Hilary Bertisch

A DTI study of white matter microstructure in individuals at high genetic risk for schizophrenia

Structural brain developmental anomalies, particularly those in frontotemporal white matter pathways, may have a genetic component and place people at increased risk for schizophrenia. The current study employed Diffusion Tensor Imaging (DTI) to measure fractional anisotropy (FA) as a quantitative indicator of white matter integrity. We examined twenty-two participants at high genetic risk for schizophrenia (HR), 23 people with schizophrenia (most of whom were family members of those at HR) and 37 non-psychiatric controls for comparison. In those at HR, reduced FA was observed in the cingulate and angular gyri bilaterally. In a few regions, FA was higher in HR participants than in comparison participants. These regional variations in FA might reflect differences in white matter development from comparison participants. Our data provide some evidence that abnormal white matter integrity may be detectable before the onset of a psychotic illness, although longitudinal studies are necessary to determine whether these individuals at genetic risk with abnormal FA will develop illness and whether these changes are associated with the genetic risk for the disorder.

A preliminary DTI study showing no brain structural change associated with adolescent cannabis use

Analyses were performed on brain MRI scans from individuals who were frequent cannabis users (N = 10; 9 males, 1 female, mean age 21.1 ± 2.9, range: 18–27) in adolescence and similar age and sex matched young adults who never used cannabis (N = 10; 9 males, 1 female, mean age of 23.0 ± 4.4, range: 17–30). Cerebral atrophy and white matter integrity were determined using diffusion tensor imaging (DTI) to quantify the apparent diffusion coefficient (ADC) and the fractional anisotropy (FA). Whole brain volumes, lateral ventricular volumes, and gray matter volumes of the amygdala-hippocampal complex, superior temporal gyrus, and entire temporal lobes (excluding the amygdala-hippocampal complex) were also measured. While differences existed between groups, no pattern consistent with evidence of cerebral atrophy or loss of white matter integrity was detected. It is concluded that frequent cannabis use is unlikely to be neurotoxic to the normal developing adolescent brain.

Rapid telomere erosion in schizophrenia

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fMRI study of language activation in schizophrenia, schizoaffective disorder and in individuals genetically at high risk

BACKGROUND Structural and functional abnormalities have been found in language-related brain regions in patients with schizophrenia. We previously reported findings pointing to differences in word processing between people with schizophrenia and individuals who are at high-risk for schizophrenia using a voxel-based (whole brain) fMRI approach. We now extend this finding to specifically examine functional activity in three language related cortical regions using a larger cohort of individuals. METHOD A visual lexical discrimination task was performed by 36 controls, 21 subjects at high genetic-risk for schizophrenia, and 20 patients with schizophrenia during blood oxygenation level dependent (BOLD) fMRI scanning. Activation in bilateral inferior frontal gyri (Brodmanns area 44-45), bilateral inferior parietal lobe (Brodmanns area 39-40), and bilateral superior temporal gyri (Brodmanns area 22) was investigated. For all subjects, two-tailed Pearson correlations were calculated between the computed laterality index and a series of cognitive test scores determining language functioning. RESULTS Regional activation in Brodmanns area 44-45 was left lateralized in normal controls, while high-risk subjects and patients with schizophrenia or schizoaffective disorder showed more bilateral activation. No significant differences among the three diagnostic groups in the other two regions of interest (Brodmanns area 22 or areas 39-40) were found. Furthermore, the apparent reasons for loss of leftward language lateralization differed between groups. In high-risk subjects, the loss of lateralization was based on reduced left hemisphere activation, while in the patient group, it was due to increased right side activation. Language ability related cognitive scores were positively correlations with the laterality indices obtained from Brodmanns areas 44-45 in the high-risk group, and with the laterality indices from Brodmanns areas 22 and 44-45 in the patient group. CONCLUSIONS This study reinforces previous language related imaging studies in high-risk subjects and patients with schizophrenia suggesting that reduced functional lateralization in language related frontal cortex may be a vulnerability marker for schizophrenia. Future studies will determine whether it is predictive of who develops illness.

