Thalamocortical Hyperconnectivity and Amygdala-Cortical Hypoconnectivity in Male Patients With Autism Spectrum Disorder

Background: Analyses of resting-state functional magnetic resonance imaging (rs-fMRI) have been performed to investigate pathophysiological changes in the brains of patients with autism spectrum disorder (ASD) relative to typically developing controls (CTLs). However, the results of these previous studies, which have reported mixed patterns of hypo- and hyperconnectivity, are controversial, likely due to the small sample sizes and limited age range of included participants.Methods: To overcome this issue, we analyzed multisite neuroimaging data from a large sample (n = 626) of male participants aged between 5 and 29 years (mean age = 13 years). The rs-fMRI data were preprocessed using SPM12 and DPARSF software, and signal changes in 90 brain regions were extracted. Multiple linear regression was used to exclude the effect of site differences in connectivity data. Subcortical–cortical connectivity was computed using connectivities in the hippocampus, amygdala, caudate nucleus, putamen, pallidum, and thalamus. Eighty-eight connectivities in each structure were compared between patients with ASD and CTLs using multiple linear regression with group, age, and age × group interactions, head movement parameters, and overall connectivity as variables.Results: After correcting for multiple comparisons, patients in the ASD group exhibited significant increases in connectivity between the thalamus and 19 cortical regions distributed throughout the fronto-parietal lobes, including the temporo-parietal junction and posterior cingulate cortices. In addition, there were significant decreases in connectivity between the amygdala and six cortical regions. The mean effect size of hyperconnectivity (0.25) was greater than that for hypoconnectivity (0.08). No other subcortical structures showed significant group differences. A group-by-age interaction was observed for connectivity between the thalamus and motor-somatosensory areas.Conclusions: These results demonstrate that pathophysiological changes associated with ASD are more likely related to thalamocortical hyperconnectivity than to amygdala-cortical hypoconnectivity. Future studies should examine full sets of clinical and behavioral symptoms in combination with functional connectivity to explore possible biomarkers for ASD

Default mode network in young male adults with autism spectrum disorder: Relationship with autism spectrum traits

Background: Autism spectrum traits are postulated to lie on a continuum that extends between individuals with autism and individuals with typical development (TD). Social cognition properties that are deeply associated with autism spectrum traits have been linked to functional connectivity between regions within the brain\u27s default mode network (DMN). Previous studies have shown that the resting-state functional connectivities (rs-FCs) of DMN are low and show negative correlation with the level of autism spectrum traits in individuals with autism spectrum disorder (ASD). However, it is unclear whether individual differences of autism spectrum traits are associated with the strength of rs-FCs of DMN in participants including the general population. Methods. Using the seed-based approach, we investigated the rs-FCs of DMN, particularly including the following two core regions of DMN: the anterior medial prefrontal cortex (aMPFC) and posterior cingulate cortex (PCC) in 19 young male adults with high-functioning ASD (mean age = 25.3 ± 6.9 years; autism-spectrum quotient (AQ) = 33.4 ± 4.2; full scale IQ (F-IQ) = 109.7 ± 12.4) compared with 21 age- and IQ-matched young male adults from the TD group (mean age = 24.8 ± 4.3 years; AQ = 18.6 ± 5.7; F-IQ = 109.5 ± 8.7). We also analyzed the correlation between the strength of rs-FCs and autism spectrum traits measured using AQ score. Results: The strengths of rs-FCs from core regions of DMN were significantly lower in ASD participants than TD participants. Under multiple regression analysis, the strengths of rs-FCs in brain areas from aMPFC seed showed negative correlation with AQ scores in ASD participants and TD participants. Conclusions: Our findings suggest that the strength of rs-FCs in DMN is associated with autism spectrum traits in the TD population as well as patients with ASD, supporting the continuum view. The rs-FCs of DMN may be useful biomarkers for the objective identification of autism spectrum traits, regardless of ASD diagnosis. © 2014 Jung et al.; licensee BioMed Central Ltd

昭和南海地震震源域-四国沖～紀伊半島沖-の構造変化

BE12-54講演要旨 / ブルーアース2012（2012年3月22日～23日, 東京海洋大学品川キャンパス

Structural variation from off Shikoku to the Kii Peninsula related to various earhthquake phenomena

