450 inhibitor, showed that the antibody response suppressed by ethyl carbamate was completely recovered by the inhibitor. The present results suggest that metabolism of ethyl carbamate by P450 may be the critical pathway to produce metabolites capable of suppressing the antibody response.     

Time-dependent effects of repeated amphetamine treatment on norepinephrine in the hypothalamus and hippocampus assessed with in vivo microdialysis

The effects of repeated amphetamine (AMPH) pretreatment on norepinephrine (NE) neurotransmission in the hypothalamus and hippocampus were assessed using in vivo microdialysis. Rats were pretreated with either saline or an escalating-dose AMPH regimen (1-->10 mg/kg) over 10 consecutive days, and then were withdrawn from AMPH for either 1 day or 30 days, at which time the animals underwent two consecutive days of testing. As expected, repeated treatment with AMPH resulted in time-dependent changes in both spontaneous locomotor activity and in the psychomotor response to a subsequent challenge injection of AMPH. In addition, repeated exposure to AMPH resulted in time-dependent and regionally-specific changes in the basal concentrations of NE in dialysate, and in the NE response to an AMPH challenge. For example, AMPH pretreatment produced a persistent (at least one month) increase in the basal concentration of NE in the hippocampus, but not the hypothalamus, although the response to an AMPH challenge was altered in both structures. It is suggested that AMPH treatment produces adaptations in NE systems that far outlast the acute effects of the drug, and that these may contribute to both transient and more persistent behavioral sequelae associated with the discontinuation of chronic AMPH use.     

The results of inferior and middle meatal antrostomy under endoscopic control

This study examined the extent to which chronic d-amphetamine administration sensitizes animals to some behavioral and neurochemical effects of foot shock stress. Rats received daily injections of saline for 14 days or d-amphetamine (2 mg/kg 7 days and 4 mg/kg 7 days). After a 7 day drug abstinent period, extracellular dopamine, 3,4-dihydroxyphenylacetic acid and homovanillic acid concentrations were measured in the medial prefrontal cortex using in vivo microdialysis in freely moving rats. The behavioral responses to mild foot shock stress were enhanced in the d-amphetamine-pretreated subjects. Concomitant with this behavioral sensitization, d-amphetamine-pretreated subjects showed greater stress-induced increases in extracellular dopamine in the medial prefrontal cortex than in controls. d-Amphetamine (2 mg/kg)-induced stereotyped behavior was also enhanced in the amphetamine-pretreated animals compared to controls; however, d-amphetamine-induced increases in extracellular dopamine in the medial prefrontal cortex were not enhanced in the amphetamine-pretreated group. These results suggest that the mesocortical dopaminergic system is involved in cross-sensitization between d-amphetamine and stress, but not in d-amphetamine-induced behavioral sensitization.     

Correlates of change in depressive symptomatology among gay men with AIDS

The present experiment investigated the ability of the opiate receptor antagonist naltrexone to block the increased locomotion and rearing produced acutely by amphetamine as well as the sensitization of these responses produced when this drug is administered repeatedly. Rats in different groups received an injection of amphetamine (1.5 mg/kg, i.p.) or saline preceded 30 min earlier by an injection of naltrexone (0, 0.5, 1.0, 5.0 or 10.0 mg/kg, i.p.). Naltrexone dose-dependently reduced the rearing but had no effect on the locomotion produced by this dose of amphetamine. The locomotion and rearing observed following saline were not affected. This pattern of results was observed following each of six additional pairs of injections, one pair of injections given every third day. Once, soon (2-4 days) and once, long (9-12 days) after the last injection, all animals were injected with amphetamine (0.75 mg/kg, i.p.) in the absence of naltrexone (tests for sensitization). Animals having been pre-exposed to amphetamine preceded by naltrexone showed no evidence of sensitized rearing on either test, indicating that naltrexone blocked sensitization of this response to amphetamine. These animals, however, exhibited sensitized locomotion on both tests. These results suggest an important but complex role for dopamine-opioid interactions not only in the production of acute locomotor responding to amphetamine but also in the sensitization of locomotor responding when this drug is administered repeatedly. The present findings also suggest that amphetamine-induced rearing is more dependent than locomotion on neuronal mechanisms involving dopamine-opioid interactions.     

