Modern molecular study of weight gain related to antidepressant treatment: clinical implications of the pharmacogenetic testing.

Antidepressant medication influences cellular lipogenesis, being associated with metabolic side effects including weight gain. Due to the increasing use of antidepressants in children and adolescents, their metabolic and endocrine adverse effects are of particular concern, especially within this pediatric population that appears to be at greater risk. Genetic factors with a possible influence on antidepressant's adverse effects include CYP [cytochrome P450 (CYP450)] polymorphisms. We target to evaluate the efficacy of the pharmacogenetic testing, when prescribing antidepressants, in correlation with the occurrence of adverse events and weight gain. Our research was performed between the years 2010 and 2016, in the University Clinic of Child and Adolescent Psychiatry, Timisoara, Romania. We recruited 80 patients, children and adolescents with depressive disorders. Our study sample was divided in two groups: G1 - 40 patients took treatment after pharmacogenetic testing, and G2 - 40 patients without pharmacogenetic testing before the treatment election. Our results show statistically significant differences concerning the weight gain for groups G1 (with pharmacogenetic testing) and G2 (without pharmacogenetic testing). The CYP genotype and the pharmacogenetic testing, for choosing the personalized antidepressant therapy in children and adolescents with depressive disorders, proved to be good predictors for the response to antidepressants and the side effects registered, especially for weight gain. The significant correlations between the CYP polymorphisms for group G2 (without pharmacogenetic testing) and the weight gain/body mass index (BMI) increase, as major side effects induced by antidepressants, proved the fact that the pharmacogenetic screening is needed in the future clinical practice, allowing for individualized, tailored treatment, especially for at-risk pediatric categories.

The effect of neurobiological changes in the brain of children with schizophrenia, ultra high-risk for psychosis and epilepsy: clinical correlations with EEG and neuroimagistic abnormalities.

Relatively little research has been conducted on quantitative electroencephalography (QEEG) activity in patients with psychosis÷schizophrenia, especially in populations at-risk for the illness. Further studies are needed, in order to offer a possible endophenotypic marker of the cerebral functioning, associated with psychosis÷schizophrenia, in correlation with the neuroimaging, the neurocognitive, biochemical, molecular genetic tests, clinical aspects and the EEG activity from the same subjects. The aim was to investigate the role the QEEG abnormalities play in the etiology of psychosis÷schizophrenia, whether it can provide an endophenotype for psychosis and to make some correlations with the results obtained through magnetic resonance (MR) spectroscopy, for proper early detection and intervention. The prospective research was performed in the University Clinic of Child and Adolescent Psychiatry, Timisoara, Romania, involving 55 children with schizophrenia or ultra high-risk (UHR) for psychosis (groups 1, 2, 3 and 4) and 55 children as healthy controls (group 5). Groups 1 and 2 (28 children) are diagnosed with schizophrenia, groups 3 and 4 are UHR for psychosis (27 children), and group 5 represents healthy controls. Groups 1 and 3 had convulsive seizures in their personal history. We noticed: through the QEEG, numerous patterns of theta and delta activity, the diminished amplitude of the alpha band waves and the diminished alpha activity; also, the onset of psychosis was earlier at those presenting convulsive seizures in their personal history (groups 1 and 3); also, specific neuroimagistic abnormalities and modifications. The cerebral lesions, appearing during the development, raise the liability for schizophrenia. The high-risk for schizophrenia is correlated with the personal history of epilepsy, as well as with the family risk for psychosis.