The Munich vulnerability study on affective disorders: premorbid polysomnographic profile of affected high-risk probands.

BACKGROUND: The most characteristic alterations in the sleep electroencephalogram (EEG) during major depression are a shortened latency to rapid eye movement (REM) sleep and an elevated REM density. Because these changes persist in remission, they might represent vulnerability markers. To identify vulnerability markers, we investigated premorbid sleep EEG parameters in healthy high-risk probands (HRPs) with a positive family history of affective disorders. METHODS: We identified 136 depressed inpatients from referrals to our hospital who had first-degree relatives with an affective disorder as well as first-degree relatives with no current or lifetime history of psychiatric disorders. The latter (the HRP group) were investigated by polysomnography. During the follow-up period, 20 HRPs developed an affective disorder. Their premorbid sleep data were analyzed. RESULTS: Premorbid sleep EEG of affected HRPs showed an increased REM density (total night and first REM period) compared with the control group without personal or family history of a psychiatric disorder. CONCLUSIONS: Increased REM density can be observed not only in patients with depression, but also in their healthy relatives. Moreover, it is predictive for the onset of a psychiatric disorder. Therefore, it can be recommended as a possible endophenotype of these diseases.     

The Munich vulnerability study on affective disorders: microstructure of sleep in high-risk subjects

Vulnerability markers for affective disorders have focused on stress hormone regulation and sleep. Among rapid eye movement (REM) sleep, increased REM pressure and elevated REM density are promising candidates for vulnerability markers. Regarding nonREM sleep, a deficit in amount of and latency until slow wave sleep during the first half of the night is a characteristic for depression. To further elucidate whether changes in the microstructure of sleep may serve as vulnerability markers we investigated the premorbid sleep composition in 21 healthy high-risk proband (HRPs) with a positive family history for affective disorders and compared HRPs with a control group of healthy subjects (HCs) without personal and family history for psychiatric disorders. The sleep electroencephalogram (EEG) was conventionally scored and submitted to a quantitative EEG analysis. The main difference in sleep characteristics between HRPs and HCs was an abnormally increased REM density. Differences in the spectral composition of sleep EEG were restricted to an increased power in the sigma frequency range. Since the HRP group comprised six unrelated and 15 related subjects we controlled for sibling effects. We could replicate the increased REM density in the group of HRPs whereas elevated power in the low sigma frequencies persisted only with approaching significance. The present study further supports elevated REM density as putative vulnerability marker for affective disorders. However, sleep EEG in our group of HRPs did not show slow wave sleep abnormalities. Ongoing follow up investigations of HRPs will clarify whether the observed increase in sigma EEG activity during nonREM sleep is of clinical relevance with respect to the likelihood to develop an affective disorder.     

The Munich vulnerability study on affective disorders: premorbid psychometric profile of affected individuals

OBJECTIVE: We conducted a longitudinal high-risk study to identify psychometric vulnerability markers for affective disorders. METHOD: We examined 82 healthy subjects [high-risk probands (HRPs)] with at least one first-degree relative suffering from an affective disorder. The premorbid psychometric profile of 20 HRPs who developed a psychiatric disorder during follow-up was compared with the profile of control subjects without personal and family history of psychiatric disorders matched for age and gender. RESULTS: Somatization, complaints (vegetative lability), and perception of strain are increased in HRPs who developed a psychiatric disorder. These alterations were not influenced by the time interval until the onset of the disorder. CONCLUSION: The premorbid psychometric profile in subjects at high risk for affective disorders is characterized by somatization, complaints, and elevated perception of strain. Together with previous findings our results suggest that these alterations can be regarded as potential vulnerability markers for affective disorders.     

The Munich vulnerability study on affective disorders: overview of the cross-sectional observations at index investigation

