Acute Phencyclidine Alters Neural Oscillations Evoked by Tones in the Auditory Cortex of Rats.

BACKGROUND/AIMS: The onset response to a single tone as measured by electroencephalography (EEG) is diminished in power and synchrony in schizophrenia. Because neural synchrony, particularly at gamma frequencies (30-80 Hz), is hypothesized to be supported by the N-methyl-D-aspartate receptor (NMDAr) system, we tested whether phencyclidine (PCP), an NMDAr antagonist, produced similar deficits to tone stimuli in rats. METHODS: Experiment 1 tested the effect of a PCP dose (1.0, 2.5, and 4.5 mg/kg) on response to single tones on intracranial EEG recorded over the auditory cortex in rats. Experiment 2 evaluated the effect of PCP after acute administration of saline or PCP (5 mg/kg), after continuous subchronic administration of saline or PCP (5 mg/kg/day), and after a week of drug cessation. In both experiments, a time-frequency analysis quantified mean power (MP) and phase locking factor (PLF) between 1 and 80 Hz. Event-related potentials (ERPs) were also measured to tones, and EEG spectral power in the absence of auditory stimuli. RESULTS: Acute PCP increased PLF and MP between 10 and 30 Hz, while decreasing MP and PLF between approximately 50 and 70 Hz. Acute PCP produced a dose-dependent broad-band increase in EEG power that extended into gamma range frequencies. There were no consistent effects of subchronic administration on gamma range activity. Acute PCP increased ERP amplitudes for the P16 and N70 components. CONCLUSIONS: Findings suggest that acute PCP-induced NMDAr hypofunction has differential effects on neural power and synchrony which vary with dose, time course of administration and EEG frequency. EEG synchrony and power appear to be sensitive translational biomarkers for disrupted NMDAr function, which may contribute to the pathophysiology of schizophrenia and other neuropsychiatric disorders.

The auditory steady-state response (ASSR): a translational biomarker for schizophrenia.

Electrophysiological methods have demonstrated disturbances of neural synchrony and oscillations in schizophrenia which affect a broad range of sensory and cognitive processes. These disturbances may account for a loss of neural integration and effective connectivity in the disorder. The mechanisms responsible for alterations in synchrony are not well delineated, but may reflect disturbed interactions within GABAergic and glutamatergic circuits, particularly in the gamma range. Auditory steady-state responses (ASSRs) provide a non-invasive technique used to assess neural synchrony in schizophrenia and in animal models at specific response frequencies. ASSRs are electrophysiological responses entrained to the frequency and phase of a periodic auditory stimulus generated by auditory pathway and auditory cortex activity. Patients with schizophrenia show reduced ASSR power and phase locking to gamma range stimulation. We review alterations of ASSRs in schizophrenia, schizotypal personality disorder, and first-degree relatives of patients with schizophrenia. In vitro and in vivo approaches have been used to test cellular mechanisms for this pattern of findings. This translational, cross-species approach provides support for the role of N-methyl-D-aspartate and GABAergic dysregulation in the genesis of perturbed ASSRs in schizophrenia and persons at risk.

Decreased sensitivity of NMDA receptors on dopaminergic neurons from the posterior ventral tegmental area following chronic nondependent alcohol consumption.