A preliminary comparison of the hopes of researchers, clinicians, and families for the future ethical use of genetic findings on schizophrenia

A written questionnaire about genetic testing was distributed to all registrants at The 2004 World Congress of Psychiatric Genetics, mailed to clinical psychiatrists obtained from a directory of clinicians practicing in New York City, and mailed to members of families who have multiple affected family members with schizophrenia. A total of 274 individuals responded (162 researchers, 64 clinicians, and 48 family members). This survey shows that the majority of family members who completed the questionnaire (83.3%) would want to be tested if a genetic test were to become available. Over half of the family members (56.2%) would want prenatal testing. Similarly, over half of the clinicians (56.3%) would recommend it, despite only 25% of the researchers reporting that it would be a future useful tool. All of the clinicians surveyed thought adoption agencies should inform families about a family history of schizophrenia, while only half of the researchers thought this should be done (51.9%). These differences in opinions between consumers, their clinicians, and researchers could be based on a lack of understanding of the amount of risk conferred to family members by reported gene variants. Providing public discussions for placing these risks in perspective should be the responsibility of researchers. Open public discussion of the ethical and social uses of the information gained from psychiatric genetic research and its limitations is encouraged.

Early detection of schizophrenia by diffusion weighted imaging.

A novel magnetic resonance imaging method was used to determine whether it is feasible to detect early signs of cortical atrophy among individuals who are at high risk for developing schizophrenia. Fifteen individuals at high-risk for schizophrenia and 15 of their first degree relatives diagnosed with schizophrenia were compared with controls (n=25) who did not have a family history of psychiatric illness or psychiatric hospitalizations. On the basis of a voxelwise analysis of apparent diffusion coefficient (ADC) maps derived from diffusion weighted magnetic resonance imaging, these individuals showed evidence of deficits in four separate regions of the brain, all on the left side only: parahippocampal gyrus, lingual gyrus, superior frontal gyrus, and middle frontal gyrus. However, conventional volumetric quantification of ventricular space to detect atrophy failed to reveal differences between high-risk subjects and controls. It is concluded that ADC may be a more sensitive measure than ventricular volume assessments for use in future studies of early prediction of schizophrenia.

An fMRI study of language processing in people at high genetic risk for schizophrenia

BACKGROUND Abnormalities in language processing and the related brain structures have been reported in people with schizophrenia. It has been proposed that the brain pathways for language processing are anomalous in these individuals and form the underlying basis for the positive symptoms of the illness. If language pathway abnormalities can be detected early in people at high-risk for schizophrenia prior to the onset of symptoms, early treatment can ensue. METHODS Fifteen young adults at high genetic risk for developing schizophrenia were compared with 15 of their siblings with schizophrenia or schizoaffective disorder and 15 age and sex matched individuals at low risk for schizophrenia using a visual lexical decision task during fMRI. The data were analyzed by contrasting activation obtained during a real word-pseudoword discrimination task to activation obtained during a nonlinguistic discrimination task, and the differential activations were examined. RESULTS Patterns of brain activation while reading and discriminating between real and pseudowords differed across groups, with more bilateral activation in schizophrenia patients and their high-risk siblings than controls. In control subjects discrimination of words from psuedowords significantly activated Brodmanns area 44 more strongly than when non-linguistic symbols were discriminated. However, high-risk subjects and their siblings with schizophrenia activated this region similarly for both language and non-language tasks. CONCLUSIONS Normal individuals can be distinguished from subjects at high genetic risk for schizophrenia and patients with schizophrenia by their more lateralized and stronger activation of Brodmanns area 44 to word compared with symbol discrimination tasks. Thus, evaluation of language processing by fMRI may be a valuable tool for use in the prediction of individual risk for developing schizophrenia.