Background: An altered nocturnal sleep pattern and a dysfunction of the hypothalamic–pituitary–adrenocortical system are neurobiological abnormalities typical for depression. A persistence of these neurobiological alterations during remission has been shown to be associated with an increased risk for a relapse. However, it remains unclear whether these persisting abnormalities are trait markers indicative of an increased vulnerability for affective disorders or only represent biological scars acquired during past episodes. Thus, respective examinations need to be performed in the premorbid state in order to answer this open question. Methods: In the present article we have summarized the various results of the index investigation of a prospectively designed study in which we investigated 54 healthy first-degree relatives (high-risk probands; HRPs) of patients with an affective disorder using polysomnography, the combined dexamethasone corticotropine-releasing hormone (DEX-CRH) test and psychometric measurements. Results: In the cross-sectional part of this study the HRPs, as a group, exhibited a depression-like sleep EEG profile and DEX-CRH test result, while their psychometric profile was characterized by elevated scores on the measures Rigidity and Autonomic lability. On an individual level, 35% of the HRPs were identified as conspicuous in at least two of the three areas under investigation. Conclusions: The question of whether these abnormalities do indeed reflect trait markers indicative of an increased vulnerability for depression will be answered by the longitudinal part of the study that allows for the retrospective identification of the premorbid status of those HRPs who develop an affective disorder during the follow-up period.     

Dex/CRH-test response and sleep in depressed patients and healthy controls with and without vulnerability for affective disorders

Sleep electroencephalographic (EEG) abnormalities and increased hypothalamo-pituitary-adrenal (HPA) axis activity are the most prominent neurobiological findings in depression and were suggested as potential biomarker for depression. In particular, increased rapid eye movement sleep (REM) density, deficit in slow wave sleep and excessive stress hormone response are associated with an unfavorable long-term outcome of depression. Recent studies indicate that the sleep and endocrine parameters are related to each other. This study investigated the association of sleep structure including a quantitative EEG analysis with the results of the combined dexamethasone (Dex)/corticotropin-releasing hormone (CRH)-test in 14 patients with a severe major depression, 21 healthy probands with a positive family history of depression (HRPs) and 12 healthy control subjects without personal and family history for psychiatric disorders. As expected patients with depression showed an overactivity of the HPA axis, disturbed sleep continuity and prolonged latency until slow wave sleep in the first sleep cycle. Differences in microarchitecture of sleep were less prominent and restricted to a higher NonREM sigma power in the HRP group. Dexamethasone suppressed cortisol levels were positively associated with higher NonREM sigma power after merging the three groups. We also observed an inverse association between the ACTH response to the Dex/CRH-test and rapid eye movement sleep (REM) density in HRPs, with suggestive evidence also in patients, but not in controls. This contra-intuitive finding might be a result of the subject selection (unaffected HRPs, severely depressed patients) and the complementarity of the two markers. HRPs and patients with high disease vulnerability, indicated by an elevated REM density, seem to have a lower threshold until an actual disease process affecting the HPA axis translates into depression, and vice versa. To summarize, our findings provide further evidence that the HPA axis is involved in the sleep regulation in depression. These associations, however, are not unidimensional, but dependent on the kind of sleep parameters as well as on the selection of the subjects.     

Lithium carbonate: effects on sleep patterns of normal and depressed subjects and its use in sleep-wake pathology

The effects of lithium carbonate on sleep patterns have been investigated both acutely in normal and depressed subjects and chronically in depressed subjects. In normal subjects receiving lithium for two weeks total sleep time did not vary, REM sleep decreased and REM sleep latency increased. In depressed subjects, either on short therm therapy or on long term therapy stages 3 and 4 increased, REM sleep decreased, REM latency increased and REM activity/time spent asleep (an index of REM intensity per minute of sleep) decreased. Plasma lithium levels were negatively correlated with REM sleep percentage and positively correlated with REM sleep latency. Besides, it has been shown in one paper that short term therapy with lithium caused small but significant delays in the sleep-wake circadian rhythm. These effects are of interest in view of polygraphic sleep abnormalities found in affective disorders and possible circadian disturbances accounting for these abnormalities. Indeed lithium might act in correcting spezial sleep abnormalities and/or circadian disturbances. In addition to its predominant use for the prophylaxis of recurrent mania and depression, lithium carbonate has been proposed and tried in the prophylactic treatment of abnormally prolonged sleep episodes featuring the Kleine-Levin syndrome.     

Successful separation of depressed, normal, and insomniac subjects by EEG sleep data.

