| Nome |
# |
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Variant GADL1 and response to lithium in bipolar I disorder, file e2f56ed4-4a1b-3eaf-e053-3a05fe0a5d97
|
614
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Whole Genome Expression Analyses of miRNAs and mRNAs Suggest the Involvement of miR-320a and miR-155-3p and their Targeted Genes in Lithium Response in Bipolar Disorder, file e2f56ed9-3cdc-3eaf-e053-3a05fe0a5d97
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420
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Variant GADL1 and response to lithium in bipolar I disorder, file e2f56ed4-4577-3eaf-e053-3a05fe0a5d97
|
298
|
|
Genome-wide association study of 40,000 individuals identifies two novel loci associated with bipolar disorder, file e2f56ed5-13eb-3eaf-e053-3a05fe0a5d97
|
140
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Assessment of response to lithium maintenance treatment in bipolar disorder: A Consortium on Lithium Genetics (ConLiGen) report, file e2f56ed5-b2a9-3eaf-e053-3a05fe0a5d97
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119
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Exemplar scoring identifies genetically separable phenotypes of lithium responsive bipolar disorder, file e2f56ed9-9568-3eaf-e053-3a05fe0a5d97
|
95
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Prediction of lithium response using genomic data, file e2f56ed9-8da0-3eaf-e053-3a05fe0a5d97
|
64
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HLA-DRB1 and HLA-DQB1 genetic diversity modulates response to lithium in bipolar affective disorders, file e2f56eda-87aa-3eaf-e053-3a05fe0a5d97
|
43
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Investigating the phenotypic and genetic associations between personality traits and suicidal behavior across major mental health diagnoses, file 5621c196-e3f0-4dd1-99d7-96ed026c55c3
|
28
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Convergent analysis of genome-wide genotyping and transcriptomic data suggests association of zinc finger genes with lithium response in bipolar disorder, file e2f56ed7-b6e7-3eaf-e053-3a05fe0a5d97
|
23
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Combining schizophrenia and depression polygenic risk scores improves the genetic prediction of lithium response in bipolar disorder patients, file e2f56eda-5c64-3eaf-e053-3a05fe0a5d97
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22
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Telomere attrition and inflammatory load in severe psychiatric disorders and in response to psychotropic medications, file e2f56ed9-85a4-3eaf-e053-3a05fe0a5d97
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17
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Preliminary transcriptome analysis in lymphoblasts from cluster headache and bipolar disorder patients implicates dysregulation of circadian and serotonergic genes, file e2f56ed3-8a0d-3eaf-e053-3a05fe0a5d97
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16
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Involvement of core clock genes in lithium response, file e2f56ed7-4127-3eaf-e053-3a05fe0a5d97
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15
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A multidisciplinary approach to mental illness: Do inflammation, telomere length and microbiota form a loop? A protocol for a cross-sectional study on the complex relationship between inflammation, telomere length, gut microbiota and psychiatric disorders, file e2f56ed9-3b2e-3eaf-e053-3a05fe0a5d97
|
15
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Leukocyte telomere length positively correlates with duration of lithium treatment in bipolar disorder patients, file e2f56ed5-1091-3eaf-e053-3a05fe0a5d97
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14
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Evidence towards RNA Binding Motif (RNP1, RRM) Protein 3 (RBM3) as a Potential Biomarker of Lithium Response in Bipolar Disorder Patients, file e2f56ed6-9a96-3eaf-e053-3a05fe0a5d97
|
13
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Investigating polygenic burden in age at disease onset in bipolar disorder: Findings from an international multicentric study, file e2f56ed7-9a78-3eaf-e053-3a05fe0a5d97
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13
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Prediction of Lithium Response using Clinical Data, file e2f56ed9-3eac-3eaf-e053-3a05fe0a5d97
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13