BACKGROUND: The mesocorticolimbic dopamine system mediates the reinforcing effects of salient stimuli, including drugs of abuse. Nondependent chronic alcohol consumption modifies this system, resulting in an increased number of spontaneously active dopamine neurons in the posterior ventral tegmental area (VTA) of alcohol-preferring (P) rats. Enhanced responses of postsynaptic glutamate receptors may contribute to the increase in active dopamine neurons. Thus, excitations of putative dopamine neurons to locally applied N-methyl-d-aspartic acid (NMDA; glutamate receptor subtype agonist) were evaluated. METHODS: P rats were assigned to alcohol naïve (water only) or alcohol drinking (continuous access to 15% alcohol and water for 8 consecutive weeks) groups. Responses of 23 putative dopamine neurons from naïve rats and 19 putative dopamine neurons from drinking rats were assessed in vivo using microiontophoretically applied NMDA. Current-response curves for firing frequency and burst activity were constructed using nonlinear mixed effects models. Between-group comparisons were made for EC(50) (effective current producing a half maximal excitatory response), E(max) (maximal excitatory effect), and C(DB) (the current at which depolarization block-marked decrease in neuronal activity-occurred). RESULTS: Drinking P rats steadily consumed alcohol over the 8-week protocol and did not exhibit signs of dependence or withdrawal. Putative dopamine neurons from drinking rats exhibited resistance to depolarization block (higher C(DB) values) and required larger doses of NMDA to elicit moderate excitatory responses (higher EC(50) values), consistent with decreased receptor affinity. Maximal excitatory responses (E(max) ) did not differ between the groups, consistent with no change in receptor number. Blood alcohol was at undetectable levels at the time of experimentation. CONCLUSIONS: NMDA receptor sensitivity is decreased on posterior VTA putative dopamine neurons in P rats on a nondependent schedule of alcohol consumption. Mechanisms underlying increased spontaneous dopamine neuron activity may be independent of changes in NMDA receptor function. Decreased NMDA receptor sensitivity may precede the development of dependence.

Subjective perceptions associated with the ascending and descending slopes of breath alcohol exposure vary with recent drinking history.

BACKGROUND: The differentiator model predicts that individuals with a positive family history of alcoholism (FHA) or heavy alcohol consumers will feel more sensitive to the effects of alcohol on the ascending phase of the blood alcohol content while feeling less sedated on the descending phase. This study tested whether subjective perceptions are sensitive to the slope of breath alcohol concentration (BrAC) and whether that sensitivity is associated with an FHA and/or recent drinking history (RDH). METHODS: Family-history-positive (FHP, n = 27) and family-history-negative (FHN, n = 27) young adult nondependent drinkers were infused intravenously with alcohol in 2 sessions separated by 1 week. After 20 minutes, one session had an ascending BrAC (+3.0 mg%/min), while the other session had a descending BrAC (-1 mg%/min). The BrAC for both sessions at this point was approximately 60 mg%, referred to as the crossover point. Subjective perceptions of intoxication, high, stimulated, and sedation were sampled frequently and then interpolated to the crossover point. Within-subject differences between ascending and descending responses were examined for associations with FHA and/or RDH. RESULTS: Recent moderate drinkers reported increased perceptions of feeling intoxicated (p < 0.023) and high (p < 0.023) on the ascending slope compared with the descending slope. In contrast, recent light drinkers felt more intoxicated and high on the descending slope. CONCLUSIONS: Subjective perceptions in young adult social drinkers depend on the slope of the BrAC when examined in association with RDH. These results support the differentiator model hypothesis concerning the ascending slope and suggest that moderate alcohol consumers could be at risk for increased alcohol consumption because they feel more intoxicated and high on the ascending slope. Subjects did not feel less sedated on the descending slope, contrary to the differentiator model but replicating several previous studies.

GABAergic modulation of the 40 Hz auditory steady-state response in a rat model of schizophrenia.

Auditory steady-state auditory responses (ASSRs), in which the evoked potential entrains to stimulus frequency and phase, are reduced in magnitude in patients with schizophrenia, particularly at 40 Hz. While the neural mechanisms responsible for ASSR generation and its perturbation in schizophrenia are unknown, it has been hypothesized that the GABAA receptor subtype may have an important role. Using an established rat model of schizophrenia, the neonatal ventral hippocampal lesion (NVHL) model, 40-Hz ASSRs were elicited from NVHL and sham rats to determine if NVHL rats show deficits comparable to schizophrenia, and to examine the role of GABAA receptors in ASSR generation. ASSR parameters were found to be stable across time in both NVHL and sham rats. Manipulation of the GABAA receptor by muscimol, a GABAA agonist, yielded a strong lesion x drug interaction, with ASSR magnitude and synchronization decreased in NVHL and increased in sham rats. The lesion x muscimol interaction was blocked by a GABAA receptor antagonist when given prior to muscimol administration, confirming the observed interaction was GABAA mediated. Together, these data suggest an alteration involving GABAA receptor function, and hence inhibitory transmission, in the neuronal networks responsible for ASSR generation in NVHL rats. These findings are consistent with prior evidence for alterations in GABA neurotransmitter systems in the NVHL model and suggest the utility of this animal modelling approach for exploring neurobiological mechanisms that generate or modulate ASSRs.