南海トラフで繰り返し発生する巨大地震の中には、東海・東南海・南海地震が連動して発生する超巨大地震のケースがあることが指摘されている。このような超巨大地震について、どのような場合に連動し、あるいは非連動性巨大地震となるのかを明らかにすることが必要である。連動型地震の滑り域の範囲がどこまで広がるかを見積もることが重要な課題であり、そのためには南海トラフから沈み込むフィリピン海プレートの形状およびプレート境界周辺の構造、地震活動に関する詳細かつ高精度な情報が必要である。また、南海地震単独で発生した場合についても、深部および浅部低周波地震発生域まで含めた正確な破壊の広がりの把握、複雑な破壊分布の原因を明らかにするために南海地震破壊域とその縁辺での地殻構造や地震活動は重要な情報となる。平成20年度は日向灘、平成21年度は四国沖で調査を実施し、平成22年度は調査海域を東方の紀伊半島沖まで拡大し、沈み込み帯の地殻構造、巨大地震の発生、地震活動の相互関係の解明を目的として、南海・地震破壊域における沈み込みに関する詳細な構造のイメージングおよび地震のアスペリティに関する構造を明らかにするためのデータの取得、および西南日本の付加体先端部付近で発生している低周波地震や微動を含む自然地震観測を実施した。 　本講演では、四国沖?紀伊半島沖の平成21~22年度の調査結果について述べる。平成21年10月、および平成22年10~11月、（独）海洋研究開発機構の海洋調査船「かいれい」によって短周期海底地震計各々180台と大容量チューンドエアガン（7800cu. in.)を用いた屈折法・広角反射法探査を実施した（図１）。海底地震計設置期間中に自然地震観測も実施した。四国沖では21観測点、紀伊半島沖では20観測点による約9ヶ月間の長期地震観測も実施した（一部実施中）。なお、本調査は文部科学省からの受託研究「東海・東南海・南海地震の連動性評価のための 調査観測・研究」の個別研究テーマ「南海トラフ域海域地震探査・地震観測」（平成20年度から受託）の一環として実施した。 　一部の調査測線の解析の結果、足摺岬沖から日向灘に向かって約6km/sの古い付加体を示す岩体の分布が海側に張り出していること、また、SK05の構造モデルによると、SK03とSK02の中間付近からSK01付近までの付加堆積物が極端に薄いことなど、トラフ平行方向に構造変化があることがわかり、破壊様式の違いに関係する構造ではないかと考えられる。また、測線延長上のHi-net陸上観測点のデータを加えた海陸統合解析を実施しており、これにより深部低周波地震現象と構造との関連性が明らかになると期待されるC11-10発表要旨, 日本地震学会2011年度秋季大会（2011年10月12日～15日, 静岡県静岡市

Common Variants in MAGI2 Gene Are Associated with Increased Risk for Cognitive Impairment in Schizophrenic Patients

Schizophrenia is a complex psychiatric disorder characterized by positive symptoms, negative symptoms, and cognitive impairment. MAGI2, a relatively large gene (∼1.5 Mbps) that maps to chromosome 7q21, is involved in recruitment of neurotransmitter receptors such as AMPA- and NMDA-type glutamate receptors. A genetic association study designed to evaluate the association between MAGI2 and cognitive performance or schizophrenia has not been conducted. In this case-control study, we examined the relationship of single nucleotide polymorphism (SNP) variations in MAGI2 and risk for schizophrenia in a large Japanese sample and explored the potential relationships between variations in MAGI2 and aspects of human cognitive function related to glutamate activity. Based on the result of first schizophrenia genome-wide association study in a Japanese population (JGWAS), we selected four independent SNPs and performed an association study using a large independent Japanese sample set (cases 1624, controls 1621). Wisconsin Card Sorting Test (WCST) was used to evaluate executive function in 114 cases and 91 controls. We found suggestive evidence for genetic association of common SNPs within MAGI2 locus and schizophrenia in Japanese population. Furthermore in terms of association between MAGI2 and cognitive performance, we observed that genotype effect of rs2190665 on WCST score was significant (p = 0.034) and rs4729938 trended toward significance (p = 0.08). In conclusion, although we could not detect strong genetic evidence for association of common variants in MAGI2 and increased schizophrenia risk in a Japanese population, these SNPs may increase risk of cognitive impairment in schizophrenic patients

Prominent reflector beneath around the segmentation boundary between Tonankai-Nankai earthquake area

In the Nankai Trough subduction seismogenic zone, the Nankai and Tonankai earthquakes had often occurred simultaneously, and caused a great event. In most cases, first break of such large events of Nankai Trough usually begins from southwest off the Kii Peninsula so far. The idea of split Philippine Sea plate between the Kii Peninsula and the Shikoku Island, which explains seismicity, tectonic background, receiver function image and historical plate motion, was previously suggested. Moreover, between the Kii Peninsula and the Shikoku Island, there is a gap of deep low-frequency events observed in the belt-like zone along the strike of the subducting Philippine Sea plate. In 2010 and 2011, we conducted the large-scale high-resolution wide-angle and reflection (MCS) seismic study, and long-term observation from off Shikoku and Kii Peninsula. Marine active source seismic data have been acquired along grid two-dimensional profiles having the total length of ~800km/year. A three-dimensional seismic tomography using active and passive seismic data observed both land and ocean bottom stations have been also performed. From those data, we found a possible prominent reflector imaged in the offshore side in the Kii channel at the depth of ~18km. The velocity just beneath the reflector cannot be determined due to the lack of ray paths. Based of the amplitude information, we interpret the reflector as the forearc Moho based on the velocity gap (from ~6.4km/s to ~7.4km/s). However, the reflector is shallower than the forearc Moho of other area along the Nankai Trough. Similar reflectors are recognized along other seismic profiles around the Kii channel. In this presentation, we will show the result of structure analysis to understand the peculiar structure including the prominent reflector around the Kii channel. Relation between the structure and the existence of the segmentation of the Nankai megathrust earthquake or seismic gap of the deep low-frequency events will be also discussed. This study is part of 'Research concerning Interaction Between the Tokai, Tonankai and Nankai Earthquakes' funded by Ministry of Education, Culture, Sports, Science and Technology, Japan.Poster abstract T43C-2670 presented at 2013 Fall Meeting, AGU, San Francisco, Calif., 9-13 Dec