Naloxone-induced supersensitivity of oxytocin neurones to opioid antagonists

Here we report that a single administration of naloxone to conscious rats produces no significant increase in oxytocin release, but when repeated 3-4 days later results in a large release of oxytocin. Plasma oxytocin concentrations were measured in conscious and urethane-anaesthetized rats pretreated with naloxone or isotonic saline on Day 1. On Days 2, 3 or 4, a second dose of naloxone was given, producing an increase in oxytocin secretion in naloxone-pretreated groups (P < 0.05 vs. controls) on Day 3 and 4, but not on Day 2. The specificity of the opioid antagonist supersensitivity was determined by injection of the kappa-antagonist nor-binaltorphimine (nor-BNI). Pretreated rats (naloxone, saline or nor-BNI, Day 1) received an additional acute nor-BNI injection (Day 4) which increased plasma oxytocin concentration in the three groups. However, this increase was higher in naloxone-pretreated rats with no differences between the nor-BNI- and saline-pretreated animals. Measurements of electrical activity of single supraoptic nucleus oxytocin neurons and of plasma oxytocin concentration (Day 4) showed that naloxone modestly enhanced the responsiveness of oxytocin neurons to cholecystokinin (CCK) in naloxone-pretreated rats (by comparison with saline-pretreated rats), but had only a small effect on basal firing rate that did not differ between naloxone-pretreated rats and saline-pretreated rats. To investigate whether naloxone-pretreatment modified the effect of morphine on CCK-induced oxytocin release, on Day 4 CCK was injected i.v. with or without morphine. Morphine at a dose of 0.1 mg/kg did not affect CCK-induced oxytocin release, whereas 1 mg/kg of morphine blocked this release in both saline- and naloxone-pretreated rats. The results suggest that naloxone induces opioid antagonist supersensitivity on oxytocin secretion, mainly by up-regulating kappa-opioid mechanisms on oxytocin nerve terminals in the posterior pituitary.     

Effects of the alpha 1a-adrenoceptor antagonist RS-17053 on phenylpropanolamine-induced anorexia in rats

Activation of alpha 1-Adrenergic receptors via systemic administration of drugs such as phenylpropanolamine (PPA) and cirazoline results in the suppression of feeding in rats. Whether PPA acts via activation of the three currently identified alpha 1-Adrenoceptor subtypes is unknown. The intent of the present study was thus to examine the effects of systemic administration of the novel alpha 1a-Adrenoceptor antagonist RS-17053 on PPA-induced anorexia. Adult male rats (n = 6 to 8 per group) were pretreated (IP) with either 0, 0.1, 0.5, 2.5, or 10.0 mg/kg RS-17053 or with 2.0 mg/kg of the prototypical alpha 1-Adrenoceptor antagonist prazosin. Five minutes later, each rat was treated (IP) with either 0, 5, 10 or 15 mg/kg PPA. Food and water intakes were recorded for a 30 min period starting 10 min after the the treatment injection. Rats pretreated with vehicle and then treated with PPA exhibited a dose-dependent suppression of feeding with a maximal effect evident at the 15 mg/kg dose of PPA. Pretreatment with 2.0 mg/kg prazosin reversed the anorexic activity of PPA. Pretreatment with RS-17053 (0.1-2.5 mg/kg) did not alter either baseline feeding or the anorexic action of PPA. These results suggest that PPA does not act via the alpha 1a-Adrenergic receptor subtype to suppress food intake.     

Spontaneous and drug-stimulated locomotor activity after the administration of pertussis toxin into the ventral tegmental area

Pertussis toxin (PTX) injected into the ventral tegmental area (VTA) produces an enhanced locomotor response to amphetamine. In the present study, we have evaluated the role of dopamine receptors on spontaneous locomotor activity and the enhanced locomotor response to dopaminergic agonists after the administration of PTX into the VTA. PTX injected into the VTA of rats produced a delayed increase in spontaneous locomotor activity with a latency of 4 d. This activity was markedly increased by day 6 and remained elevated for at least 28 d after PTX treatment. This increased spontaneous locomotor activity of PTX-treated animals was antagonized by the administration of the D1 receptor antagonist SCH23390 (0.03 and 0.1 mg/kg sc), but not by the D2 receptor antagonist eticlopride (0.1 and 0.3 mg/kg sc). After adaptation to the locomotor cages, the animals showed a markedly enhanced motor response to amphetamine (0.5 mg/kg ip) and apomorphine (5 mg/kg sc). The heightened locomotor responses to these dopaminergic agonists could be elicited for at least 2 mo after PTX administration. The enhanced response to amphetamine was antagonized by the administration of SCH23390 (0.03 and 0.1 mg/kg sc), but not by eticlopride (0.1 mg/kg). The increased response to apomorphine in PTX-treated animals was inhibited by SCH23390 (0.1 mg/kg sc) and partially inhibited by eticlopride (0.1 mg/kg sc). Both of these antagonists inhibited the spontaneous and the drug-induced locomotor responses in vehicle-treated control animals. These results suggest that the administration of PTX into the VTA leads to an increase in spontaneous and drug-induced locomotor activity in which D1 receptors seem to play an important role.     