Auditory sensory gating in the neonatal ventral hippocampal lesion model of schizophrenia.

BACKGROUND/AIMS: The neonatal ventral hippocampal lesion (NVHL) rat model shows biological and behavioral abnormalities similar to schizophrenia. Disturbed sensory gating reflects a consistent neurobiological abnormality in schizophrenia. Although of critical interest, sensory gating has not been evaluated in the NVHL model. METHODS: The N40 rat analog of the human P50 was measured to assess sensory response and gating in NVHL and sham rats. Epidural electrodes recorded evoked potentials (EPs), from which amplitudes, latencies, difference scores (S1-S2) and gating ratios (S2/S1) were assessed. Power and phase locking were computed for evoked EEG activity, to test for frequency-specific abnormalities. RESULTS: Prolonged S1 N40 latency was detected in the NVHL group, but amplitude and power measures did not differ. NVHL rats demonstrated disturbed phase-locked sensory gating at theta and beta frequencies, as well as reduced phase-locked gamma activity across stimuli, most robustly at S1. CONCLUSIONS: While measures of sensory gating obtained from the EP were relatively insensitive to the NVHL model, phase locking across trials was affected. NVHL rats may have increased evoked response temporal variability, similar to patients with schizophrenia. This pattern of findings likely reflects core developmental NVHL disturbances in dorsal hippocampal circuits associated with temporal and frontal areas.

In vivo time-course changes in ethanol levels sampled with subcutaneous microdialysis.

BACKGROUND: The objective of this study was to determine time-course changes in in vivo ethanol (EtOH) concentrations using a novel subcutaneous (s.c.) microdialysis sampling technique. The hypothesis to be tested was that EtOH concentrations in the s.c. fluid would reflect blood EtOH concentrations. If this is the case, then s.c. microdialysis could allow a more detailed analysis of changes in in vivo levels of EtOH under different drinking paradigms. METHODS: Adult male and female Wistar rats and male alcohol-preferring (P) rats were used in this study. A loop-style microdialysis probe was designed for s.c. applications. After initial in vitro characterization, probes were implanted under the skin between the shoulder blades. Animals were allowed to recover 4 to 24 hours prior to microdialysis collection (2.0 microl/min flow rate with isotonic saline). In vivo microdialysis experiments were then conducted to determine (i) the extraction fraction (or clearance) using EtOH no-net-flux (NNF) coupled with the alcohol clamp method, (ii) the dose-response and time-course effects after systemic EtOH administration and to compare with blood EtOH levels, and (iii) the time-course changes in EtOH levels during and after an EtOH drinking episode. RESULTS: In vivo probe recovery (extraction fraction) obtained using the alcohol clamp method was 69 +/- 3%, and was comparable to the in vitro recovery of 73 +/- 2%. For the EtOH dose-response experiment, rats injected i.p. with 0.5, 1.0, or 2.0 g/kg EtOH showed a clear dose-response effect in the s.c. dialysate samples. Peak concentrations (70, 123, and 203 mg%, respectively) were reached by 15 minutes after injection. In an experiment comparing levels of EtOH in s.c. dialysis and arterial blood samples in rats administered 1.0 g/kg EtOH, similar time-course changes in in vivo EtOH concentrations were observed with both i.g. and i.p. EtOH administration. In P rats drinking 15% EtOH during a 1-hour scheduled access period, EtOH levels in s.c. microdialysates rose rapidly over the session and peaked at approximately 50 mg% at 60 to 80 minutes. CONCLUSIONS: Overall, these experiments indicate that s.c. EtOH and blood EtOH concentrations follow a similar time course. Moreover, s.c. microdialysis can be useful as an experimental approach for determining detailed time-course changes in in vivo EtOH concentrations associated with alcohol drinking episodes.

Phencyclidine Disrupts the Auditory Steady State Response in Rats.

