Breshears Jonathan D, Molinaro Annette M, Chang Edward F
Departments of 1 Neurological Surgery.
Epidemiology and Biostatistics, and.
J Neurosurg. 2015 Aug;123(2):340-9. doi: 10.3171/2014.11.JNS14889. Epub 2015 May 15.
The human ventral sensorimotor cortex (vSMC) is involved in facial expression, mastication, and swallowing, as well as the dynamic and highly coordinated movements of human speech production. However, vSMC organization remains poorly understood, and previously published population-driven maps of its somatotopy do not accurately reflect the variability across individuals in a quantitative, probabilistic fashion. The goal of this study was to describe the responses to electrical stimulation of the vSMC, generate probabilistic maps of function in the vSMC, and quantify the variability across individuals.
Photographic, video, and stereotactic MRI data of intraoperative electrical stimulation of the vSMC were collected for 33 patients undergoing awake craniotomy. Stimulation sites were converted to a 2D coordinate system based on anatomical landmarks. Motor, sensory, and speech stimulation responses were reviewed and classified. Probabilistic maps of stimulation responses were generated, and spatial variance was quantified.
In 33 patients, the authors identified 194 motor, 212 sensory, 61 speech-arrest, and 27 mixed responses. Responses were complex, stereotyped, and mostly nonphysiological movements, involving hand, orofacial, and laryngeal musculature. Within individuals, the presence of oral movement representations varied; however, the dorsal-ventral order was always preserved. The most robust motor responses were jaw (probability 0.85), tongue (0.64), lips (0.58), and throat (0.52). Vocalizations were seen in 6 patients (0.18), more dorsally near lip and dorsal throat areas. Sensory responses were spatially dispersed; however, patients' subjective reports were highly precise in localization within the mouth. The most robust responses included tongue (0.82) and lips (0.42). The probability of speech arrest was 0.85, highest 15-20 mm anterior to the central sulcus and just dorsal to the sylvian fissure, in the anterior precentral gyrus or pars opercularis.
The authors report probabilistic maps of function in the human vSMC based on intraoperative cortical electrical stimulation. These results define the expected range of mapping outcomes in the vSMC of a single individual and shed light on the functional organization of the vSMC supporting speech motor control and nonspeech functions.
人类腹侧感觉运动皮层(vSMC)参与面部表情、咀嚼和吞咽,以及人类言语产生的动态且高度协调的运动。然而,vSMC的组织情况仍了解甚少,先前发表的基于群体的其躯体定位图谱并不能以定量、概率的方式准确反映个体间的变异性。本研究的目的是描述对vSMC进行电刺激的反应,生成vSMC功能的概率图谱,并量化个体间的变异性。
收集了33例接受清醒开颅手术患者术中对vSMC进行电刺激的照片、视频和立体定向MRI数据。根据解剖标志将刺激部位转换为二维坐标系。对运动、感觉和言语刺激反应进行回顾和分类。生成刺激反应的概率图谱,并对空间变异性进行量化。
在33例患者中,作者识别出194个运动反应、212个感觉反应、61个言语停止反应和27个混合反应。反应复杂、刻板,且大多是非生理性运动,涉及手部、口面部和喉部肌肉组织。在个体内部,口部运动表征的存在情况各不相同;然而,背腹顺序始终保持。最强烈的运动反应是下颌(概率0.85)、舌头(0.64)、嘴唇(0.58)和喉部(0.52)。6例患者(0.18)出现发声,更多见于唇部和背侧喉部区域附近更靠背侧的位置。感觉反应在空间上分散;然而,患者的主观报告在口腔内的定位非常精确。最强烈的反应包括舌头(0.82)和嘴唇(0.42)。言语停止的概率为0.85,在中央沟前方15 - 20毫米且恰好在外侧裂上方,即中央前回或岛盖部最高。
作者报告了基于术中皮层电刺激的人类vSMC功能概率图谱。这些结果定义了单个个体vSMC映射结果的预期范围,并揭示了支持言语运动控制和非言语功能的vSMC的功能组织。
