The present invention relates to the use of the editing profile of PDE8A pre-mRNA as a specific bio marker of ADARs activities in evolved primate, particularly in Human tissues. The present invention also relates to an in vitro method for predicting in Human an alteration of the mechanism of the ADARs catalysed pre-mRNA editing of target genes, by analysing the PDE8A pre-mRNA editing profile in a peripheral tissue sample containing cells expressing said PDE8A pre-mRNA, such as blood sample. The present invention is also directed to an in vitro method for the screening of potential therapeutic compound and to predict and assess therapeutic efficacy and/or efficiency or to diagnose potential severe brain or peripheral drug side effects implementing said PDE8A pre-mRNA editing profile as specific biomarker. The present invention is further directed to a method for determining the PDE8A pre-mRNA editing profile in Human, particularly by capillary electrophoresis single-strand conformation polymorphism (CE-SSCP) method after amplification by a nested PCR. Finally the invention relates to particular nucleic acid primers implemented in said nested PCR and kit comprising such sets of primers and human cells capable of expressing PDE8A and ADARs.

The invention utilizes virtual screening strategy to seek for current market drugs as anti-schizophrenia therapy drug repurposing. Drug repurposing strategy finds new uses other than the original medical indications of existing drugs. Finding new indications for such drugs will benefit patients who are in needs for a potential new therapy sooner since known drugs are usually with acceptable safety and pharmacokinetic profiles. In this study, repurposing marketed drugs for DAAO inhibitor as new schizophrenia therapy was performed with virtual screening on marketed drugs and its metabolites. The identified and available drugs and compounds were further confirmed with in vitro DAAO enzymatic inhibitory assay.

Methods and products for identifying individuals who are likely to respond in a positive (benefit) or negative (harm) manner to a pharmacological drug treatment intended for treating or preventing a neuropsychiatric disorder, neurodegeneration, sleep-wake cycles such including and not limited to Alzheimer's disease, schizophrenia, autism and attention disorders based on single nucleotide polymorphisms (SNP) chromosome 2, 2:107,510,000-107,540,000 locus (as disclosed in the Genome Reference Consortium Human genome build 37 (GRCh37)).

Methods of categorisation of schizophrenia sufferers into subtypes based on changes in brain morphology, together with associated blood biomarkers are provided. The methods allow for more accurate treatment and diagnosis of schizophrenia.

A marker for determining a mental disease is provided. The marker can be used in an objective diagnosis of such a mental disease. The marker contains one or more enterobacteria of Bifidobacterium, Lactobacillus, Lactobacillus brevis, Lactobacillus reuteri subgroup, Lactobacillus sakei subgroup, Atopobium cluster, Bacteroides fragilis group, Enterococcus, Clostridium coccoides group, Clostridium leptum subgroup, Staphylococcus, Clostridium perfringens, and Enterobacteriaceae.

The present disclosure relates to a method for diagnosing mood disorder such as mania, depression and mania mixed using a circadian rhythm. According to the diagnostic method of the present disclosure, the condition of mood disorder can be diagnosed objectively and clearly based on the advance or delay of the circadian rhythm. That is to say, hypomania, mania, depression, mixed mania, etc. may be determined quickly and adequately so that appropriate therapeutic intervention can be made. In addition, according to the diagnostic method of the present disclosure, schizophrenia which is frequently confused with severe depression or bipolar disorder can be distinguished clearly. In addition, the selection of a therapeutic drug can be benefited greatly through this.

Methods for helping to monitor subject adherence with a prescribed antipsychotic drug treatment regimen are disclosed.

A device utilizing biosensors to enable rapid electrochemical sensing of one or more analytes in a container. The device comprises a holder which incorporates at least one reference electrode and at least one sensing electrode. The sensing electrode comprising an electrically conductive substrate which is coated in a first layer of a suitable electron acceptor and subsequently with a second layer incorporating a biorecognition molecule adsorbed or within a suitable electropolymer matrix or carrier.

Disclosed is an antibody which binds to olanzapine, which can be used to detect olanzapine in a sample such as in a competitive immunoassay method. The antibody can be used in a lateral flow assay device for point-of-care detection of olanzapine, including multiplex detection of aripiprazole, olanzapine, quetiapine, and risperidone in a single lateral flow assay device.

The present invention relates to in vitro methods for the determination of the potential toxicity of test compounds. The invention also comprises in vitro methods for the selection of therapeutical compounds useful for the treatment of pathology related to an alteration of the mechanism of the mRNA editing of ADAR dependent A to I mRNA editing of the serotonin 2C receptor (5HTR2C). Finally, the present invention is directed to the kits and tools for the implementation of these methods. The invention is of special utility in the pharmaceutical industry for analysis of the toxicity profile or the screening of compounds involved in drug development and/or in pharmaceutical compositions.