Tariciotti Leonardo, Mattioli Luca, Viganò Luca, Gallo Matteo, Gambaretti Matteo, Sciortino Tommaso, Gay Lorenzo, Conti Nibali Marco, Gallotti Alberto, Cerri Gabriella, Bello Lorenzo, Rossi Marco
Neurosurgical Oncology Unit, Department of Oncology and Hemato-Oncology, Università degli Studi di Milano, Milan, Italy.
MoCA Laboratory, Department of Medical Biotechnology and Translational Medicine, Università degli Studi di Milano, Milan, Italy.
Front Integr Neurosci. 2024 Feb 15;18:1324581. doi: 10.3389/fnint.2024.1324581. eCollection 2024.
The sensorimotor integrations subserving object-oriented manipulative actions have been extensively investigated in non-human primates via direct approaches, as intracortical micro-stimulation (ICMS), cytoarchitectonic analysis and anatomical tracers. However, the understanding of the mechanisms underlying complex motor behaviors is yet to be fully integrated in brain mapping paradigms and the consistency of these findings with intraoperative data obtained during awake neurosurgical procedures for brain tumor removal is still largely unexplored. Accordingly, there is a paucity of systematic studies reviewing the cross-species analogies in neural activities during object-oriented hand motor tasks in primates and investigating the concordance with intraoperative findings during brain mapping. The current systematic review was designed to summarize the cortical and subcortical neural correlates of object-oriented fine hand actions, as revealed by fMRI and PET studies, in non-human and human primates and how those were translated into neurosurgical studies testing dexterous hand-movements during intraoperative brain mapping.
A systematic literature review was conducted following the PRISMA guidelines. PubMed, EMBASE and Web of Science databases were searched. Original articles were included if they: (1) investigated cortical activation sites on fMRI and/or PET during grasping task; (2) included humans or non-human primates. A second query was designed on the databases above to collect studies reporting motor, hand manipulation and dexterity tasks for intraoperative brain mapping in patients undergoing awake brain surgery for any condition. Due to the heterogeneity in neurosurgical applications, a qualitative synthesis was deemed more appropriate.
We provided an updated overview of the current state of the art in translational neuroscience about the extended frontoparietal grasping-praxis network with a specific focus on the comparative functioning in non-human primates, healthy humans and how the latter knowledge has been implemented in the neurosurgical operating room during brain tumor resection.
The anatomical and functional correlates we reviewed confirmed the evolutionary continuum from monkeys to humans, allowing a cautious but practical adoption of such evidence in intraoperative brain mapping protocols. Integrating the previous results in the surgical practice helps preserve complex motor abilities, prevent long-term disability and poor quality of life and allow the maximal safe resection of intrinsic brain tumors.
通过诸如皮层内微刺激(ICMS)、细胞构筑分析和解剖示踪剂等直接方法,在非人类灵长类动物中对服务于面向对象的操纵动作的感觉运动整合进行了广泛研究。然而,对复杂运动行为背后机制的理解尚未完全整合到脑图谱范式中,并且这些发现与在清醒神经外科手术切除脑肿瘤过程中获得的术中数据的一致性仍在很大程度上未被探索。因此,缺乏系统的研究来回顾灵长类动物在面向对象的手部运动任务期间神经活动的跨物种类比,并研究与脑图谱术中发现的一致性。当前的系统综述旨在总结功能磁共振成像(fMRI)和正电子发射断层扫描(PET)研究揭示的非人类和人类灵长类动物中面向对象的精细手部动作的皮层和皮层下神经关联,以及这些关联如何转化为在术中脑图谱期间测试灵巧手部运动的神经外科研究。
按照系统评价和Meta分析的首选报告项目(PRISMA)指南进行系统的文献综述。检索了PubMed、EMBASE和科学网数据库。如果原始文章满足以下条件则纳入:(1)在抓握任务期间研究fMRI和/或PET上激活的皮层位点;(2)纳入人类或非人类灵长类动物。在上述数据库上设计了第二个查询,以收集报告在因任何情况接受清醒脑手术的患者中进行术中脑图谱的运动、手部操作和灵巧性任务的研究。由于神经外科应用的异质性,定性综合被认为更合适。
我们提供了关于扩展的额顶叶抓握 - 动作网络的转化神经科学当前技术水平的最新概述,特别关注非人类灵长类动物、健康人类的比较功能,以及后者的知识在脑肿瘤切除术中如何在神经外科手术室中得到应用。
我们综述的解剖学和功能关联证实了从猴子到人类的进化连续性,从而允许在术中脑图谱方案中谨慎但实际地采用这些证据。将先前的结果整合到手术实践中有助于保留复杂的运动能力,预防长期残疾和生活质量低下,并允许最大程度地安全切除脑内肿瘤。
