FUNCTIONAL AND STRUCTURAL CONNECTIVITY IN SUBJECTS AT HIGH RISK FOR PSYCHOSIS AS A POSSIBLE BIOMARKER FOR THEIR TRANSITION TO SCHIZOPHRENIA – A COMBINED EEG AND DTI STUDY

Mina Eghbalian; Amanda Lyall; Saskia Steinmann; Felix Nägele; Suheyla Cetin  Karayumak; Fan Zhang; Ofer Pasternak; Jonas Rauh; Marius Mußmann; Marek Kubicki; Gregor Leicht; Martha E Shenton; Christoph Mulert

FUNCTIONAL AND STRUCTURAL CONNECTIVITY IN SUBJECTS AT HIGH RISK FOR PSYCHOSIS AS A POSSIBLE BIOMARKER FOR THEIR TRANSITION TO SCHIZOPHRENIA – A COMBINED EEG AND DTI STUDY

Standard

FUNCTIONAL AND STRUCTURAL CONNECTIVITY IN SUBJECTS AT HIGH RISK FOR PSYCHOSIS AS A POSSIBLE BIOMARKER FOR THEIR TRANSITION TO SCHIZOPHRENIA – A COMBINED EEG AND DTI STUDY. / Eghbalian, Mina; Lyall, Amanda; Steinmann, Saskia; Nägele, Felix; Karayumak, Suheyla Cetin; Zhang, Fan; Pasternak, Ofer; Rauh, Jonas ; Mußmann, Marius; Kubicki, Marek; Leicht, Gregor; Shenton, Martha E; Mulert, Christoph.

In: SCHIZOPHRENIA BULL, Vol. 2019, No. 45, Issue Supplement 2, 04.2019, p. 208-209.

Research output: SCORING: Contribution to journal › Conference abstract in journal › Research › peer-review

Harvard

Eghbalian, M, Lyall, A, Steinmann, S, Nägele, F, Karayumak, SC, Zhang, F, Pasternak, O, Rauh, J , Mußmann, M, Kubicki, M, Leicht, G, Shenton, ME & Mulert, C 2019, 'FUNCTIONAL AND STRUCTURAL CONNECTIVITY IN SUBJECTS AT HIGH RISK FOR PSYCHOSIS AS A POSSIBLE BIOMARKER FOR THEIR TRANSITION TO SCHIZOPHRENIA – A COMBINED EEG AND DTI STUDY', SCHIZOPHRENIA BULL, vol. 2019, no. 45, Issue Supplement 2, pp. 208-209.

APA

Eghbalian, M., Lyall, A., Steinmann, S., Nägele, F., Karayumak, S. C., Zhang, F., Pasternak, O., Rauh, J., Mußmann, M., Kubicki, M., Leicht, G., Shenton, M. E., & Mulert, C. (2019). FUNCTIONAL AND STRUCTURAL CONNECTIVITY IN SUBJECTS AT HIGH RISK FOR PSYCHOSIS AS A POSSIBLE BIOMARKER FOR THEIR TRANSITION TO SCHIZOPHRENIA – A COMBINED EEG AND DTI STUDY. SCHIZOPHRENIA BULL, 2019(45, Issue Supplement 2), 208-209.

Vancouver

Eghbalian M, Lyall A, Steinmann S, Nägele F, Karayumak SC, Zhang F et al. FUNCTIONAL AND STRUCTURAL CONNECTIVITY IN SUBJECTS AT HIGH RISK FOR PSYCHOSIS AS A POSSIBLE BIOMARKER FOR THEIR TRANSITION TO SCHIZOPHRENIA – A COMBINED EEG AND DTI STUDY. SCHIZOPHRENIA BULL. 2019 Apr;2019(45, Issue Supplement 2):208-209.

Bibtex

@article{307df127d3f240758227475e2eee53a9,

title = "FUNCTIONAL AND STRUCTURAL CONNECTIVITY IN SUBJECTS AT HIGH RISK FOR PSYCHOSIS AS A POSSIBLE BIOMARKER FOR THEIR TRANSITION TO SCHIZOPHRENIA – A COMBINED EEG AND DTI STUDY",