Data from all-night EEG sleep studies were used to distinguish normal subjects, primary depressed patients, and primary insomniac patients. In part 1, we compared 41 normal subjects, 56 depressed patients, and 18 insomniacs. In a univariate comparison with normal subjects, depressed patients showed less total sleep, longer sleep latency, more early morning awake time, more intermittent awake time, less delta sleep, less sleep efficiency, and shorter rapid eye movement (REM) latencies; compared with insomniacs, depressed patients showed greater early morning awake time, shorter REM latency, greater REM index, and greater REM density. Using multivariate discriminant analysis, 82% of the sample were correctly classified by diagnosis: 100% of the normal subjects, 72% of the depressed patients, and 77% of the insomniacs. Eight variables contributed to the multivariate separation of depressed individuals from insomniacs and normals: total sleep time, total recording period, sleep efficiency, sleep latency, early morning awake time, awake time, REM time and REM%. When the discriminant functions were applied to a second group of 18 primary depressed patients, 82% were correctly classified as depressed. These results suggest that primary depressed patients and primary insomniac patients may show relatively characteristic patterns of sleep abnormality.     

The Munich vulnerability study on affective disorders: premorbid neuroendocrine profile of affected high-risk probands

One of the most characteristic alterations in depression is a disturbed regulation of the hypothalamic-pituitary-adrenocortical (HPA) system. A function test combining the pre-treatment of 1.5 mg dexamethasone (DEX) with a challenge of 100 microg corticotropin-releasing hormone (CRH) reveals a pathological increase in the adrenocorticotropin and cortisol release in patients with major depression. These changes partially persist after successful treatment with remission and therefore, might represent trait or vulnerability markers. To further address this question, we were investigating the premorbid neuroendocrine profile of 74 healthy high-risk probands (HRPs) with a positive family history for affective disorders. The aim was to identify premorbid vulnerability factors. During the observation period, 19 HRPs developed an affective disorder. Their premorbid DEX/CRH test results were compared with 19 age- and sex matched controls. No significant differences could be observed between these two groups. Our results suggest that a dysregulated HPA system indicated by this function test can rather be regarded as a neurobiological scar developing during the course of affective disorders.     

REM sleep latency and morbidity risk of affective disorders in depressive illness

The relationship between rapid eye movements (REM) sleep latency and morbidity risks for affective illness in first-degree relatives of affectively ill probands was investigated in 122 patients suffering from primary major depressive disorder (74 unipolars, 48 bipolars) according to the Research Diagnostic Criteria. Sleep EEG scoring was done blind to the clinical diagnosis of the probands and their relatives, and the evaluation of morbidity risks for affective illness in first-degree relatives was done using Str?mgren's method with age correction. A logistic regression analysis was performed to describe the proportion of affectively ill relatives as a function of variables recorded in 122 probands with primary major depression. Our analysis demonstrates an inverse relationship between REM sleep latency and the risk for depressive disorder in the families of affectively ill probands. These results suggest the possibility that common pathophysiological factors may be involved in the hereditary predisposition to affective illness and in the shortening of REM sleep latency in some depressed patients.     

Increased activation of anterior paralimbic and executive cortex from waking to rapid eye movement sleep in depression

BACKGROUND: Depression is associated with sleep disturbances, including alterations in rapid eye movement (REM) sleep, that may relate to the neurobiology of the disorder. Given that REM sleep activates limbic and anterior paralimbic cortex and that depressed patients demonstrate increases in electroencephalographic sleep measures of REM, we hypothesized greater activation of these structures during waking to REM sleep in depressed patients. DESIGN: Subjects completed electroencephalographic sleep and regional cerebral glucose metabolism assessments during both waking and REM sleep using [(18)F]fluoro-2-deoxy-D-glucose positron emission tomography. SETTING: Patients and healthy subjects recruited from the general community to participate in a research study of depression at an academic medical center.Patients Twenty-four unmedicated patients who met the Structured Clinical Interview for DSM-IV criteria for current major depression and who had a score of 15 or higher on a 17-item Hamilton Rating Scale for Depression; 14 medically healthy subjects of comparable age and sex who were free of mental disorders. MAIN OUTCOME MEASURES: Electroencephalographic sleep, semiquantitative and relative regional cerebral metabolism during waking and REM sleep. RESULTS: Depressed patients showed greater REM sleep percentages. While both healthy and depressed patients activated anterior paralimbic structures from waking to REM sleep, the spatial extent of this activation was greater in the depressed patients. Additionally, depressed patients showed greater activation in bilateral dorsolateral prefrontal, left premotor, primary sensorimotor, and left parietal cortices, as well as in the midbrain reticular formation. CONCLUSIONS: Increased anterior paralimbic activation from waking to REM sleep may be related to affective dysregulation in depressed patients. Increased activation of executive cortex may be related to a cognitive dysregulation. These results suggest that altered function of limbic/anterior paralimbic and prefrontal circuits in depression is accentuated during the REM sleep state. The characteristic sleep disturbances of depression may reflect this dysregulation.     