Acute responses to resistance training and safety

These studies investigated whether endogenous activation of CCK(A) receptors mediates the expression of amphetamine (AMP)-induced locomotor activity. In Experiment 1, locomotor activity was assessed in rats pretreated with the CCK(A) antagonist devazepide (0.001, 0.01, and 0.1 mg/kg) and subsequently injected with AMP (1.5 mg/kg). In Experiment 2, rats were administered AMP (1.5 mg/kg) once daily for 7 days. Following a 10-day withdrawal, locomotor activity was assessed following treatment with devazepide (0.001, 0.01, and 0.1 mg/kg) and AMP (0.75 mg/kg). In both studies, rats were classified as low (LR) or high (HR) responders based upon a median split of their locomotor response to a novel environment. Results from Experiment 1 showed that AMP potentiated the expression of locomotor activity, and this effect was most pronounced in HR rats. However, devazepide did not affect AMP-induced locomotion. Results from Experiment 2 demonstrated that chronic AMP pretreatment augmented the locomotor response to subsequent AMP challenge, and this effect was most pronounced in the HR group. Further, this augmented response was blocked by devazepide in HR rats. These findings constitute the first demonstration that endogenous CCK(A) receptor activation is an important substrate mediating AMP-induced locomotor activity in animals with a previous history of AMP treatment.     

Assessment of possible protective roles of selenium, zinc, and cis-stilbene oxide against acute T-2 toxin poisoning: a preliminary report

The efficacy of two free radical scavengers, selenium and zinc, and a microsomal epoxide hydrolase-inducing agent, cis-stilbene oxide on the acute toxicity of T-2 toxin, a potent cytotoxic trichothecene, was investigated. Mice were pretreated daily for 3 consecutive days with either zinc sulfate (4.4 mg/kg, intraperitoneally [i.p.]), sodium selenite (1, 2, and 3 mg/kg i.p.) or cis-stilbene oxide (50 mg/kg i.p.). A full 24-hr after the final dosing with these agents, mice were given T-2 toxin (2, 2.5, or 3 mg/kg i.p.). The acute lethal toxicity of T-2 toxin (2.5 mg/kg) was reduced by administration of only sodium selenite (3 mg/kg) and cis-stilbene oxide (50 mg/kg). No significant effect on weight gain was observed.     

Aripiprazole as a potential pharmacotherapy for stimulant dependence: Human laboratory studies with d-amphetamine.

Amphetamine and cocaine dependence present significant public health concerns, yet no broadly effective pharmacotherapy for stimulant dependence has been developed. Two human laboratory studies are reviewed that tested the ability of aripiprazole, a novel antipsychotic with partial agonist activity at D2 dopamine receptors, to alter the behavioral effects of stimulants using d-amphetamine as a model agent. In each of these experiments, volunteers learned to discriminate 15 mg d-amphetamine (i.e., ≥80% drug-appropriate responding over 4 consecutive sessions). The effects of a range of doses of d-amphetamine (0, 2.5, 5, 10, and 15 mg) were then tested alone and following pretreatment with aripiprazole (20 mg in Experiment 1; 10 mg in Experiment 2). In Experiment 1, aripiprazole (20 mg) attenuated the discriminative stimulus and many of the subject-rated effects of amphetamine. Aripiprazole alone produced performance decrements. To determine whether a lower dose of aripiprazole would also attenuate the behavioral effects of d-amphetamine without impairing performance, Experiment 2 was conducted. Aripiprazole (10 mg) failed to alter the discriminative-stimulus effects but attenuated some of the subject-rated effects of d-amphetamine. This dose of aripiprazole did not impair performance. The results of these experiments indicate that aripiprazole may have clinical utility in treating stimulant dependence. Future human laboratory research should better model the clinical use of aripiprazole by examining the effects of chronic aripiprazole combined with either methamphetamine or cocaine in dependent individuals. A large-scale clinical trial is also needed to evaluate the efficacy of aripiprazole for the treatment of stimulant dependence. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

The NMDA receptor antagonist MK-801 elicits conditioned place preference in rats

(+)-5-Methyl-10,11-dihydro-5H-dibenzo[a,d]cyclohepten-5,10-imine maleate, (MK-801) a potent noncompetitive antagonist of central NMDA receptors, has been hypothesized to have rewarding properties indicative of abuse potential. To test this hypothesis, the effects of MK-801 on the acquisition of a conditioned place preference and on locomotor activity were assessed and compared with d-amphetamine. Both MK-801 (0.03 and 0.1 mg/kg, SC) and d-amphetamine (1.0 mg/kg, SC) administration resulted in the acquisition of a conditioned place preference. However, while both amphetamine and the higher dose of MK-801 produced a behavioral activation during the training period the lower dose of MK-801 did not. These results suggest that MK-801, at doses that produce behavioral activation and below, is rewarding and therefore may have abuse potential.     