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Association of Attention-Deficit/Hyperactivity Disorder and Depression Polygenic Scores with Lithium Response: A Consortium for Lithium Genetics Study, file 38d7201f-b29e-4ae2-b0ff-3f1ef75ea90a
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12
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Age at onset in bipolar disorder: investigation of the role of TaqIA polymorphism of DRD2 gene in a Sardinian sample, file e2f56ed3-c06c-3eaf-e053-3a05fe0a5d97
|
11
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Association of polygenic score for schizophrenia and HLA antigen and inflammation genes with response to lithium in bipolar affective disorder. A genome-wide association study, file e2f56eda-6bd1-3eaf-e053-3a05fe0a5d97
|
11
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Investigation of genetic loci shared between bipolar disorder and risk-taking propensity: potential implications for pharmacological interventions, file e2f56ed9-f1cc-3eaf-e053-3a05fe0a5d97
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10
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Investigating the role of leukocyte telomere length in treatment-resistant depression and in response to electroconvulsive therapy, file e2f56eda-5970-3eaf-e053-3a05fe0a5d97
|
10
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Insulin-like growth factor 1 (IGF-1) expression is up-regulated in lymphoblastoid cell lines of lithium responsive bipolar disorder patients, file e2f56ed5-27d8-3eaf-e053-3a05fe0a5d97
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9
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Genetic variants associated with response to lithium treatment in bipolar disorder: a genome-wide association study, file e2f56ed5-3998-3eaf-e053-3a05fe0a5d97
|
9
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Differences in telomere length between patients with bipolar disorder and controls are influenced by lithium treatment, file e2f56ed9-48c6-3eaf-e053-3a05fe0a5d97
|
9
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Characterisation of age and polarity at onset in bipolar disorder, file e2f56eda-5d3f-3eaf-e053-3a05fe0a5d97
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9
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Pharmacogenomics of bipolar disorder, file e2f56eda-02c7-3eaf-e053-3a05fe0a5d97
|
8
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Pharmacogenomics of bipolar disorder, file e2f56ed3-fc59-3eaf-e053-3a05fe0a5d97
|
7
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Analysis of the influence of microRNAs in lithium response in bipolar disorder, file e2f56ed7-9a7c-3eaf-e053-3a05fe0a5d97
|
7
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Association of polygenic score for major depression with response to lithium in patients with bipolar disorder, file e2f56eda-528b-3eaf-e053-3a05fe0a5d97
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7
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Genetic and Epigenetic Markers of Lithium Response, file e2f56eda-6e00-3eaf-e053-3a05fe0a5d97
|
7
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Analysis on in vitro effect of lithium on telomere length in lymphoblastoid cell lines from bipolar disorder patients with different clinical response to long-term lithium treatment, file 18113b3e-2d25-48e6-84f3-36bf5db6cf40
|
6
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Correction: Combining schizophrenia and depression polygenic risk scores improves the genetic prediction of lithium response in bipolar disorder patients (Translational Psychiatry, (2021), 11, 1, (606), 10.1038/s41398-021-01702-2), file b7b0575f-6227-43d0-b674-24abfc4310e8
|
6
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Erratum: Using polygenic scores and clinical data for bipolar disorder patient stratification and lithium response prediction: Machine learning approach (The British Journal of Psychiatry (2022) (1–10) DOI: 10.1192/bjp.2022.28), file d1d1fc78-8d66-4672-a977-72a1fedbd651
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6
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A retrospective case series of bipolar patients with adjunctive carbamazepine in long-term lithium treatment: evaluation of the effectiveness, file e2f56ed3-c19d-3eaf-e053-3a05fe0a5d97
|
6
|
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null, file e2f56ed5-b1bc-3eaf-e053-3a05fe0a5d97
|
6
