Your search keyword '"Can, Gunes"' showing total 2 results

1. Structural dysconnectivity in offspring of individuals with bipolar disorder: The effect of co-existing clinical-high-risk for bipolar disorder.

Author

Bora, Emre, Can, Gunes, Zorlu, Nabi, Ulas, Gozde, Inal, Neslihan, and Ozerdem, Aysegul

Subjects

*BIPOLAR disorder, *TEMPORAL lobe, *CEREBELLUM, *BRAIN abnormalities

Abstract

• Global properties of WM networks and rich club integrity appeared to be intact in BDoff. • Abnormal regional connectivity in right posterior brain regions are evident in BDoff. • Abnormal regional connectivity in anterior frontal and limbic regions and left posterior brain regions might be related history of subthreshold mood symptoms. Bipolar disorder (BD) might be associated in disturbances in brain networks. However, little is known about the abnormalities in structural brain connectivity which might be related to vulnerability to BD and predictive of the emergence of manic symptoms. No previous study has investigated the effect of subthreshold syndromes on structural dysconnectivity in offspring of parents with BD (BDoff). We investigated diffusion weighted images of 70 BDoff and 48 healthy controls (HC). Nineteen of the 70 BDoff had presented with subthreshold syndromes indicating a clinical high-risk (BDoff-CHR) and other 51 BDoff had no such history (BDoff-non-CHR). Global and regional network properties, rich club organization and inter-regional connectivity in BDoff and healthy controls were investigated using graph analytical methods and network-based-statistics (NBS). Global properties of WM networks appeared to be intact in BDoff-CHR and BDoff-non-CHR. However, decreased regional connectivity in right occipito-parietal areas and cerebellum was a common feature of both BDoff groups. Importantly, decreased interregional connectivity between nodes in right and left prefrontal regions, nodes in right prefrontal lobe and right temporal lobe and nodes in left occipital area and left cerebellum were evident in BDoff-CHR but not BDoff-non-CHR. The cross-sectional nature of the study was the main consideration. Decreased regional connectivity in right posterior brain regions might be related to vulnerability to BD. On the other hand, interregional dysconnectivity in anterior frontal and limbic regions and left posterior brain regions might be evident in individuals genetically at risk for developing BD who had experienced subthreshold mood symptoms. [ABSTRACT FROM AUTHOR]

Published

2021

2. Structural dysconnectivity in offspring of individuals with bipolar disorder: The effect of co-existing clinical-high-risk for bipolar disorder.

Author

Bora, Emre, Can, Gunes, Zorlu, Nabi, Ulas, Gozde, Inal, Neslihan, and Ozerdem, Aysegul

Subjects

*BRAIN, *FRONTAL lobe, *RESEARCH, *CROSS-sectional method, *RESEARCH methodology, *MAGNETIC resonance imaging, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *BIPOLAR disorder, *CEREBRAL cortex

Abstract

Background: Bipolar disorder (BD) might be associated in disturbances in brain networks. However, little is known about the abnormalities in structural brain connectivity which might be related to vulnerability to BD and predictive of the emergence of manic symptoms. No previous study has investigated the effect of subthreshold syndromes on structural dysconnectivity in offspring of parents with BD (BDoff).Methods: We investigated diffusion weighted images of 70 BDoff and 48 healthy controls (HC). Nineteen of the 70 BDoff had presented with subthreshold syndromes indicating a clinical high-risk (BDoff-CHR) and other 51 BDoff had no such history (BDoff-non-CHR). Global and regional network properties, rich club organization and inter-regional connectivity in BDoff and healthy controls were investigated using graph analytical methods and network-based-statistics (NBS).Results: Global properties of WM networks appeared to be intact in BDoff-CHR and BDoff-non-CHR. However, decreased regional connectivity in right occipito-parietal areas and cerebellum was a common feature of both BDoff groups. Importantly, decreased interregional connectivity between nodes in right and left prefrontal regions, nodes in right prefrontal lobe and right temporal lobe and nodes in left occipital area and left cerebellum were evident in BDoff-CHR but not BDoff-non-CHR.Limitations: The cross-sectional nature of the study was the main consideration.Conclusion: Decreased regional connectivity in right posterior brain regions might be related to vulnerability to BD. On the other hand, interregional dysconnectivity in anterior frontal and limbic regions and left posterior brain regions might be evident in individuals genetically at risk for developing BD who had experienced subthreshold mood symptoms. [ABSTRACT FROM AUTHOR]

Published

2020