Clinical and Methodological Factors Related to Reliability of the Best-Estimate Diagnostic Procedure

Roy, Marc‐André; Macute, C.; rette,; Cliche, D.; Fournier, Jean-Pierre; Boutin, Pierrette; Rodrigue, C.; Charron, L.; Turgeon, M.; Hamel, Martin; Montgrain, N; Nicole, Luc; Piracute, A.; Wallot, Hubert; Ponton, A.M.; Garneau, Y.; Dion, Catherine; Lavallée, Jean-Guy; Potvin, A.; Szatmári, Péter; Maziade, Michel

doi:10.1176/ajp.154.12.1726

Cited by 100 publications

(82 citation statements)

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“…We indeed reported data showing that, in case of disagreements between diagnosticians, unblind bestestimate diagnoses tended to be in continuity with the most predominant diagnosis of the pedigree more frequently than blind diagnoses. 26,31 However, other studies using similar methods did not find high rates of mixed pedigrees. One cannot eliminate the possibility that the observation of such mixed pedigrees be a particularity of the Eastern Quebec population.…”

Section: Sample and Ascertainmentmentioning

confidence: 94%

“…The ascertainment, diagnostic methods and reliability have been described in detail in previous reports. 15,26,31,36 Briefly, information from an interview with the subjects (Structured Clinical Interview for DSM-III-R), from relatives and from the lifetime medical records, was gathered. Based on this information, a consensus best-estimate DSM-III-R diagnosis (BED) was derived by a panel of four research psychiatrists who were blind to diagnoses in relatives.…”

Section: Sample and Ascertainmentmentioning

confidence: 99%

“…26,27 This decision was motivated (i) by family studies suggesting some degree of familial coaggregation of SZ and BP 4,[28][29][30] and (ii) the need to preserve total blindness to the predominant diagnosis in an SZ or a BP pedigree to avoid a diagnostic bias that we showed as significantly affecting diagnostic accuracy. 31 Two other sets of findings support this SZ/BP commonality. First, we were among the first to demonstrate, by means of factor analysis, that the dimensional model of Liddle crossed diagnostic boundaries and was common to SZ and BP, 27 which has been confirmed in other populations.…”

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confidence: 90%

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Shared and specific susceptibility loci for schizophrenia and bipolar disorder: a dense genome scan in Eastern Quebec families

et al. 2004

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The goal of this study was to identify susceptibility loci shared by schizophrenia (SZ) and bipolar disorder (BP), or specific to each. To this end, we performed a dense genome scan in a first sample of 21 multigenerational families of Eastern Quebec affected by SZ, BP or both (N ¼ 480 family members). This probably constitutes the first genome scan of SZ and BP that used the same ascertainment, statistical and molecular methods for the concurrent study of the two disorders. We genotyped 607 microsatellite markers of which 350 were spaced by 10 cM and 257 others were follow-up markers in positive regions at the 10 cM scan. Lander and Kruglyak thresholds were conservatively adjusted for multiple testings. We maximized the lod scores (mod score) over eight combinations (2 phenotype severity levels Â 2 models of transmission Â 2 analyses, affected/unaffected vs affected-only). We observed five genomewide significant linkages with mod score 44.0: three for BP (15q11.1, 16p12.3, 18q12-q21) and two for the shared phenotype, that is, the common locus (CL) phenotype (15q26,18q12-q21). Nine mod scores exceeded the suggestive threshold of 2.6: three for BP (3q21, 10p13, 12q23), three for SZ (6p22, 13q13, 18q21) and three for the CL phenotype (2q12.3, 13q14, 16p13). Mod scores 41.9 might represent confirmatory linkages of formerly reported genomewide significant findings such as our finding in 6p22.3 for SZ. Several regions appeared to be shared by SZ and BP. One linkage signal (15q26) appeared novel, whereas others overlapped formerly reported susceptibility regions. Despite the methodological limitations we raised, our data support the following trends: (i) results from several genome scans of SZ and BP in different populations tend to converge in specific genomic regions and (ii) some of these susceptibility regions may be shared by SZ and BP, whereas others may be specific to each. The present results support the relevance of investigating concurrently SZ and BP within the same study and have implications for the modelling of genetic effects. Molecular Psychiatry (2005) 10, 486-499.