The Auditory Steady-State Response (ASSR) in the electroencephalogram (EEG) is usually reduced in schizophrenia (SZ), particularly to 40 Hz stimulation. The gamma frequency ASSR deficit has been attributed to N-methyl-D-aspartate receptor (NMDAR) hypofunction. We tested whether the NMDAR antagonist, phencyclidine (PCP), produced similar ASSR deficits in rats. EEG was recorded from awake rats via intracranial electrodes overlaying the auditory cortex and at the vertex of the skull. ASSRs to click trains were recorded at 10, 20, 30, 40, 50, and 55 Hz and measured by ASSR Mean Power (MP) and Phase Locking Factor (PLF). In Experiment 1, the effect of different subcutaneous doses of PCP (1.0, 2.5 and 4.0 mg/kg) on the ASSR in 12 rats was assessed. In Experiment 2, ASSRs were compared in PCP treated rats and control rats at baseline, after acute injection (5 mg/kg), following two weeks of subchronic, continuous administration (5 mg/kg/day), and one week after drug cessation. Acute administration of PCP increased PLF and MP at frequencies of stimulation below 50 Hz, and decreased responses at higher frequencies at the auditory cortex site. Acute administration had a less pronounced effect at the vertex site, with a reduction of either PLF or MP observed at frequencies above 20 Hz. Acute effects increased in magnitude with higher doses of PCP. Consistent effects were not observed after subchronic PCP administration. These data indicate that acute administration of PCP, a NMDAR antagonist, produces an increase in ASSR synchrony and power at low frequencies of stimulation and a reduction of high frequency (> 40 Hz) ASSR activity in rats. Subchronic, continuous administration of PCP, on the other hand, has little impact on ASSRs. Thus, while ASSRs are highly sensitive to NMDAR antagonists, their translational utility as a cross-species biomarker for NMDAR hypofunction in SZ and other disorders may be dependent on dose and schedule.

Maintaining steady state arterial alcohol levels in rats by using a physiologically based pharmacokinetic model.

An intravenous method of alcohol administration that maintains arterial alcohol concentrations (AACs) in rats at a prescribed level for a prolonged period was previously described. This method produced steady state AACs between 30 and 180 min after the start of the infusion, but it resulted in substantial overshoots in AAC initially. The present study was designed to achieve target AACs close to steady state more quickly while minimizing any overshoot. A physiologically based pharmacokinetic (PBPK) model of alcohol distribution and elimination was developed for male Wistar rats. Body weight was used to compute individualized infusion rate profiles that would achieve steady state AACs of 75, 150, and 250 mg%. Rats were chronically implanted with cannulae in the jugular vein (for alcohol infusion) and carotid artery (for blood sampling). Alcohol was administered according to the individualized infusion rate profiles. Blood was collected at intervals for AAC determination. The PBPK model-based infusion profiles achieved target AACs 5 min after the start of the infusion and maintained the AACs for 2 h. The AACs deviated an average of 4.9%, 5.1%, and 5.9% from target at the 75, 150, and 250 mg% levels, respectively. Through the application of a PBPK model, it is possible to achieve target AACs close to steady state more quickly in male Wistar rats and to minimize any overshoot in AAC. The PBPK model-based method seems to be improved over the earlier method. Maintaining steady state AACs in rats is useful for studies in which fluctuating alcohol levels may confound experimental results.

Recent drinking history: association with family history of alcoholism and the acute response to alcohol during a 60 mg% clamp.