abstract = "BackgroundAltered gamma-band connectivity has been shown across all stages of schizophrenia (SZ) and for persons at High Risk for Psychosis (HRP). Oscillations in the gamma-band frequency range are suggested to play a crucial role for both local and long-range synchronization within the brain during perceptual and cognitive processes. Structural connectivity in the brain is provided by white matter (WM) tracts connecting these areas. Reduced WM integrity is also a feature of SZ that has often been described.The aim of this study is to investigate the relationship between altered gamma-band connectivity and WM structural connectivity in Clinical High Risk for Psychosis (HRP) patients using Electroencephalography (EEG) and Diffusion Tensor Imaging (DTI) to achieve a better understanding of which factors could predict a transition to SZ considering functional and structural connectivity. The identification of those biomarkers would be a further step toward understanding the causes of SZ and could contribute to a more individualized and targeted therapy to achieve a better outcome in patients.MethodsThe study includes a total of 26 HRP patients, 7 converted to schizophrenia after one year (HRP-C) and 13 healthy controls (HC). High density EEG (64 channels) was recorded during the performance of a cognitively demanding auditory choice reaction task.Source estimation and analysis of the functional gamma-band connectivity was done using eLORETA.We defined Regions of Interest (ROIs) that were known to be generators of the auditory evoked Gamma-Band Response (aeGBR) from a previous combined EEG-fMRI study of this population – the dorsal anterior cingulate cortex (dACC) and the bilateral auditory cortices.MRI data acquisition was done with a 3T Siemens scanner (Trio). We generated whole-brain 2-Tensor-Tractography for all subjects in order to analyze the integrity of the underlying WM fiber bundles implicated in this functional network, namely the Cingulum Bundle (CB), the Medial Longitudinal Fasciculus (MdLF), the Arcuate Fasciculus (AF) and the Extreme Capsule (EC).The primary outcome measure is the fractional anisotropy of the tissue (FAt), which is corrected for free water (FW) in the brain.ResultsOur preliminary results show a lower aeGBR in HRP-C patients compared to HC with the HRP-NC at an intermediate level. We found longer reaction times for HRP compared to HC. The study is presently on-going. Based on previous work in this sample, we hypothesize that the CB, MdLF, AF and EC of the HRP-C will exhibit decreased FAt and increased FW compared to HC.DiscussionThe combination of EEG with its high temporal resolution and DTI with its high spatial resolution allows for detailed insight into the possible disturbances in HRP patients compared to HC. Alterations in both modalities have been shown before, however, in this study we aim to link functional connectivity alterations in the previously described networks to their structural correlate to achieve a better insight into their interaction. Taken together, the quantification of those possible biomarkers might help to detect a transition to SZ earlier and thus allow an early intervention.",

author = "Mina Eghbalian and Amanda Lyall and Saskia Steinmann and Felix N{\"a}gele and Karayumak, {Suheyla Cetin} and Fan Zhang and Ofer Pasternak and Jonas Rauh and Marius Mu{\ss}mann and Marek Kubicki and Gregor Leicht and Shenton, {Martha E} and Christoph Mulert",

note = "published abstract ",

year = "2019",

month = apr,

language = "English",

volume = "2019",

pages = "208--209",

journal = "SCHIZOPHRENIA BULL",

issn = "0586-7614",

publisher = "Oxford University Press",

number = "45, Issue Supplement 2",

}

RIS

TY - JOUR

T1 - FUNCTIONAL AND STRUCTURAL CONNECTIVITY IN SUBJECTS AT HIGH RISK FOR PSYCHOSIS AS A POSSIBLE BIOMARKER FOR THEIR TRANSITION TO SCHIZOPHRENIA – A COMBINED EEG AND DTI STUDY