Telomerase levels in schizophrenia : A preliminary study

We previously demonstrated that telomere length was markedly reduced in peripheral blood lymphocytes from individuals with schizophrenia. Since reduced telomere length can be caused by decreased telomerase activity, we quantitated basal telomerase activity in peripheral blood lymphocytes derived from individuals with schizophrenia (n=53), unaffected relatives (n=31) and unrelated controls (n=59). Telomerase activity varied greatly among individuals, suggesting that this enzymatic activity is affected by various factors. We observed a nominally significant decrease in telomerase activity among individuals with schizophrenia compared to unaffected individuals (unaffected relatives and unrelated controls). Further studies are needed to investigate the role of telomerase in schizophrenia.

Heritability estimates for cognitive factors and brain white matter integrity as markers of schizophrenia.

Recent genetics research focusing on schizophrenia has led to candidate cognitive and neuroimaging variables as intermediate phenotypes or “endophenotype” markers for the illness. Among other stringent criteria, to be an endophenotype, a marker must demonstrate heritability. In an effort to explore the validity of a selection of cognitive and neuroimaging endophenotypes, the present study was designed to determine estimates of their heritability. One hundred fourteen subjects, including 27 with schizophrenia and 39 unaffected relatives from 23 multiplex schizophrenia families, participated in a comprehensive neuropsychological test battery and structural brain imaging with diffusion tensor imaging (DTI). Variables were selected if they previously have been demonstrated to show differences between people with schizophrenia and normal controls. Significant evidence of heritability was confirmed for overall cognitive function (“g”), as well as expressive and receptive language, verbal and visual memory, processing speed and cognitive inhibition. In addition, significant heritability estimates were determined for specific regions in the frontal, central, parietal, and occipital areas. These results suggest that the variables chosen may be useful endophenotypes for genetic and early detection studies, although further work with larger cohorts should be conducted to show that deficits in these functions and structures also segregate with schizophrenia within families and thus fully satisfy the definition of an endophenotype. In addition, other cognitive and neuroimaging variables that were not studied here may be candidates for schizophrenia endophenotypes.

Structural abnormalities in language circuits in genetic high-risk subjects and schizophrenia patients

Schizophrenia is a severe psychiatric disorder with a strong genetic predisposition. Structural and functional brain deficits throughout the cerebral cortex, particularly in the language-processing associated brain regions, are consistently reported. Recently, increasing evidence from magnetic resonance imaging (MRI) studies suggests that healthy relatives of schizophrenia patients also show structural brain abnormalities in cortical gray matter (GM) volume and thickness, suggesting that this may be associated with an unexpressed genetic liability for the disorder. Unfortunately, the findings are not consistent, which may be caused by different age ranges of the cohorts studied. In the present study, we examined the voxel-based whole brain cortical thickness, area, GM volume densities, and regional cortical thickness-related laterality indices in 14 bilateral regions of interest (ROIs) from known language-processing circuits in 20 schizophrenia patients, 21 young non-psychotic subjects with heightened genetic risk for schizophrenia at the peak ages for development of the disorder, and 48 matched controls. The results showed widespread significant reductions in cortical thickness, cortical GM volume density, and scattered decreases in cortical surface area in the schizophrenia patients compared with those in the high-risk subjects and normal controls. Moreover, the genetic high-risk subjects showed significantly increased regional cortical thickness in 7 of the 14 ROIs in the language-processing pathway when compared with controls. They also had increased GM volume density in scattered regions associated with language-processing when compared with the normal controls. Laterality analyses showed that the spatial distribution of abnormal cortical thickness in the schizophrenia patients, as well as in the high-risk subjects, contributes to a decrease of the normal left-greater-than-right anatomical asymmetry in the inferior orbital frontal area, and a increased left-greater-than-right pattern in the inferior parietal and occipital regions. Together with the existing findings in the literature, the results of the present study suggest that developmental disruption of the anatomical differentiation of the hemispheres provides a basis for understanding the language impairment and symptoms of psychosis, and that these may arise because of abnormal left-right hemispherical communications that interrupt the normal flow of information processing. The early structural deficits in language-processing circuits may precede the appearance of psychotic symptoms and may be an indicator of an increased risk of developing schizophrenia.