Children with major depression show reduced rapid eye movement latencies

A substantial body of research in adults has established that certain sleep polysomnographic abnormalities are commonly found in depressed patients, including sleep continuity disturbances, reduced slow-wave sleep, shortened rapid eye movement (REM) latency, and increased REM density. To date, these abnormalities have not been documented in depressed children compared with age-matched controls. Three consecutive nights of polysomnographic recordings were obtained in 25 hospitalized depressed children and 20 age-matched healthy controls. The depressed patients had reduced REM latencies. The shortest single-night REM latency of each individual was the most sensitive discriminating value between depressed subjects and controls. The influence of different scoring criteria in distinguishing depressed children from healthy children is discussed. In addition, depressed children had an increased sleep latency and increased REM time but did not have stage 4 differences.     

Altered sleep architecture during the first months of life in infants born to depressed mothers

ObjectiveThis study investigated sleep architecture in newborn and six-month-old infants who were born to depressed mothers.MethodSixty-four healthy full-term infants (32 males and 32 females) participated in the study. Of these, 32 were high-risk infants who were born to mothers diagnosed with depression, and 32 were low-risk infants born to mothers without a personal history of depression. 24-hour polysomnography was recorded at zero and six months of age (M0 and M6). Sleep macro-structural parameters (total sleep time, TST; awake time; non-rapid eye movement, NREM sleep (%); rapid eye movement, REM sleep %; arousal index; and sleep efficiency) were analysed at M0 and M6. Micro-architectural sleep features (slow-wave activity, SWA; delta sleep ratio, DSR; spindle density; and rapid eye movement density) were calculated at M6. The data between high-risk and low-risk groups were compared using Student's t-tests.ResultsAt M0 and M6, the high-risk infants showed more awake time and fewer arousals than the low-risk infants. However, the high-risk group had less NREM% at M0 and a shorter TST as well as less REM% at M6 than the low-risk group. At M6, the high-risk group showed higher SWA, higher DSR and lower spindle density in comparison with the low-risk group.ConclusionsAltered sleep structure was observed during their first months of life in infants born from depressed mothers, thereby suggesting that the prenatal environment could enhance the depression vulnerability of the child and potentially decrease their neuroplasticity.     

Sleep in depression: the influence of age,gender and diagnostic subtype on baseline sleep and the cholinergic REM induction test with RS 86

Summary One hundred and eight healthy controls and 178 patients with a major depressive disorder according to DSM-III were investigated in the sleep laboratory after a 7-day drug wash-out period. Subsamples of 36 healthy controls and 56 patients additionally took part in the cholinergic rapid eye movement (REM) sleep induction test with RS 86. Data analysis revealed that age exerted powerful influences on sleep in control subjects and depressed patients. Sleep efficiency and amount of slow wave sleep (SWS) decreased with age, whereas the number of awakenings, early morning awakening, and amounts of wake time and stage 1 increased with age. REM latency was negatively correlated with age only in the group of patients with a major depression. Statistical analysis revealed group differences for almost all parameters of sleep continuity with disturbed indices in the depressed group. Differences in SWS were not detected. REM latency and REM density were altered in depression compared to healthy subjects. Sex differences existed for the amounts of stage 1 and SWS. The cholinergic REM induction test resulted in a significantly more pronounced induction of REM sleep in depressed patients compared with healthy controls, provoking sleep onset REM periods as well in those depressed patients showing baseline REM latencies in the normal range. Depressed patients with or without melancholia (according to DSM-III) did not differ from each other, either concerning baseline sleep or with respect to the results of the cholinergic REM induction test. The results stress the importance of age when comparing sleep patterns of healthy controls with those of depressed patients. Furthermore they underline the usefulness of the cholinergic REM induction test for differentiating depressed patients from healthy controls and support the reciprocal interaction model of nonREM-REM regulation and the cholinergic-aminergic imbalance hypothesis of affective disorders.     

