Shi D, Friedman H R, Bruce C J
Section of Neurobiology, Yale University School of Medicine, New Haven, Connecticut 06520-8001, USA.
J Neurophysiol. 1998 Jul;80(1):458-64. doi: 10.1152/jn.1998.80.1.458.
To evaluate smooth-pursuit (SP) function in the primate frontal eye field (FEF), microinjections of muscimol, a gamma-aminobutyric acid (GABA) agonist, were used to reversibly deactivate physiologically characterized sites in FEF. SP was severely impaired by deactivation at sites in the FEF's smooth eye movement region (FEFsem) located in the fundus and posterior bank of the macaque monkey's arcuate sulcus. These SP deficits were apparent immediately after the muscimol injection and persisted for several hours but recovered by the next day. SP was most drastically and consistently impaired for directions similar to the injected site's elicited smooth eye movement direction or to the optimal SP direction for its neuronal responses. Targets moving in these directions, usually ipsilateral to the injected hemisphere, were tracked primarily with saccades after the muscimol injection, the peak SP velocity being only 10-30% of preinjection velocity. SP in other directions, including contralateral, was less strongly affected. Initial SP acceleration in response to target motion onset was also significantly diminished, generally by approximately the same proportion as peak SP velocity. In contrast, saccades were largely unaffected by muscimol injections in FEFsem; nor was there an immediate effect on SP when control sites in the saccadic region of FEF (FEFsac) were deactivated, although a SP deficit often appeared 30-60 min after FEFsac injections, possibly reflecting diffusion of muscimol into neighboring FEFsem. These reversible SP deficits produced by muscimol inactivation within FEFsem are similar to permanent deficits caused by large aspiration lesions of FEF and indicate that inclusion of FEFsem is the critical factor determining whether FEF lesions impair SP. The severity of the reversible deficits found here indicates how extremely critical FEFsem is for normal highgain SP.
为了评估灵长类动物额叶眼区(FEF)的平稳跟踪(SP)功能,使用γ-氨基丁酸(GABA)激动剂蝇蕈醇进行微量注射,以可逆性地失活FEF中已进行生理学特征描述的位点。在位于猕猴弓形沟底部和后壁的FEF平稳眼动区域(FEFsem)中的位点失活后,SP功能严重受损。这些SP缺陷在蝇蕈醇注射后立即明显出现,并持续数小时,但第二天恢复。对于与注射位点诱发的平稳眼动方向相似或与其神经元反应的最佳SP方向相似的方向,SP受损最为严重且持续存在。在蝇蕈醇注射后,向这些方向移动的目标(通常与注射半球同侧)主要通过扫视进行跟踪,SP峰值速度仅为注射前速度的10%-30%。其他方向(包括对侧)的SP受影响较小。对目标运动开始的初始SP加速度也显著降低,通常降低的比例与SP峰值速度大致相同。相比之下,扫视在很大程度上不受FEFsem中蝇蕈醇注射的影响;当FEF扫视区域(FEFsac)中的对照位点失活时,对SP也没有立即影响,尽管在FEFsac注射后30-60分钟经常出现SP缺陷,这可能反映了蝇蕈醇扩散到相邻的FEFsem中。FEFsem内蝇蕈醇失活产生的这些可逆性SP缺陷与FEF大量抽吸损伤导致的永久性缺陷相似,表明FEFsem的包含是决定FEF损伤是否损害SP的关键因素。此处发现的可逆性缺陷的严重程度表明FEFsem对于正常的高增益SP是多么至关重要。