OBJECTIVE: Family history of alcoholism (FHA) is associated with increased drinking history, which can be a confounding factor in studies of the influence of FHA on the acute response to alcohol. The objective of this analysis was to investigate the association between recent drinking history (RDH) and FHA in a sample of family history positive (FHP; n = 55, 28 women) and family history negative (FHN; n = 55, 29 women) subjects, and to explore the influence of RDH on the response to alcohol during a 60 mg% clamp. METHOD: RDH was measured using daily diary and timeline followback methods. The total number of drinks in the 4-week (TD28) and 1-week (TD07) intervals prior to the study were determined, as well as the number of drinking days in the same intervals. Dependent measures of brain function were obtained at baseline (B0), immediately after the target BrAC was achieved (B1) and 105 minutes later (B2). The alcohol response was quantified as an initial response (ira = B1-B0) and an adaptive response (ada = B2-B1). The association between RDH and the ira and ada measures was tested using multivariate regression. RESULTS: The RDH measures showed a large variance across subjects, with no significant differences between FHP and FHN groups in the study sample. The initial responses for subjective perceptions of "high" and "intoxicated," Alcohol Sensation Scale scores and scores for the grooved pegboardtask were significantly negatively associated with TD28. Acute tolerance to perceptions of "high" and "intoxication" was significantly negatively associated with TD28. CONCLUSIONS: Heavy drinking history is associated with a decreased initial response to alcohol and greater acute tolerance to alcohol, particularly for subjective measures. Although RDH was not associated with FHA in this study, it may be an important determinant of the response to alcohol.

Auditory steady state responses in a schizophrenia rat model probed by excitatory/inhibitory receptor manipulation.

Alterations in neural synchrony and oscillations may contribute to the pathophysiology of schizophrenia and reflect aberrations in cortical glutamatergic and GABAergic neurotransmission. We tested the effects of a GABA agonist and an NMDA antagonist on auditory steady state responses (ASSRs) in awake rats with neonatal ventral hippocampal lesions (NVHLs) as a neurodevelopmental model of schizophrenia. NVHL vs. SHAM lesioned rats were injected with saline then either ketamine (NMDA antagonist) or muscimol (GABA(A) agonist). Time-frequency analyses examined alterations in phase locking (consistency) across trials and changes in total power (magnitude). ASSRs were compared at five stimulation frequencies (10, 20, 30, 40, and 50 Hz). In SHAM rats, phase locking and power generally increased with stimulation frequency. Both ketamine and muscimol also increased phase locking and power in SHAM rats, but mostly in the 20 to 40 Hz range. NVHL and ketamine altered the frequency dependence of phase locking, while only ketamine changed power frequency dependence. Muscimol affected power, but not phase locking, in the NVHL rats. NVHL and ketamine models of schizophrenia produce similar independent effects on ASSR, potentially representing similar forms of cortical network/glutamatergic dysfunction, albeit the effects of ketamine were more robust. Muscimol produced NVHL-dependent reductions in ASSR measures, suggesting that cortical networks in this model are intolerant to post-synaptic GABAergic stimulation. These findings suggest the utility of combining lesion, pharmacological, and ASSR approaches in understanding neural mechanisms underlying disturbed synchrony in schizophrenia.

Ethanol drinking reduces extracellular dopamine levels in the posterior ventral tegmental area of nondependent alcohol-preferring rats.

Moderate ethanol exposure produces neuroadaptive changes in the mesocorticolimbic dopamine (DA) system in nondependent rats and increases measures of DA neuronal activity in vitro and in vivo. Moreover, moderate ethanol drinking and moderate systemic exposure elevates extracellular DA levels in mesocorticolimbic projection regions. However, the neuroadaptive changes subsequent to moderate ethanol drinking on basal DA levels have not been investigated in the ventral tegmental area (VTA). In the present study, adult female alcohol-preferring (P) rats were divided into alcohol-naive, alcohol-drinking, and alcohol-deprived groups. The alcohol-drinking group had continuous access to water and ethanol (15%, vol/vol) for 8 weeks. The alcohol-deprived group had 6 weeks of access followed by 2 weeks of ethanol deprivation, 2 weeks of ethanol re-exposure, followed again by 2 weeks of deprivation. The deprived rats demonstrated a robust alcohol deprivation effect (ADE) on ethanol reinstatement. The alcohol-naïve group had continuous access to water only. In the last week of the drinking protocol, all rats were implanted with unilateral microdialysis probes aimed at the posterior VTA and no-net-flux microdialysis was conducted to quantify extracellular DA levels and DA clearance. Results yielded significantly lower basal extracellular DA concentrations in the posterior VTA of the alcohol-drinking group compared with the alcohol-naive and alcohol-deprived groups (3.8±0.3nM vs. 5.0±0.5nM [P<.02] and 4.8±0.4nM, [P<.05], respectively). Extraction fractions were significantly (P<.0002) different between the alcohol-drinking and alcohol-naive groups (72±2% vs. 46±4%, respectively) and not significantly different (P=.051) between alcohol-deprived and alcohol-naive groups (61±6% for the alcohol-deprived group). The data indicate that reductions in basal DA levels within the posterior VTA occur after moderate chronic ethanol intake in nondependent P rats. This reduction may result, in part, from increased DA uptake and may be important for the maintenance of ethanol drinking. These adaptations normalize with ethanol deprivation and may not contribute to the ADE.