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Pharmacogenomics: state of research and prospectives in clinical application, file e2f56ed3-b767-3eaf-e053-3a05fe0a5d97
|
5
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Using polygenic scores and clinical data for bipolar disorder patient stratification and lithium response prediction: machine learning approach, file 62aea2f7-0a6f-4d2c-b9db-12fb41feaf27
|
4
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Admixture analysis of age at onset in bipolar disorder, file e2f56ed3-b082-3eaf-e053-3a05fe0a5d97
|
4
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A case-control association study of the PDLIM5 gene and bipolar disorder in a Sardinian sample, file e2f56ed3-b48f-3eaf-e053-3a05fe0a5d97
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4
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Transcriptional biomarkers of response to pharmacological treatments in severe mental disorders: A systematic review, file e2f56eda-710a-3eaf-e053-3a05fe0a5d97
|
4
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Association study in three different populations between the GPR88 gene and major psychoses, file e2f56ed3-9e38-3eaf-e053-3a05fe0a5d97
|
3
|
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null, file e2f56ed5-b30f-3eaf-e053-3a05fe0a5d97
|
3
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MicroRNA expression profiling of lymphoblasts from bipolar disorder patients who died by suicide, pathway analysis and integration with postmortem brain findings, file e2f56ed9-12e1-3eaf-e053-3a05fe0a5d97
|
3
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Can network analysis shed light on predictors of lithium response in bipolar I disorder?, file 5b72e8c6-919f-4cd1-ab6c-1387932f3f62
|
2
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No evidence of association between dopamine D3 receptor gene and bipolar affective disorder, file e2f56ed3-79e0-3eaf-e053-3a05fe0a5d97
|
2
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|
null, file e2f56ed3-80f7-3eaf-e053-3a05fe0a5d97
|
2
|
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Valutazione della risposta ai sali di litio in pazienti sardi affetti da disturbo bipolare = Evaluation of lithium treatment response in Sardinian bipolar patients, file e2f56ed3-a850-3eaf-e053-3a05fe0a5d97
|
2
|
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Genome-scan for bipolar disorder with sib-pair families in the Sardinian population: a new susceptibility locus on chromosome 1p22-p21?, file e2f56ed3-b054-3eaf-e053-3a05fe0a5d97
|
2
|
|
Genome-scan for bipolar disorder with sib-pair families in the Sardinian population: a new susceptibility locus on chromosome 1p22-p21?, file e2f56ed3-b056-3eaf-e053-3a05fe0a5d97
|
2
|
|
Candidate Genes in Bipolar 1 Sardinian Patients : A case control Study, file e2f56ed3-c57c-3eaf-e053-3a05fe0a5d97
|
2
|
|
null, file e2f56ed3-d638-3eaf-e053-3a05fe0a5d97
|
2
|
|
Golden Helix Pharmacogenomics Days: educational activities on pharmacogenomics and personalized medicine., file e2f56ed4-00cb-3eaf-e053-3a05fe0a5d97
|
2
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Association study in three different populations between the GPR88 gene and major psychoses, file e2f56ed3-9e39-3eaf-e053-3a05fe0a5d97
|
1
|
|
null, file e2f56ed3-a944-3eaf-e053-3a05fe0a5d97
|
1
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null, file e2f56ed3-b87d-3eaf-e053-3a05fe0a5d97
|
1
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null, file e2f56ed3-bb3c-3eaf-e053-3a05fe0a5d97
|
1
|
|
null, file e2f56ed3-bd97-3eaf-e053-3a05fe0a5d97
|
1
|
|
null, file e2f56ed3-bda0-3eaf-e053-3a05fe0a5d97
|
1
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Bipolar disorder in Sardinian population: Age at onset as an endophenotype?, file e2f56ed3-c505-3eaf-e053-3a05fe0a5d97
|
1
|
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Catechol-O-methyltransferase Val(158)Met polymorphism in schizophrenia: associations with cognitive and motor impairment, file e2f56ed3-fb6b-3eaf-e053-3a05fe0a5d97
|
1
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The international consortium on lithium genetics (ConLiGen): An initiative by the NIMH and IGSLI to study the genetic basis of response to lithium treatment, file e2f56ed5-c267-3eaf-e053-3a05fe0a5d97
|
1
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Pharmacogenetics of lithium effects on glomerular function in bipolar disorder patients under chronic lithium treatment: a pilot study, file e2f56ed6-840c-3eaf-e053-3a05fe0a5d97
|
1
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| Totale |
2.196 |