Deficits in cerebellum-dependent learning and cerebellar morphology in male and female BTBR autism model mice [0.03%]
公鼠和母鼠BTBR自闭症模型小鼠在基于小脑的学习以及小脑形态学方面的缺陷
Elizabeth A Kiffmeyer,Jameson A Cosgrove,Jenna K Siganos et al.
Elizabeth A Kiffmeyer et al.
Recently, there has been increased interest in the role of the cerebellum in autism spectrum disorders (ASD). To better understand the pathophysiological role of the cerebellum in ASD, it is necessary to have a variety of mouse models that ...
A National Survey Evaluating the Impact of the COVID-19 Pandemic on Students Pursuing Careers in Neurosurgery [0.03%]
全国调查评估COVID-19大流行对神经外科职业学生的影响
Roxanna M Garcia,Rebecca A Reynolds,Hannah K Weiss et al.
Roxanna M Garcia et al.
Background: The COVID-19 pandemic has profoundly disrupted medical education and the residency application process. Methods: We conduct...
Blockade of Catecholamine Reuptake in the Prelimbic Cortex Decreases Top-down Attentional Control in Response to Novel, but Not Familiar Appetitive Distracters, within a Timing Paradigm [0.03%]
前岛状皮层肾上腺素能再摄取受阻减少了顶下注意力控制,以应对定时范式中的新颖而非熟悉的寻求奖赏的分心事件
Alexander R Matthews,Mona Buhusi,Catalin V Buhusi
Alexander R Matthews
Emotionally charged distracters delay timing behavior. Increasing catecholamine levels within the prelimbic cortex has beneficial effects on timing by decreasing the delay after aversive distracters. We examined whether increasing catechola...
Subjective Socioeconomic Status and Children's Amygdala Volume: Minorities' Diminish Returns [0.03%]
主观社会经济地位与儿童杏仁核体积的关系:少数族裔的效应递减现象
Shervin Assari,Shanika Boyce,Mohsen Bazargan
Shervin Assari
Considerable research has suggested that low socioeconomic status (SES) negatively influences brain structure, including but not limited to decreased amygdala volume. Considering race and ethnicity as sociological rather than biological con...
Evaluation of Outgrowth Potential of Rat Pheochromocytoma Cells Supplied with Highly Purified Rapidly Expanding Clones and Potential Application to Trigeminal Nerve Regeneration [0.03%]
大鼠嗜铬细胞瘤高纯度快速扩增克隆出芽潜能评定及三叉神经再生的潜在应用
Background: Mesenchymal stem/stromal cells (MSCs) are non-hematopoietic, plastic-adherent, and self-renewing cells capable of in vitro trilineage differentiation into fat, bone, and cartilage tissue. Suggestively, MSCs ha...