顶叶伸展区失活导致视动性眼震不能,影响伸手但不影响扫视。
Inactivation of the parietal reach region causes optic ataxia, impairing reaches but not saccades.
机构信息
Division of Biology, California Institute of Technology, Pasadena, CA 91125, USA.
出版信息
Neuron. 2012 Dec 6;76(5):1021-9. doi: 10.1016/j.neuron.2012.10.030.
Abstract
Lesions in human posterior parietal cortex can cause optic ataxia (OA), in which reaches but not saccades to visual objects are impaired, suggesting separate visuomotor pathways for the two effectors. In monkeys, one potentially crucial area for reach control is the parietal reach region (PRR), in which neurons respond preferentially during reach planning as compared to saccade planning. However, direct causal evidence linking the monkey PRR to the deficits observed in OA is missing. We thus inactivated part of the macaque PRR, in the medial wall of the intraparietal sulcus, and produced the hallmarks of OA, misreaching for peripheral targets but unimpaired saccades. Furthermore, reach errors were larger for the targets preferred by the neural population local to the injection site. These results demonstrate that PRR is causally involved in reach-specific visuomotor pathways, and reach goal disruption in PRR can be a neural basis of OA.
摘要
人类顶后皮质损伤可导致视动失调(OA),其表现为视觉目标的伸手运动受损而眼跳运动正常,提示存在两个用于不同效应器的分离视动通路。在猴子中,一个对伸手控制至关重要的潜在区域是顶区伸臂区(PRR),其中神经元在伸手运动计划中比在眼跳运动计划中更优先地做出反应。然而,直接的因果证据将猴子的 PRR 与 OA 中观察到的缺陷联系起来是缺失的。因此,我们在猕猴顶内沟的内侧壁部分抑制了 PRR,并产生了 OA 的典型特征,即对周围目标的伸手运动失误,但眼跳运动正常。此外,对于注射部位附近神经群体所偏好的目标,伸手运动的错误更大。这些结果表明,PRR 是特定于伸手的视动通路的一个因果因素,PRR 中的伸手目标破坏可能是 OA 的一个神经基础。
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1
SPATIO-MOTOR REPRESENTATIONS IN REACHING: EVIDENCE FOR SUBTYPES OF OPTIC ATAXIA.伸手动作中的空间运动表征:视觉性共济失调亚型的证据。
Cogn Neuropsychol. 1998 May 1;15(3):279-312. doi: 10.1080/026432998381186.
2
Interspecies activity correlations reveal functional correspondence between monkey and human brain areas.种间活动相关性揭示了猴子和人类大脑区域之间的功能对应关系。
Nat Methods. 2012 Feb 5;9(3):277-82. doi: 10.1038/nmeth.1868.
3
Spiking and LFP activity in PRR during symbolically instructed reaches.在符号指导的伸展过程中,PRR 中的尖峰和 LFP 活动。
J Neurophysiol. 2012 Feb;107(3):836-49. doi: 10.1152/jn.00063.2011. Epub 2011 Nov 9.
4
Specificity of human parietal saccade and reach regions during transcranial magnetic stimulation.经颅磁刺激下人类顶叶眼球扫视和伸手区域的特异性。
J Neurosci. 2010 Sep 29;30(39):13053-65. doi: 10.1523/JNEUROSCI.1644-10.2010.
5
Functional magnetic resonance imaging reveals the neural substrates of arm transport and grip formation in reach-to-grasp actions in humans.功能磁共振成像揭示了人类伸手抓握动作中手臂运动和抓握形成的神经基础。
J Neurosci. 2010 Aug 4;30(31):10306-23. doi: 10.1523/JNEUROSCI.2023-10.2010.
6
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7
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8
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10
Intention and attention: different functional roles for LIPd and LIPv.意图和注意力:LIPd 和 LIPv 的不同功能作用。
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