Heart rate variability and cordance in rapid eye movement sleep as biomarkers of depression and treatment response

ObjectivesThe relevance of rapid eye movement (REM) sleep in affective disorders originates from its well-known abnormalities in depressed patients, who display disinhibition of REM sleep reflected by increased frequency of rapid eye movements (REM density). In this study we examined whether heart rate variability (HRV) and prefrontal theta cordance, both derived from REM sleep, could represent biomarkers of antidepressant treatment response.MethodsIn an open-label, case-control design, thirty-three in-patients (21 females) with a depressive episode were treated with various antidepressants for four weeks. Response to treatment was defined as a ≥50% reduction of HAM-D score at the end of the fourth week. Sleep EEG was recorded after the first and the fourth week of medication. HRV was derived from 3-min artifact-free electrocardiogram segments during REM sleep. Cordance was computed for prefrontal EEG channels in the theta frequency band during tonic REM sleep.ResultsHRV during REM sleep was decreased in depressed patients at week four as compared to controls (high effect size; Cohen's d > 1), and showed a negative correlation with REM density in both, healthy subjects and patients at week four. Further, the fourteen responders had significantly higher prefrontal theta cordance as compared to the nineteen non-responders after the first week of antidepressant medication; in contrast, HRV at week one did not discriminate between responders and non-responders.ConclusionsOur data suggest that HRV in REM sleep categorizes healthy subjects and depressed patients, whereas REM sleep-derived prefrontal cordance may predict the response to antidepressant treatment in depressed patients.     

The association of supersensitive cholinergic rem-induction and affective illness within pedigrees

Based on the and (1978) biological genetic study paradigm we compared the prevalence of a putative vulnerability factor (rapid cholinergic REM sleep induction) between 35 affectively ill and 31 well first-degree relatives of 34 probands chosen on the basis of presence of primary affective illness and positive marker status. A significantly higher percentage of ill relatives (63%, 22 out of 35 subjects) had a supersensitive REM-induction response as compared to well relatives (22%, 7 out of 31 subjects). Since the current study does not rule out the effects of prior depressive episodes or treatment on cholinergic sensitivity, caution must be exercised in the interpretation of our findings.     

Morbidity risk for psychiatric disorders in families of probands with affective disorders divided according to levels of platelet MAO activity

In a series comprising 166 subjects with affective disorders, the lowest and highest quartiles in the male and female platelet monoamine oxidase (MAO) distribution, respectively, were included. The morbidity risk in the first-degree relatives (parents and siblings) of these low and high platelet MAO subjects was determined. First-degree relatives of low platelet MAO probands were found to have an increased morbidity risk for neurotic-reactive depressions and for alcoholism. The results seem to be in line with the biological high-risk paradigm, indicating that platelet MAO could be a biological marker for increased vulnerability. First-degree relatives of high platelet MAO probands were found to have an increased morbidity risk for bipolar affective disorders.     

Sleep and the cholinergic rapid eye movement sleep induction test in patients with primary alcohol dependence.

BACKGROUND: The present study investigated polysomnographically assessed sleep parameters in alcohol-dependent patients after withdrawal and in healthy control subjects during baseline and after a cholinergic stimulation paradigm. The aim of the study was to test whether sleep parameters, especially rapid eye movement (REM) sleep variables, may serve as predictors for relapse in alcohol-dependent patients. METHODS: Forty patients diagnosed with alcohol dependence were admitted to a specialized ward for alcohol withdrawal and were investigated by polysomnography at three time points: 2-3 weeks after withdrawal (T0) and at follow-up investigations 6 (T1) and 12 (T2) months after discharge from the hospital. A subgroup of patients (n = 17) was studied at T0 after challenge with galanthamine, a reversible cholinesterase inhibitor (cholinergic REM induction test, CRIT). Patients were compared with two control groups: a) 30 healthy control subjects (matched for age- and gender-distribution) for comparison at baseline conditions; and b) 17 age- and gender-matched control subjects for comparison with the CRIT. RESULTS: At baseline the patients showed significant disturbances of sleep continuity and sleep architecture (decreased slow-wave sleep, SWS) and exhibited an increase of "REM sleep pressure" (a combined index of REM latency, REM density, and REM sleep percent). Galanthamine provoked significant alterations of sleep continuity, sleep architecture (reduced SWS), and increased most of the components of REM pressure, taking patients and control subjects together. Apart from SWS %SPT (sleep period time) no significant drug-group interactions occurred. Patients who remained abstinent (n = 11) for at least 6 months at follow-up exhibited significantly less abnormalities of REM sleep at T0 compared to the group of patients that relapsed at 6 months follow-up. CONCLUSIONS: It is concluded that increased REM sleep pressure after alcohol withdrawal is a robust predictor of vulnerability to relapse. Thus, a subgroup of alcoholic patients appears to exhibit distinct neurobiological abnormalities assessable by polysomnography that are related to an increased vulnerability for alcoholism and early relapse.     