Limited access to ethanol increases the number of spontaneously active dopamine neurons in the posterior ventral tegmental area of nondependent P rats.

Microdialysis experiments in alcohol-preferring (P) rats have shown that chronic ethanol exposure increases extracellular levels of dopamine (DA) in the nucleus accumbens. Because DA neuronal activity contributes to the regulation of DA overflow in terminal regions, we hypothesized that posterior ventral tegmental area (VTA) DA neuronal activity (firing frequency, burst activity, and/or the number of spontaneously active DA neurons) would be increased in P rats consuming ethanol compared with P rats consuming only water. In vivo electrophysiological techniques were used to evaluate the activity of single DA neurons in the posterior VTA. Our findings show that voluntary ethanol intake by nondependent P rats significantly increased the number of spontaneously active DA neurons in the posterior VTA compared with P rats that consumed only water. Firing frequency and burst activity did not differ between the two groups. These results suggest that adaptive changes occur in the mesolimbic DA system of nondependent P rats to increase the excitability of posterior VTA DA neurons and enhance DA release from nerve terminals in the nucleus accumbens.

Steady state responses: electrophysiological assessment of sensory function in schizophrenia.

Persons with schizophrenia experience subjective sensory anomalies and objective deficits on assessment of sensory function. Such deficits could be produced by abnormal signaling in the sensory pathways and sensory cortex or later stage disturbances in cognitive processing of such inputs. Steady state responses (SSRs) provide a noninvasive method to test the integrity of sensory pathways and oscillatory responses in schizophrenia with minimal task demands. SSRs are electrophysiological responses entrained to the frequency and phase of a periodic stimulus. Patients with schizophrenia exhibit pronounced auditory SSR deficits within the gamma frequency range (35-50 Hz) in response to click trains and amplitude-modulated tones. Visual SSR deficits are also observed, most prominently in the alpha and beta frequency ranges (7-30 Hz) in response to high-contrast, high-luminance stimuli. Visual SSR studies that have used the psychophysical properties of a stimulus to target specific visual pathways predominantly report magnocellular-based deficits in those with schizophrenia. Disruption of both auditory and visual SSRs in schizophrenia are consistent with neuropathological and magnetic resonance imaging evidence of anatomic abnormalities affecting the auditory and visual cortices. Computational models suggest that auditory SSR abnormalities at gamma frequencies could be secondary to gamma-aminobutyric acid-mediated or N-methyl-D-aspartic acid dysregulation. The pathophysiological process in schizophrenia encompasses sensory processing that probably contributes to alterations in subsequent encoding and cognitive processing. The developmental evolution of these abnormalities remains to be characterized.

Comparison of VTA dopamine neuron activity in lines of rats selectively bred to prefer or avoid alcohol.

