Alfredo Lucas, Marc Jaskir, Nishant Sinha, Akash Ranjan Pattnaik, Sofia Mouchtaris, Mariam Josyula, Nina Petillo, Rebecca Roth, Gulce N. Dikecligil, Leonardo Bonilha, Jay Gottfried, Ezequiel Gleichgerrcht, Sandhitsu Das, Joel M. Stein, James J. Gugger, Kathryn A. Davis
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To answer these questions, we investigated the functional and structural connectivity of the piriform cortex in both healthy controls and temporal lobe epilepsy (TLE) patients. <strong>Methods:</strong> We studied a retrospective cohort of 55 drug-resistant unilateral TLE patients and 26 healthy controls who received structural and functional neuroimaging. Using seed-to-voxel connectivity we compared the normative whole-brain connectivity of the piriform to that of the hippocampus, a region commonly involved in epilepsy, to understand the differential contribution of the piriform to the epileptogenic network. We subsequently measured the inter-piriform coupling (IPC) to quantify similarities in the inter-hemispheric cortical functional connectivity profile between the two piriform cortices. We related differences in IPC in TLE back to aberrations in normative piriform connectivity, whole brain functional properties, and structural connectivity. <strong>Results:</strong> We find that relative to the hippocampus, the piriform is functionally connected to the anterior insula and the rest of the salience ventral attention network (SAN). We also find that low IPC is a sensitive metric of poor surgical outcome (sensitivity: 85.71%, 95% CI: [19.12%, 99.64%]); and differences in IPC within TLE were related to disconnectivity and hyperconnectivity to the anterior insula and the SAN. More globally, we find that low IPC is associated with whole-brain functional and structural segregation, marked by decreased functional small-worldness and fractional anisotropy. <strong>Conclusions:</strong> Our study presents novel insights into the functional and structural neural network alterations associated with this structure, laying the foundation for future work to carefully consider its connectivity during the presurgical management of epilepsy.","PeriodicalId":501358,"journal":{"name":"medRxiv - Radiology and Imaging","volume":"46 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Connectivity of the Piriform Cortex and its Implications in Temporal Lobe Epilepsy\",\"authors\":\"Alfredo Lucas, Marc Jaskir, Nishant Sinha, Akash Ranjan Pattnaik, Sofia Mouchtaris, Mariam Josyula, Nina Petillo, Rebecca Roth, Gulce N. 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Using seed-to-voxel connectivity we compared the normative whole-brain connectivity of the piriform to that of the hippocampus, a region commonly involved in epilepsy, to understand the differential contribution of the piriform to the epileptogenic network. We subsequently measured the inter-piriform coupling (IPC) to quantify similarities in the inter-hemispheric cortical functional connectivity profile between the two piriform cortices. We related differences in IPC in TLE back to aberrations in normative piriform connectivity, whole brain functional properties, and structural connectivity. <strong>Results:</strong> We find that relative to the hippocampus, the piriform is functionally connected to the anterior insula and the rest of the salience ventral attention network (SAN). 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引用次数: 0
摘要
背景:梨状皮质与癫痫发作的诱发、扩散和终止有关。这种认识已延伸到癫痫的外科治疗中,有研究表明,切除或消融梨状皮层可获得更好的疗效。人们对梨状皮层如何以及为何在癫痫发作网络中发挥如此关键的作用还不甚了解。为了回答这些问题,我们研究了健康对照组和颞叶癫痫(TLE)患者梨状皮层的功能和结构连接性。研究方法我们对 55 名单侧耐药性 TLE 患者和 26 名健康对照者进行了回顾性队列研究,他们都接受了结构和功能神经影像学检查。通过种子到象素的连接性,我们比较了梨状体与海马(癫痫常见区域)的正常全脑连接性,以了解梨状体对致痫网络的不同贡献。我们随后测量了梨状皮层间的耦合(IPC),以量化两个梨状皮层之间大脑半球间皮层功能连接的相似性。我们将 TLE 中 IPC 的差异与正常梨状连接、全脑功能特性和结构连接的异常联系起来。结果:我们发现,相对于海马,梨状皮层与前脑岛和突出腹侧注意网络(SAN)的其他部分有功能连接。我们还发现,低 IPC 是手术效果不佳的敏感指标(敏感度:85.71%,95% CI:[19.12%, 99.64%]);TLE 中 IPC 的差异与与前脑岛和 SAN 的断开连接和超连接有关。更全面地说,我们发现低 IPC 与全脑功能和结构分隔有关,其特征是功能小世界性和分数各向异性降低。结论:我们的研究对与该结构相关的功能和结构神经网络改变提出了新的见解,为今后在癫痫手术前管理中仔细考虑其连接性奠定了基础。
Connectivity of the Piriform Cortex and its Implications in Temporal Lobe Epilepsy
Background: The piriform cortex has been implicated in the initiation, spread and termination of epileptic seizures. This understanding has extended to surgical management of epilepsy, where it has been shown that resection or ablation of the piriform cortex can result in better outcomes. How and why the piriform cortex may play such a crucial role in seizure networks is not well understood. To answer these questions, we investigated the functional and structural connectivity of the piriform cortex in both healthy controls and temporal lobe epilepsy (TLE) patients. Methods: We studied a retrospective cohort of 55 drug-resistant unilateral TLE patients and 26 healthy controls who received structural and functional neuroimaging. Using seed-to-voxel connectivity we compared the normative whole-brain connectivity of the piriform to that of the hippocampus, a region commonly involved in epilepsy, to understand the differential contribution of the piriform to the epileptogenic network. We subsequently measured the inter-piriform coupling (IPC) to quantify similarities in the inter-hemispheric cortical functional connectivity profile between the two piriform cortices. We related differences in IPC in TLE back to aberrations in normative piriform connectivity, whole brain functional properties, and structural connectivity. Results: We find that relative to the hippocampus, the piriform is functionally connected to the anterior insula and the rest of the salience ventral attention network (SAN). We also find that low IPC is a sensitive metric of poor surgical outcome (sensitivity: 85.71%, 95% CI: [19.12%, 99.64%]); and differences in IPC within TLE were related to disconnectivity and hyperconnectivity to the anterior insula and the SAN. More globally, we find that low IPC is associated with whole-brain functional and structural segregation, marked by decreased functional small-worldness and fractional anisotropy. Conclusions: Our study presents novel insights into the functional and structural neural network alterations associated with this structure, laying the foundation for future work to carefully consider its connectivity during the presurgical management of epilepsy.