AU - Eghbalian, Mina

AU - Lyall, Amanda

AU - Steinmann, Saskia

AU - Nägele, Felix

AU - Karayumak, Suheyla Cetin

AU - Zhang, Fan

AU - Pasternak, Ofer

AU - Rauh, Jonas

AU - Mußmann, Marius

AU - Kubicki, Marek

AU - Leicht, Gregor

AU - Shenton, Martha E

AU - Mulert, Christoph

N1 - published abstract

PY - 2019/4

Y1 - 2019/4

N2 - BackgroundAltered gamma-band connectivity has been shown across all stages of schizophrenia (SZ) and for persons at High Risk for Psychosis (HRP). Oscillations in the gamma-band frequency range are suggested to play a crucial role for both local and long-range synchronization within the brain during perceptual and cognitive processes. Structural connectivity in the brain is provided by white matter (WM) tracts connecting these areas. Reduced WM integrity is also a feature of SZ that has often been described.The aim of this study is to investigate the relationship between altered gamma-band connectivity and WM structural connectivity in Clinical High Risk for Psychosis (HRP) patients using Electroencephalography (EEG) and Diffusion Tensor Imaging (DTI) to achieve a better understanding of which factors could predict a transition to SZ considering functional and structural connectivity. The identification of those biomarkers would be a further step toward understanding the causes of SZ and could contribute to a more individualized and targeted therapy to achieve a better outcome in patients.MethodsThe study includes a total of 26 HRP patients, 7 converted to schizophrenia after one year (HRP-C) and 13 healthy controls (HC). High density EEG (64 channels) was recorded during the performance of a cognitively demanding auditory choice reaction task.Source estimation and analysis of the functional gamma-band connectivity was done using eLORETA.We defined Regions of Interest (ROIs) that were known to be generators of the auditory evoked Gamma-Band Response (aeGBR) from a previous combined EEG-fMRI study of this population – the dorsal anterior cingulate cortex (dACC) and the bilateral auditory cortices.MRI data acquisition was done with a 3T Siemens scanner (Trio). We generated whole-brain 2-Tensor-Tractography for all subjects in order to analyze the integrity of the underlying WM fiber bundles implicated in this functional network, namely the Cingulum Bundle (CB), the Medial Longitudinal Fasciculus (MdLF), the Arcuate Fasciculus (AF) and the Extreme Capsule (EC).The primary outcome measure is the fractional anisotropy of the tissue (FAt), which is corrected for free water (FW) in the brain.ResultsOur preliminary results show a lower aeGBR in HRP-C patients compared to HC with the HRP-NC at an intermediate level. We found longer reaction times for HRP compared to HC. The study is presently on-going. Based on previous work in this sample, we hypothesize that the CB, MdLF, AF and EC of the HRP-C will exhibit decreased FAt and increased FW compared to HC.DiscussionThe combination of EEG with its high temporal resolution and DTI with its high spatial resolution allows for detailed insight into the possible disturbances in HRP patients compared to HC. Alterations in both modalities have been shown before, however, in this study we aim to link functional connectivity alterations in the previously described networks to their structural correlate to achieve a better insight into their interaction. Taken together, the quantification of those possible biomarkers might help to detect a transition to SZ earlier and thus allow an early intervention.

AB - BackgroundAltered gamma-band connectivity has been shown across all stages of schizophrenia (SZ) and for persons at High Risk for Psychosis (HRP). Oscillations in the gamma-band frequency range are suggested to play a crucial role for both local and long-range synchronization within the brain during perceptual and cognitive processes. Structural connectivity in the brain is provided by white matter (WM) tracts connecting these areas. Reduced WM integrity is also a feature of SZ that has often been described.The aim of this study is to investigate the relationship between altered gamma-band connectivity and WM structural connectivity in Clinical High Risk for Psychosis (HRP) patients using Electroencephalography (EEG) and Diffusion Tensor Imaging (DTI) to achieve a better understanding of which factors could predict a transition to SZ considering functional and structural connectivity. The identification of those biomarkers would be a further step toward understanding the causes of SZ and could contribute to a more individualized and targeted therapy to achieve a better outcome in patients.MethodsThe study includes a total of 26 HRP patients, 7 converted to schizophrenia after one year (HRP-C) and 13 healthy controls (HC). High density EEG (64 channels) was recorded during the performance of a cognitively demanding auditory choice reaction task.Source estimation and analysis of the functional gamma-band connectivity was done using eLORETA.We defined Regions of Interest (ROIs) that were known to be generators of the auditory evoked Gamma-Band Response (aeGBR) from a previous combined EEG-fMRI study of this population – the dorsal anterior cingulate cortex (dACC) and the bilateral auditory cortices.MRI data acquisition was done with a 3T Siemens scanner (Trio). We generated whole-brain 2-Tensor-Tractography for all subjects in order to analyze the integrity of the underlying WM fiber bundles implicated in this functional network, namely the Cingulum Bundle (CB), the Medial Longitudinal Fasciculus (MdLF), the Arcuate Fasciculus (AF) and the Extreme Capsule (EC).The primary outcome measure is the fractional anisotropy of the tissue (FAt), which is corrected for free water (FW) in the brain.ResultsOur preliminary results show a lower aeGBR in HRP-C patients compared to HC with the HRP-NC at an intermediate level. We found longer reaction times for HRP compared to HC. The study is presently on-going. Based on previous work in this sample, we hypothesize that the CB, MdLF, AF and EC of the HRP-C will exhibit decreased FAt and increased FW compared to HC.DiscussionThe combination of EEG with its high temporal resolution and DTI with its high spatial resolution allows for detailed insight into the possible disturbances in HRP patients compared to HC. Alterations in both modalities have been shown before, however, in this study we aim to link functional connectivity alterations in the previously described networks to their structural correlate to achieve a better insight into their interaction. Taken together, the quantification of those possible biomarkers might help to detect a transition to SZ earlier and thus allow an early intervention.

M3 - Conference abstract in journal

VL - 2019

SP - 208

EP - 209

JO - SCHIZOPHRENIA BULL

JF - SCHIZOPHRENIA BULL

SN - 0586-7614

IS - 45, Issue Supplement 2

ER -