Discriminative characteristics of high and low cocaine administration: effect of other psychostimulants

Two groups of N/Nih male rats were trained to discriminate saline vehicle from either 2.0 mg/kg (n = 10) or 10.0 mg/kg (n = 10) cocaine in a food-motivated, two-lever operant paradigm. The rats trained at the low-dose cocaine took a significantly longer training period to reach criterion performance than did the high-dose cocaine group. In addition, the ED50 value for the 2.0 mg/kg cocaine-trained animals (0.465 mg/kg) was significantly lower than the ED50 value (2.105 mg/kg) for those animals trained at the 10.0 mg/kg dose of cocaine. This correlation of ED50 values for stimulus generalization decreasing with reduction in training dose was in contrast to the time-course of the two groups when tested from 15 to 240 min post-injection; this experimentation indicated that there was a non-significant difference in half-life for the 2.0 mg/kg (t1/2: 97.1 min) vs. that of the 10.0 mg/kg cocaine-trained group (t1/2: 83.4 min). Generalization tests with other purportedly dopaminergically-active drugs of abuse including 0.05-0.8 mg/kg d-amphetamine, 0.125-1.5 mg/kg methamphetamine and 0.125-1.0 mg/kg methcathinone indicated that the highest doses of each produced generalization and, with the exception of methcathinone, the ED50 values were significantly lower in the low-cocaine trained group. The stimulus properties of cocaine, as they generalize to amphetamine, methamphetamine and methcathinone, can be explained by effects upon central dopaminergic neurons and may be qualitatively different in low-and high-dose trained rats.     

Maternal behavior in male rats: critical times for the suppressive action of androgens

The immediate and carry-over effects of scopolamine and d-amphetamine were evaluated in a free running Y-maze spontaneous alternation task. The immediate effect of scopolamine (1.0 mg/kg) or d-amphetamine (5.0 mg/kg) was to reduce alternation to chance or to levels significantly below chance (perseveration), respectively. On a second, non-drug test day alteration decreased in saline treated animals, but increased among mice which received scopolamine on Day 1. In contrast, upon retesting in the non-drug state, the performance of animals initially treated with d-amphetamine resembled that of saline treated mice. Subsequent experiments revealed that these effects could not be attributed to drug effects on peripheral mechanisms, consolidation, residual drug action or drug dissociated learning. It was concluded that the behavioral effects of scopolamine and d-amphetamine are qualitatively different. Whereas scopolamine disrupts habituation, d-amphetamine induces perseveration independently of any effects on habituation.     

Antigen-specific immunoglobulin-A prevents increased airway responsiveness and lung eosinophilia after airway challenge in sensitized mice

The aim of this study was to examine the role of dopamine neurotransmission in the effects of morphine in the learned helplessness paradigm in rats, a generally recognized model of depression. In this model, rats first exposed to inescapable shocks (stressed rats) exhibited an escape deficit in a subsequent shuttle-box test performed 48 h later for 3 consecutive days. The numbers of escape failures and intertrial crossings (motor activity during each intertrial interval) were recorded. Morphine was injected twice daily for 5 days (6 mg/kg/day, s.c.), and haloperidol, a preferential D2-dopamine receptor antagonist, was injected i.p. 15 min before each shuttle-box session. At the highest dose tested (150 microg/kg) haloperidol mimicked the behavioral deficit produced by inescapable shocks. A 37.5 microg/kg dose of haloperidol, which was ineffective by itself, reversed the morphine-induced improvement of escape behavior in previously stressed rats and the morphine-induced increase in intertrial activity in both stressed and nonstressed animals. These results support roles (a) for a dysregulation of dopaminergic neuronal activity in the expression of escape deficit subsequent to an inescapable aversive situation, and (b) for a dopaminergic mediation in the effects of morphine in the learned helplessness paradigm.     

Dextromethorphan potentiation of d-amphetamine-induced behavior and neurodegeneration in rats.

Dextromethorphan ([DXM] 25–200 mg/kg/day) potentiated the behavioral and toxic effects of d-amphetamine sulfate ([DAS] 7–35 mg/kg/day). 66 male rats were administered these drugs alone and in combination continuously for 2 days. DXM shifted DAS-induced behaviors to resemble higher dose behaviors, though there was no dose effect of DXM. DXM increased the incidence of neurodegeneration in the neostriatum and the cerebral cortex (determined histologically) at every dose of DAS. These effects may have been related to the known antagonistic actions of DXM on voltage-dependent calcium channels or on N-methyl-D-aspartate (NMDA) receptors or may have involved alteration of amphetamine metabolism through interactions with the cytochrome P-450 enzyme, CYP2D6, for which both DXM and DAS are ligands. (PsycINFO Database Record (c) 2010 APA, all rights reserved)