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Section: Sample and Ascertainmentmentioning

confidence: 94%

Section: Sample and Ascertainmentmentioning

confidence: 99%

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confidence: 90%

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Shared and specific susceptibility loci for schizophrenia and bipolar disorder: a dense genome scan in Eastern Quebec families

et al. 2004

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“…17,18 Briefly, information from an interview with the subjects (using the Structured Clinical Interview for DSM-III-R), from relatives and medical records, was gathered. Based on this information, a first best-estimate DSM-III-R diagnosis (BED) was derived by the field team, unblind to diagnoses in relatives.…”

Section: Diagnostic Methodsmentioning

confidence: 99%

A search for specific and common susceptibility loci for schizophrenia and bipolar disorder: a linkage study in 13 target chromosomes

et al. 2001

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We report the first stage of a genome scan of schizophrenia (SZ) and bipolar disorder (BP) covering 18 candidate chromosomal areas. In addition to testing susceptibility loci that are specific to each disorder, we tested the hypothesis that some susceptibility loci might be common to both disorders. A total of 480 individuals from 21 multigenerational pedigrees of Eastern Qué bec were evaluated by means of a consensus best-estimate diagnosis made blind to diagnoses in relatives and were genotyped with 220 microsatellite markers. Two-point and multipoint model-based linkage analyses were performed and mod scores (Z, for max Z max ) are reported. The strongest linkage signals were detected at D18S1145 (in 18q12; Z = 4.03) for BP, and at D6S334 (in 6p 22-24; Z het = 3.47; ␣ = 0.66) for SZ. Three other chromosomal areas (3q, 10p, and 21q) yielded linkage signals. Chromosomes 3p, 4p, 5p, 5q, 6q, 8p, 9q, 11q, 11p, 12q, 13q, 18p and 22q showed no evidence of linkage. The 18q12 results met the Lander and Kruglyak (1995) criterion for a genome-wide significant linkage and suggested that this susceptibility region may be shared by SZ and BP. The 6p finding provided confirmatory evidence of linkage for SZ. Our results suggest that both specific and common susceptibility loci must be searched for SZ and BP. Molecular Psychiatry (2001) 6, 684-693.Keywords: schizophrenia; bipolar disorder; linkage analysis; psychiatric genetics; family studies Schizophrenia (SZ) and bipolar disorder (BP) are highly heritable disorders probably involving several genes and environmental factors. 1-3 Although previous linkage studies have yielded promising results for both disorders 4-6 (see Riley and McGuffin 7 and Pulver 8 for a recent comprehensive review), their results are often conflicting and difficult to interpret. Methodological obstacles to definitive findings include insufficient statistical power, unknown mode of inheritance, populational differences, uncertain phenotype definitions, 3,9 which also complicate the comparison of results across studies. In addition, studies suggested that some susceptibility loci such as 13q32 5,6 and 18p11 5,10 might be common to both disorders. 11,12 As discussed elsewhere, 2,13,14 such common loci are compatible with previous reports of some degree of coaggregation between SZ and mood disorders. 15 In this context, as a first stage of a genome scan for SZ and BP, we prioritized chromosomal areas based on previous linkage or association results before using, in the second stage, evenly spaced (7-10 cM) markers to cover the rest of the genome which is underway. Our criteria to select candidate areas were based on previous findings of a lod score of at least 2 in the case of parametric (model-based) analyses, or a P-value of at least 0.005 in the case of non-parametric (model-free) analyses. Two other regions were investigated as follow-ups of our own preliminary findings suggesting an association between adult onset SZ and the DRD3 locus 14 and of a suggestive linkage between SZ and 11q21-q24. 16 We r...

