Edited by: Jun Soo Kwon, Seoul National University, South Korea
Reviewed by: Terry E. Goldberg, The Feinstein Institute for Medical Research, USA; Raimo Kalevi Rikhard Salokangas, University of Turku, Finland
This article was submitted to Schizophrenia, a section of the journal Frontiers in Psychiatry.
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The basic symptoms (BS) approach provides a valid instrument in predicting psychosis onset and represents moreover a significant heuristic framework for research. The term “basic symptoms” denotes subtle changes of cognition and perception in the earliest and prodromal stages of psychosis development. BS are thought to correspond to disturbances of neural information processing. Following the heuristic implications of the BS approach, the present paper aims at exploring disturbances of information processing, revealed by functional magnetic resonance imaging (fMRI) and electro-encephalographic as characteristics of the at-risk state of psychosis. Furthermore, since high-risk studies employing ultra-high-risk criteria revealed non-conversion rates commonly exceeding 50%, thus warranting approaches that increase specificity, the potential contribution of neural information processing disturbances to psychosis prediction is reviewed. In summary, the at-risk state seems to be associated with information processing disturbances. Moreover, fMRI investigations suggested that disturbances of language processing domains might be a characteristic of the prodromal state. Neurophysiological studies revealed that disturbances of sensory processing may assist psychosis prediction in allowing for a quantification of risk in terms of magnitude and time. The latter finding represents a significant advancement since an estimation of the time to event has not yet been achieved by clinical approaches. Some evidence suggests a close relationship between self-experienced BS and neural information processing. With regard to future research, the relationship between neural information processing disturbances and different clinical risk concepts warrants further investigations. Thereby, a possible time sequence in the prodromal phase might be of particular interest.
Disturbances of information processing are a core feature of psychosis, particularly schizophrenia, with a significant impact on vulnerability and course (
In the present review, we will consider three major areas of research, the basic disturbances concept and the event-related research employing either electro-/magnet-encephalographic (EEG/MEG), or functional magnetic resonance imaging (fMRI). Thereby results are emphasized that allow for a detection of those subjects clinically at high risk (
“Basic symptoms” (BS) are conceptualized as a phenomenological counterpart of neural pathological changes in brain functioning and have been demonstrated to represent core features of psychotic disorders (
In line with the assumption of a close relationship to neurobiological changes, BS represent not only the earliest symptoms of psychosis development, but almost persistent phenomena that can be observed independently of positive and/or negative symptoms throughout large periods of the course of illness (
Since BS are thought to mark the earliest stages of psychosis development, they have been employed to the aim of identifying subjects in presumably pre-psychotic stages of illness (
| Symptom | Description | Phenomenology |
|---|---|---|
| Thought interference | Intrusion of completely insignificant thoughts hindering concentration | “I can’t help thinking about other things, which is very distracting” |
| Thought perseveration | Obsessive like repetition of insignificant thoughts or mental images | “I always have to mull over what I just said. I can’t stop thinking about what I might have said wrong or what I could have added although I really don’t think that anything was wrong with what I said” |
| Thought pressure | Self-reported “chaos” of unrelated thoughts | “If I am stressed out my mind gets chaotic and I have great problems thinking straight. Too many thoughts come up at once” |
| Thought blockages | Sudden loss of the thread or train of thoughts | “Sometimes my thoughts just stop, are suddenly gone, like being cut off” |
| Disturbance of receptive language | Paralysis in the immediate comprehension of simple words/sentences, either read or heard | “I often can’t get the meaning of common words when I am reading” |
| Disturbance of expressive speech | Problems in producing appropriate words, sometimes experienced as a reduction in active vocabulary | “Sometimes I think it must appear as if English were really my second language, like I don’t know English very well because I have difficulties expressing myself. I forget the words” |
| Disturbances of abstract thinking | Inability to explain abstract contexts, sayings, or idioms | “Sometimes I get puzzled if a certain object or event only stands as a metaphor for some more general, abstract, or philosophical meaning” |
