Mentally Sick or Not—(Bio)Markers of Psychiatric Disorders Needed

Psychiatric disorders, also called mental illnesses or mental disorders, constitute a wide group of disorders including major depression disorder (MDD), bipolar disorder (BD), schizophrenia (SCZ) and other psychoses, anxiety disorders (ANX), substance-related disorders (SRD), dementia, developmental disorders e [...].

of treatment-resistant depression (TRD) [6]. Higher levels of HsCRP can also predict a positive mood response to infliximab. Other potential nine biomarkers of the MDD include α1-antitrypsin, brain-derived-neurotrophic factor (BDNF), apolipoprotein C3, epidermal growth factor (EGF), cortisol, resistin, prolactin, myeloperoxidase, and soluble tumor-necrosis factor α receptor type II (sTNF-αR2) [7]. Some markers, such as BDNF, cytokines, insulin-derived growth factos (IGF), also seem to be applicable to both MDD and TRD diagnosis [2]. To differentiate MDD from BD, some studies suggest to check differences in lactate, alanine, glycine, phenylalanine, tyrosine, sorbitol, pyroglutamate, aminoethanol, and hippurate metabolites when using mass spectroscopy and neuroimaging, as abnormal levels of these potential biomarkers were reported several times. Metabolomic studies also suggest to check the applicability of glutamate, citrate, valine, and formate metabolites in MDD, and eicosapentaenoic acid, 5-hydroxyhexanoic acid, and adipic acid for BD diagnosis/differentiation [8].
Currently, there is an increasing research focus on advances in neuroimaging diagnostics in psychiatry to check if the specific view and metabolite-spectrum can be applicable as markers of psychiatric disorders. However, except for positive [18F] florbetapir-positron emission tomography (PET) signal, that was approved by the U.S. Food and Drug Administration (FDA) for detecting abnormally increased β-amyloid deposition in the brains of patients with cognitive decline, no other specific neuroimaging biomarker of psychiatric disorders has been found so far [9].
A study based on proteomic pointed out six proteins expressed in the brain that could be helpful in differential diagnosis of BD patients from controls [10], whereas some neuroimaging markers can only be helpful in BD ( Figure 1) [9].
Patients suffering from SCZ have raised mRNA levels and potential applicability of breath test for ammonia and ethylene [2]. As none of the tests alone is a viable test for SCZ, it was attempted to develop a blood multitest for schizophrenia by using 51 biomarkers (called VeriPsych), but it had an imperfect specificity [11].
Patients suffering from ANX can also be discriminated by using biomarkers at some time point [2]. The startle response during PTSD may be assessed by the cortisol levels [2]. Useful markers in the diagnosis of PTSD may also include low brain natriuretic peptide levels, increased levels of corticotrophin-releasing hormone (CRH) in the cerebrospinal fluid (CSF), or a small right hippocampal volume in neuroimaging [2,12].
As abovementioned, the major dementia biomarkers include neuroimaging tests, which show complete brain atrophy and β-amyloid at PET specific scan [9]. However, in Alzheimer disease (AD), there are also quite useful CSF biomarkers like β-amyloid, tau and phosphotau [13,14].

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Diagnosis of other disorders such as Attention Deficit Hyperactivity Disorder (ADHD) in children can also be supported by some markers. A new EEG-based diagnostic test (NEBA: Neuro-psychiatric EEG-based Assessment Aid) can be useful in ADHD [18]. In autism, there are found some potential physiological biomarkers that identify neuroimmune and metabolic abnormalities (methylation-redox, acyl-carnitine/amino-acids), neurological biomarkers pointing on abnormalities in brain structure (extra-axial fluid), on function and neurophysiology (EEG N170, mu rhythm, gamma band), on magnetoencephalography (MEG) auditory oscillations, and subtle behavioral biomarkers including atypical development of visual attention, as well as some genetic (single nucleotide polymorphisms) and gastrointestinal biomarkers (zonulin) [19].
As mentioned earlier, morphological changes of the brain can be helpful in differential diagnosis of psychiatric disorders. Figure 1 shows changes in the regional brain structure and activity in different psychiatric disorders [20,21]. It can be assumed that SCZ is characterized by the greatest brain atrophy, MDD by decreased frontal volume, BD by hyperintense frontal signal, OCD by hyperactivity of the orbito-frontal cortex. Currently, there is an increasing research focus on advances in neuroimaging diagnostics in psychiatry to check if the specific view and metabolite-spectrum can be applicable as markers of psychiatric disorders. However, except for positive [18F] florbetapir-positron emission tomography (PET) signal, that was approved by the U.S. Food and Drug Administration (FDA) for detecting abnormally increased β-amyloid deposition in the brains of patients with cognitive decline, no other specific neuroimaging biomarker of psychiatric disorders has been found so far [9].
A study based on proteomic pointed out six proteins expressed in the brain that could be helpful in differential diagnosis of BD patients from controls [10], whereas some neuroimaging markers can only be helpful in BD (Figure 1) [9]. Patients suffering from SCZ have raised mRNA levels and potential applicability of breath test for ammonia and ethylene [2]. As none of the tests alone is a viable test for SCZ, it was attempted to develop a blood multitest for schizophrenia by using 51 biomarkers (called VeriPsych), but it had an imperfect specificity [11].
Patients suffering from ANX can also be discriminated by using biomarkers at some time point [2]. The startle response during PTSD may be assessed by the cortisol levels [2]. Useful markers in the diagnosis of PTSD may also include low brain natriuretic peptide levels, increased levels of corticotrophin-releasing hormone (CRH) in the cerebrospinal fluid (CSF), or a small right hippocampal volume in neuroimaging [2,12]. Another concept closely-related to markers is an endophenotype. It is a construct based on neurophysiological, biochemical, endocrinological, neuroanatomical, cognitive, or neuropsychological susceptibility to disease, that is repeatable in the family of ill patients, so endophenotype is partly hereditary and determines the susceptibility to falling ill. Endophenotypes may have additional use in psychiatry e.g., in diagnosis, classification, and the development of animal models. To endophenotypes of SCZ we can include sensory motor gating, oculomotor dysfunction, disrupted P300 event-related potential (ERP), or neurocognitive disturbances (working memory/information processing speed, executive function, attention) [22,23].
Although suicide points only on the state, not the disease per se, and can be committed during most psychiatric disorders, many researchers indicate some potentially useful biomarkers for suicidal behaviors such as the peripheral 5HT2A receptor and CSF 5-hydroxyindoleacetic acid (5HIAA), or some of the hypothalamic-pituitary-adrenal (HPA) axis components and cytokines (Table 1) [24].
There are still many fundamental questions that remain unanswered in the aspect of psychiatric (bio)markers, promising a great future for this field. This Special Issue deals with the topic of markers of mental disorders that are undeniably helpful in psychiatric diagnostics. Original research and review articles support us in understanding the importance of markers in psychiatric illness and in personalized medicine. Topics include advances in clinical markers, molecular/biochemical, (neuro)imaging, neurophysiological, neurocognitive markers of psychiatric disorders, as well as advances in markers of successful treatment in psychiatry. Despite methodological difficulties, future research on this subject is essentially needed. The Guest Editor would like to sincerely thank all the authors for their valuable contributions. I hope that the readers enjoy this special issue.