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“…Ces derniers ont compris qu'un niveau majeur de complexité pour la SZ et la BP réside dans l'incertitude de la définition du phénotype tel qu'utilisé dans les études de liaison et les études d'association précédentes. Un pré-requis crucial, cependant, est que la méthodologie strictement à l'insu [10,11] soit maintenue tant par les cliniciens qui échantillonnent les généalogies et le phé-notype diagnostique que par les laboratoires qui produisent les génotypes. Ce ne fut pas toujours le cas dans les études pionnières.…”

Section: éCueils Méthodologiques à éViter Dans La Nouvelle Générationunclassified

Génétique de la schizophrénie et de la maladie bipolaire

et al. 2003

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La science évolue par essais et erreurs et exige une méthodologie stricte et reproductible. Ainsi, plusieurs échecs apparents en recherche médicale contenaient le ferment de découvertes majeures. Des observations erronées dans un domaine particulier ont entraîné de très grandes découvertes médicales dans un autre. Par exemple, d'abord considérée comme un échec en tant qu'antihistaminique, la chlorpromazine, premier médi-cament antipsychotique efficace, a littéralement révo-lutionné la pharmacologie du cerveau et des maladies neuropsychiatriques. Bien qu'encore à ses débuts, la recherche en génétique des psychoses majeures telles que la schizophrénie (SZ) et la maladie bipolaire (BP) a déjà été marquée par des erreurs qui nous engagent maintenant sur une voie prometteuse. Les études de liaisons sont un point de départ essentiel pour détecter les gènes de susceptibilité des maladies complexesPour des maladies sévères comme la chorée de Huntington, le succès des études de liaison comme première phase dans l'identification des gènes de susceptibilité des maladies héréditaires a suscité beaucoup d'enthousiasme. À la fin des années 1980, cet enthousiasme s'est transmis à l'étude de la SZ et de la BP, compte tenu des résultats antérieurs d'études de jumeaux démontrant une importante composante héréditaire pour ces deux troubles psychiatriques majeurs [1]. S'ensuivit une décennie fort déce-vante en termes de résultats scientifiques dans le domaine de la génétique psychiatrique. Cependant, cette première génération d'études de la SZ et de la BP a produit de nouveaux concepts utiles à la compréhension des mécanismes génétiques complexes sous-tendant ces maladies prévalentes et coûteuses. Afin de mieux saisir le cheminement scientifique actuel, il importe d'analyser les raisons expliquant pourquoi de fausses revendications de liaison, publiées dans les revues les plus prestigieuses, ont produit ce qui est apparu comme un faux départ, nuisant à l'image de la génétique psychiatrique. La priorité pour les scientifiques est d'éviter ces mêmes > Des résultats indiquant des liaisons sur deux chromosomes pour la schizophrénie (SZ) et la maladie bipolaire (BP) furent trop hâtivement rapportés dans la revue Nature à la fin des années 1980. Les connaissances accumulées à partir des insuccès de la première génération d'études géné-tiques moléculaires de la SZ et de la BP ont toutefois permis de jeter les bases de la seconde géné-ration d'études de liaison, qui donnent maintenant des résultats convergents fort encourageants. Cet article présente une douzaine de sites génomiques de susceptibilité pour la SZ et la BP, certains d'entre eux étant probablement partagés par ces deux psychoses majeures, tandis que d'autres seraient spécifiques à chacune. <

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Clinical and Methodological Factors Related to Reliability of the Best-Estimate Diagnostic Procedure

Cited by 100 publications

References 30 publications

Shared and specific susceptibility loci for schizophrenia and bipolar disorder: a dense genome scan in Eastern Quebec families

Shared and specific susceptibility loci for schizophrenia and bipolar disorder: a dense genome scan in Eastern Quebec families

A search for specific and common susceptibility loci for schizophrenia and bipolar disorder: a linkage study in 13 target chromosomes

Génétique de la schizophrénie et de la maladie bipolaire

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