| Inability to divide attention | Interference of two non-demanding tasks on different sensual domains (e.g., verbal dialogue and motor action) | “Doing two things at once has become impossible even with the simplest things. I always have to concentrate on one thing at a time” |
| Captivation of attention | Involuntary captivation by details of the visual field that catches and holds the look. | “Sometimes an object really seems to stand out from the rest of what I see. My eyes then fix on it. It’s like being spellbound” |
| Decreased ability to discriminate between perception and ideas | The ability to allocate mental representations to their proper domain, e.g., to discriminate memory and fantasy | “I thought about my grandparents. Then a weird thing happened: I couldn’t remember if I knew my grandparents properly, if they were real, or if they were just in my imagination” |
| Unstable ideas of reference | Feelings of being directly addressed by a non-intentional environment with insight | “When I was listening to the radio the idea that the lyrics had some special meaning for me suddenly popped up into my head” |
| Derealization | Feelings of being detached from an “unreal” environment | “Sometimes, I feel disconnected from the world around me, like I’m under a glass cover” |
| Visual or acoustic perceptual disturbances | Perceptual observations, e.g., a wrong coloring, distorted shape, or changed sound quality/intensity with insight | “People suddenly seemed changed and had different hair colors” |
The currently most widely used clinical criteria of psychosis prediction are the so called ultra-high-risk (UHR) symptoms (
Following the heuristic implications of the BS approach it can be assumed that the uncertainty of prediction results from an inherent ambiguity of (attenuated) psychotic symptoms. UHR criteria presumably represent disturbances of higher order integrative functions, reality testing, inner monitoring, and context evaluation possibly arising from various neural aberrations that do not necessarily comprise the specific processes leading to the development of, e.g., schizophrenia. The “prodrome,” however, is presumably characterized by specific disturbances of neural processing that are not mirrored by rather unspecific psychotic phenomena (
In the present paper, following the BS concept, we aim at exploring if and to what extent objective parameters of neural information processing allow for improving the prediction of psychosis onset. After an overview of the research on disturbances of neural information processing in the at-risk state, we will focus on findings indicating predictive capabilities.
We used the following Medical Subject Heading (MeSH) categories: (fMRI OR EEG OR MEG) AND [UHR OR prodrome OR at-risk mental state (ARMS) OR clinical high risk (
A broad body of literature has verified deficits associated with psychotic disorders by functional neuroimaging (fMRI). Particularly the functionality of the prefrontal cortex, contributing to executive and working memory functions, and moreover subserving emotion processing, reward, and social cognition, has been demonstrated to be impaired in schizophrenia (
Investigations employing tasks related to attention control, verbal fluency, and working memory, respectively, suggested almost consistently a gradual decline in frontal and striatal activation from the clinical risk state to chronic psychosis (
A recent meta-analysis demonstrated a prefrontal dysfunction in the at-risk state across different paradigms (
Two studies yet compared fMRI measures in converters vs. non-converters (
Taken together, functional disturbances in at-risk subjects have consistently been demonstrated, thereby pointing particularly to dysfunctions of frontal regions. However, definite conclusions should be deferred since the published fMRI studies vary markedly with regard to both, methodology and paradigms. Furthermore, the number of studies investigating differential deficits in converters and non-converters is yet sparse and none of the available studies reported discriminative statistics as required for predictor models.
Contrary to the antecedent axiom that sensory brain regions simply relay neural representations of the environment to higher order networks, the very high complexity of early sensory information processing has to be appreciated: even at the earliest stages of sensory processing, incoming information is preconsciously filtered and digested via top-down and bottom-up loops (
However, typical paradigms point to event-related potentials (
Overall, sensory processing deficits in subjects displaying high-risk symptoms have been demonstrated to encompass the full range of processing, i.e., early as well as later stages. However, it is not yet clear how the observed disturbances differentially relate to the pathophysiology of psychosis development.
