一項(xiàng)研究說(shuō),，科學(xué)家發(fā)現(xiàn)了大腦活動(dòng)的一種模式可能是發(fā)展出自閉癥譜系障礙（ASD）的遺傳脆弱性的特征。這種神經(jīng)發(fā)育障礙削弱了社會(huì)互動(dòng)與交流,，而且已經(jīng)被證明會(huì)破壞大腦解釋其他人的運(yùn)動(dòng)（稱(chēng)為“生物運(yùn)動(dòng)”）的能力,。

Kevin A. Pelphrey及其同事使用功能磁共振成像（fMRI）掃描了自閉癥兒童及其沒(méi)有自閉癥的兄弟姐妹在觀(guān)看生物運(yùn)動(dòng)的動(dòng)畫(huà)的時(shí)候的大腦。這組作者把他們與對(duì)照組進(jìn)行了比較,，結(jié)果觀(guān)察到了3個(gè)獨(dú)特的“神經(jīng)特征”：自閉癥譜系障礙（ASD）兒童與未患此病的兄弟姐妹共有的大腦活動(dòng)減少區(qū)域,；自閉癥譜系障礙（ASD）兒童特有的活動(dòng)減少區(qū)域；以及未患此病的兄弟姐妹特有的活動(dòng)增加區(qū)域,。

這組作者說(shuō),，第一個(gè)特征與可能發(fā)展出此病的遺傳脆弱性有關(guān)，而第二個(gè)特征意味著活躍的自閉癥譜系障礙（ASD）。這組作者提出,，未患此病的兄弟姐妹大腦區(qū)域活動(dòng)增加的第三個(gè)特征可能補(bǔ)償了這些兒童繼承到的缺陷,。這組作者說(shuō)，該研究可能對(duì)更好地理解自閉癥譜系障礙（ASD）破壞的神經(jīng)系統(tǒng)網(wǎng)絡(luò)以及這種疾病的遺傳和分子病因?qū)W做出貢獻(xiàn),。（生物谷Bioon.com）

生物谷推薦英文摘要：

PNAS doi: 10.1073/pnas.1010412107

Neural signatures of autism
Martha D. Kaisera, Caitlin M. Hudaca, Sarah Shultza,b, Su Mei Leea,b, Celeste Cheunga, Allison M. Berkena, Ben Deena, Naomi B. Pitskela, Daniel R. Sugruea, Avery C. Voosa, Celine A. Saulniera, Pamela Ventolaa, Julie M. Wolfa, Ami Klina, Brent C. Vander Wyka, and Kevin A. Pelphreya,b,1

aYale Child Study Center, Yale School of Medicine, New Haven, CT 06520, and bDepartment of Psychology, Yale University, New Haven, CT 06520

Functional magnetic resonance imaging of brain responses to biological motion in children with autism spectrum disorder (ASD), unaffected siblings (US) of children with ASD, and typically developing (TD) children has revealed three types of neural signatures: (i) state activity, related to the state of having ASD that characterizes the nature of disruption in brain circuitry; (ii) trait activity, reflecting shared areas of dysfunction in US and children with ASD, thereby providing a promising neuroendophenotype to facilitate efforts to bridge genomic complexity and disorder heterogeneity; and (iii) compensatory activity, unique to US, suggesting a neural system–level mechanism by which US might compensate for an increased genetic risk for developing ASD. The distinct brain responses to biological motion exhibited by TD children and US are striking given the identical behavioral profile of these two groups. These findings offer far-reaching implications for our understanding of the neural systems underlying autism.

 推薦會(huì)議：

第一屆國(guó)際醫(yī)學(xué)影像和放射學(xué)新進(jìn)展暨學(xué)術(shù)論著發(fā)表策略研討會(huì)
2011 Medical Imaging and Radiological Innovations Conference

會(huì)議時(shí)間：2011年3月25日--3月27日

會(huì)議地點(diǎn)：上海醫(yī)學(xué)院路復(fù)旦醫(yī)學(xué)院明道樓