BACKGROUND: Studies comparing alcohol-naive alcohol-preferring (P) and -nonpreferring (NP) rats indicate that high alcohol drinking is associated with an innate deficiency of the mesolimbic dopamine (DA) system. We previously reported that ventral tegmental area (VTA) DA neurons in alcohol-naive P rats burst fire more frequently than VTA DA neurons in alcohol-naive Wistar rats. We hypothesized that increased burst firing in P rats may represent a compensatory mechanism to maintain adequate levels of DA in terminal areas, such as the nucleus accumbens, despite the deficient mesolimbic DA system. The present study sought to extend our previous work and include NP rats and to determine whether differences in VTA DA neuron activity could be generalized to other rat lines selected for high and low alcohol preference, namely the high (HAD) and low (LAD) alcohol-drinking rats. METHODS: The extracellular activity of posterior VTA DA neurons was recorded in unanesthetized alcohol-naive rats from the P/NP and HAD/LAD lines. Firing frequencies, burst activity, and the number of DA neurons encountered per electrode track were compared. RESULTS: Dopamine neurons in the posterior VTA of P rats had a greater percentage of action potentials in bursts and greater number of bursts compared with posterior VTA DA neurons in NP rats. There were no differences in VTA DA neuronal activity between both replicate lines of HAD and LAD rats. CONCLUSIONS: Burst activity of posterior VTA DA neurons distinguishes P from NP rats, but does not generalize to other lines of rats selectively bred at Indiana University for alcohol preference and nonpreference. Increased burst activity of DA neurons in the posterior VTA may be related to alcohol preference in P rats but is not necessary for high alcohol drinking.

The alcohol clamp: applications, challenges, and new directions--an RSA 2004 symposium summary.

This article summarizes the proceedings of a symposium organized and cochaired by Vijay Ramchandani and Sean O'Connor and presented at the 2004 Research Society on Alcoholism meeting in Vancouver, BC, Canada. The objectives of this symposium were: (1) to provide a rationale for the development and use of the alcohol clamp and the requirements for its use in alcohol challenge studies; (2) to highlight recent studies conducted using the alcohol clamp to identify sources of variation in the pharmacokinetics and pharmacodynamics of alcohol, as well as to address important research questions related to the relationship between the response to alcohol and the risk for alcoholism; and (3) to provide a perspective on progress, address limitations of the clamp, and identify new directions for alcohol challenge research. The symposium began with an introduction and overview of the alcohol clamp, by Vijay Ramchandani. This was followed by 4 presentations that highlighted recent studies conducted using the clamp including: (1) determination of the influence of alcohol dehydrogenase polymorphisms on alcohol elimination rates in a male Jewish population, by Yehuda Neumark; (2) examination of family history of alcoholism, recent drinking history, and levels and rates of administration as determinants of the response to alcohol and risk for alcoholism, by Sean O'Connor; (3) evaluation of the time course of ethanol intoxication on neuroendocrine function in humans, by Ulrich Zimmermann; and (4) a study of the effects of steady-state blood alcohol levels on auditory event-related potentials in rats, by Sandra Morzorati. Harriet de Wit summarized and discussed the research presented at the symposium and provided her perspective on future directions for research using the alcohol clamp.

Development of acute tolerance during steady-state arterial alcohol concentrations: a study of auditory event-related potentials in rats.

BACKGROUND: The blood alcohol clamp is a method whereby alcohol is infused intravenously to maintain a predetermined arterial alcohol concentration (AAC) for an indefinite period of time. The objective of this study was to use the clamp to examine the effects of alcohol on event-related potentials (ERPs) in rats and to assess the development of tolerance during a single alcohol exposure. METHODS: Adult male Wistar rats that had a chronic implant of EEG electrodes overlying the frontal cortex and were equipped with cannulae in the jugular vein, were clamped at 75 or 150 mg/dl via an intravenous infusion of 20% (v/v) alcohol. Auditory ERPs were recorded before the alcohol infusion (baseline) and at 5, 15, 120, 135, or 195 min after steady-state AAC was achieved. In a separate group of rats, test-retest reliability was examined by acquiring ERPs two to three times in the same rat at 60-min intervals. Dependent variables were calculated as changes from baseline for each time point for P1-N1 amplitude and P1 and N1 latencies. RESULTS: In the test-retest study, there were no differences in any of the dependent variables over time, indicating that the measures were stable and repeatable. Estimated AACs of 75 and 150 mg/dl significantly (p = 0.0001) decreased P1-N1 amplitude in a dose-related manner. During both clamps, the alcohol effect peaked at 120 min (p < 0.03) and decreased thereafter. Alcohol had no effect on P1 or N1 latencies. CONCLUSIONS: Pharmacologically relevant AACs significantly decreased the amplitude but not the latencies of the long-latency components of the rat auditory ERP. Acute tolerance developed because the amplitude of the ERP component recovered as AACs were held relatively constant.