REM latency and the recovery from depression: getting over divorce

OBJECTIVE: The authors' goal was to address five questions: 1) What is the frequency of early REM sleep in subjects in the process of divorce who meet diagnostic criteria for major depressive disorder? 2) What is the frequency of this sign in subjects in the process of divorce who are not depressed? 3) How often does this sign persist following remission of depressive symptoms? 4) What is the predictive value of early REM sleep among depressed subjects for later adjustment to the process of divorce? and 5) What is the role of a family history of depression or alcoholism in the presence and persistence of early REM sleep? METHOD: Two hundred fourteen volunteers undergoing marital separation were recruited; 70 of these subjects were selected for a 3-night sleep study. Forty of the 70 subjects met criteria for depression and 30 did not; 61 (87%) returned for repeat studies 1 year later. RESULTS: Fifteen (38%) of the 40 depressed subjects had short REM latency. Seven of these continued to have short REM latency 1 year later, but none of these met the criteria for depression at that time. A higher proportion of these subjects had made a good adjustment to their new life than did depressed subjects whose initial and follow-up REM latencies fell within the normal range. CONCLUSIONS: These data suggest that depressed individuals with normal REM latency may need more aggressive treatment intervention.     

Rapid eye movement density shows trends across REM periods but is uncorrelated with NREM delta in young and elderly human subjects

Saccade-like eye movements are the most prominent phasic component of rapid eye movement (REM) sleep. Eye movement density (EMD) appears to be negatively related to sleep depth. Thus, EMD is depressed by sleep deprivation. We sought to determine in 19 young normal (YN) and 19 elderly normal (EN) subjects: (a) whether EMD is correlated with delta EEG in baseline sleep; (b) whether EMD is increased by daytime naps; and (c) whether EMD patterns across sleep cycles differ in the two age groups. Subjects participated in four separate 2-day recording sessions, each consisting of a baseline night, a daytime nap, and post nap night. EMD was measured as 0.3-2 Hz integrated amplitude (IA)/20 s stage REM. EMD was not correlated with rate of non rapid eye movement (NREM) delta production (power/min) in the baseline sleep of either group. Changes in EMD and delta power/min on post nap nights also were uncorrelated. These data indicate that very strong changes in sleep depth (state) are required to overcome the individual stability (traits) of NREM delta and eye movement density. ANOVA for EMD across REM periods 1-4 showed a significant cycle effect and a significant age x cycle interaction. These effects were mainly due to YNs having depressed EMD in the first REM period, likely due to the low arousal level early in sleep in these subjects. Compared with waking saccades the saccade eye movements of REM sleep have received little investigation. Further study of these movements could shed new light on neurophysiology of REM sleep. Such studies might also be clinically useful because the density of these movements appears to be related to depression and (independently) to cognitive function in individuals with brain impairment.     

P300 subcomponent abnormalities in schizophrenia: III. Deficits In unaffected siblings of schizophrenic probands.

BACKGROUND: Reduced P300 amplitude is a robust finding in patients with schizophrenia. In previous investigations, we reported reductions of specific subcomponents of the auditory oddball P300 that were independent of acute symptomatology and persistent over time, consistent with a trait abnormality. To clarify whether these stable deficits represented genetic markers of vulnerability to schizophrenia, event-related brain potentials (ERPs) from patients were compared to those from their own healthy siblings and unrelated control subjects. METHODS: Auditory P300 ERPs were acquired from 11 schizophrenic patients, 12 healthy siblings and 23 matched control subjects. Five P300 subcomponents were identified using current source density measures: frontal, bilateral parietal, and bilateral temporal. RESULTS: Consistent with previous reports, patients had reduced parietal and frontal P300 amplitudes. The healthy siblings of the schizophrenic probands had an isolated reduction of the frontal P300. CONCLUSIONS: Frontal P300 amplitude is a potential endophenotypic marker of genetic vulnerability to schizophrenia in individuals who otherwise show no evidence of clinical symptomatology. Given the functional interpretation of the frontal P300 as a physiological correlate of cognitive orienting, this supports the hypothesis that impairments of the neural substrate underlying attentional mechanisms are selective indicators of genetic susceptibility to schizophrenia in high-risk individuals.