One of the earliest steps in neural processing contributes to filtering of sensory information. In at-risk subjects, significant deficits of the respective correlates have been demonstrated in studies on sensory gating (P50/N100 components) and prepulse inhibition (PPI) paradigms (
Later stages of sensory information processing occupy the interface between perceptual and cognitive systems. A commonly used paradigm involves neural ability to discriminate deviant stimuli in a series of predictable standards (
Investigations employing the P3 component, which is thought to reflect automatic processing of novelty and memory updating, have demonstrated significant deficits in at-risk subjects compared to healthy controls (
Nine studies have been identified that statistically compared neurophysiological measures in converters vs. non-converters (
| Study | Parameter | Mean time to transition (months ± SD) | Predictive model reported | ARMS-T vs. ARMS-NT | Diagnoses after transition | |
|---|---|---|---|---|---|---|
| Ziermans et al. ( |
PPI | 42 (6) | Not reported | No | ↓ | Schizophrenia ( |
| Brockhaus-Dumke et al. ( |
Sensory gating | 39 (21) | Not reported | No | ↔ | Schizophrenia ( |
| Hsieh et al. ( |
Sensory gating MMN | 67 (11) | Not reported | No | ↔ | Not reported |
| van Tricht et al. ( |
Sensory gating | 61 (18) | Not reported | No | ↓ | Schizophrenia ( |
| Bodatsch et al. ( |
MMN amplitude | 62 (25) | 7.0 ± 7.0 | Yes | ↓ | Schizophrenia ( |
| Shaikh et al. ( |
MMN amplitude | 41 (10) | 26.5 ± 26.6 | No | ↓ | Schizophreniform disorder ( |
| Higuchi et al. ( |
MMN amplitude | 17 (4) | Not reported | No | ↓ | Schizophrenia |
| van Tricht et al. ( |
P300 amplitude | 61 (18) | 9.4 ± 7.2 | Yes | ↓ | Not reported |
| Fusar-Poli et al. ( |
P300 amplitude | 39 (10) | Not reported | No | ↔ | Not reported |
Ziermans and colleagues suggested a differential PPI deficit in converters and non-converters (
Predictive models employing neurophysiological parameters were provided by two published investigations (
Taken together, correlates of sensory processing and pending higher order functions indicate significant disturbances of neural information processing in at-risk subjects. Future research has to elucidate the pathophysiological meaning of these disturbances and their impact with regard to different outcomes of the at-risk state. However, first steps have been made to identify neural markers of psychosis development.
Impairments of neural information processing in the pre-psychotic state have been demonstrated by a rising number of investigations, thereby providing evidence for the heuristic implications of the BS concept. However, although studies employing fMRI measures are sparse compared to investigations focusing on neurophysiology, significant evidence for information processing deficits is provided across methods and paradigms.
Functional magnetic resonance imaging studies most consistently demonstrated dysfunctions of regions differentially contributing to executive and memory functions, social cognition, emotional processing, and language processing, respectively (
However, since most studies did not comprise converters in their high-risk samples. As a considerable part of theses samples may not proceed to psychosis or even remit (at least clinically and temporally) from the at-risk state (
Although fMRI investigations have demonstrated significant differences between converters and non-converters (
Regarding neurophysiology, two studies yet established predictive models (
However, since only one study investigated the P3 as a predictor of psychosis onset, this finding needs further corroboration.
Mismatch negativity amplitude reductions may predict conversion to psychosis and enable the stratification of risk into different classes (
Sensory gating presumably refers to early pre-attentive processes, whereas P3 likely represents cognitive management of salient stimuli, and MMN may straddle bottom-up stimulus registration and top-down change detection. In synopsis of the currents literature, sensory gating deficits might predominantly indicate liability to psychotic experiences, P3 might be primarily susceptible to cognitive disturbances, and the MMN may be best suited to support the identification of future converters.
The heuristic implications of the BS concept predict that disturbances of information processing can be observed largely independent of positive symptoms and are closely related to particular aberrations of brain functioning (
Among the most predictive BS, two concern disturbances of language processing (
The relationship between BS and particular brain regions has still to be investigated directly. However, the synopsis of the current literature provides an impetus for future research.
Since all samples discussed in this review are preselected by clinical risk criteria, it remains unclear if objective measures would perform equally well as screening tools in non-selected, help-seeking samples. Furthermore, their predictive value beyond clinical criteria has still to be evaluated. However, different to any clinical approach, neurophysiological parameters provide an estimate of the remaining time until transition (
The specificity of neurobiological parameters represents another major topic. Neural information processing deficits have been observed in non-psychotic disorders, too, as well as in healthy individuals, although some parameters may be more specific to psychosis (
The heuristic implications of the basic disturbances concept predict that particularly aberrations of neural information processing represent the objective counterparts of cognitive and perceptive BS. The current literature provides evidence that information processing deficits can discriminate at-risk subjects converting to psychosis from those who will not develop a psychotic disorder. In fMRI investigations, group differences have been demonstrated particularly with regard to brain regions involved in language processing. Event-related potentials may enable a quantification of risk in terms of magnitude and time. Particularly the latter finding represents a significant advancement compared to clinical approaches. In synopsis of the literature, some findings seem to support the assumed close relationship between self-experienced BS and neural information processing. Disturbances of language function have been identified as predictive symptoms in clinical BS studies and neural correlates have been demonstrated in both, fMRI and neurophysiological investigations. Even though the relationship between BS phenomenology and neural activity appears yet largely unknown in general, deficits in neurophysiological parameters seem to be more closely related to cognitive deficits than to psychotic symptoms.
Taken together, the BS concept provides not only a valid instrument in predicting psychosis onset but represents moreover a significant heuristic framework for future research.
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.