The pathophysiology of chemotherapy-induced nausea and vomiting.

Chemotherapy-induced nausea and vomiting is a major debilitating side effect of oncology treatment despite recent advances in pharmaceutical management. Nurses who provide care to patients experiencing nausea and vomiting are often only marginally aware of the pathophysiological processes involved in the treatment. A better understanding of the science behind current interventions to reduce nausea and vomiting may help nurses use those interventions more effectively. This article reviews current knowledge about the pathophysiology of chemotherapy-induced nausea and vomiting. By understanding the pathophysiology behind this patient experience, gastroenterology nurses can develop a better understanding of the common symptoms of nausea and vomiting in general. When a nurse understands the complexity of factors causing nausea and vomiting, he or she will be better able to provide appropriate interventions to reduce these symptoms.

Self-reported subjective perception of intoxication reflects family history of alcoholism when breath alcohol levels are constant.

BACKGROUND: The premise of this study is that the increased familial risk for alcoholism is associated with genetic determinants of the response to alcohol, characterized by sensitivity and adaptation. Following a single administration, sensitivity is the initial response to alcohol, expressed as the change in dependent measures from baseline. Adaptation of dependent measures within a single exposure to alcohol can be expressed as acute tolerance (recovery of dependent measures toward baseline values) or sensitization (movement of dependent measure further away from baseline values). This study tested the hypothesis that family history-positive (FHP) subjects are more sensitive and more adaptive to alcohol compared with family history-negative (FHN) subjects. METHODS: The initial response and development of adaptation to alcohol were assessed by using self-reported subjective perceptions during a breath alcohol concentration (BrAC) clamp of 60 mg%. The Biphasic Alcohol Effects Scale, the Sensation Scale and a visual analog scale of intoxication were acquired at baseline, after the BrAC clamp was established, and after maintenance of the clamp for 105 min. RESULTS: FHP subjects were more sensitive to alcohol compared with FHNs, as evidenced by greater changes in feelings of intoxication when the BrAC clamp was initially achieved. While the clamp was maintained, the FHP subjects adapted to the effects of alcohol and their perceptions of intoxication became indistinguishable from those of the FHN subjects. The FHP subjects had developed acute tolerance to alcohol, whereas the FHN subjects did not. Other self-reported perceptions of alcohol's effects did not distinguish between the groups. CONCLUSIONS: A differential family history of alcoholism was reflected in self-reported subjective perceptions of intoxication when the brain's exposure to a specified concentration of alcohol was held constant (BrAC of 60 mg%). FHP subjects reported greater intoxication after alcohol and subsequently developed acute tolerance to alcohol compared with FHN subjects.

Subjective intoxication in response to alcohol challenge: heritability and covariation with personality, breath alcohol level, and drinking history.

BACKGROUND: Numerous studies have identified differences in subjective response to alcohol in subjects differentiated by family history of alcoholism. Results suggest that genetic influences on individual variation in subjective response to alcohol may be a mechanism for genetic effects on alcohol problems. However, direct evidence for genetic effects on subjective response to alcohol is very limited. METHODS: In a sample of 99 adult twin pairs, we studied genetic influences on subjective intoxication after alcohol challenge. The twins ingested a standard dose of ethanol (0.70 g/kg for men/0.65 g/kg for women), and two measures of subjective response to alcohol were assessed. RESULTS: Genetic effects on variation in subjective intoxication reported 1 hr after drinking were significant and substantial: heritability was 0.60 for a 22-item scale and 0.48 for a brief 2-item measure. Self-report measures of neuroticism, psychasthenia, hostility, and family problems shared significant genetic covariation with subjective intoxication. Achieved breath alcohol level, rate of change in breath alcohol on the descending limb, and individual drinking history all shared familial variation with subjective intoxication. No significant genetic effects for subjective intoxication were found 2 hr after drinking, but familial influences remained present, and many of the same personality, drinking history, and breath alcohol variables were predictive of intoxication. CONCLUSIONS: Subjective response to alcohol is heritable, and genetic effects on subjective intoxication are partly shared with genetic effects on personality.