Development and prospective clinical validation of a convolutional neural network for automated detection and segmentation of focal cortical dysplasias

IF 2 4区 医学 Q3 CLINICAL NEUROLOGY
Vicky Chanra , Agata Chudzinska , Natalia Braniewska , Bartosz Silski , Brigitte Holst , Thomas Sauvigny , Stefan Stodieck , Sirko Pelzl , Patrick M. House
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引用次数: 0

Abstract

Purpose

Focal cortical dysplasias (FCDs) are a leading cause of drug-resistant epilepsy. Early detection and resection of FCDs have favorable prognostic implications for postoperative seizure freedom. Despite advancements in imaging methods, FCD detection remains challenging. House et al. (2021) introduced a convolutional neural network (CNN) for automated FCD detection and segmentation, achieving a sensitivity of 77.8%. However, its clinical applicability was limited due to a low specificity of 5.5%. The objective of this study was to improve the CNN’s performance through data-driven training and algorithm optimization, followed by a prospective validation on daily-routine MRIs.

Material and methods

A dataset of 300 3 T MRIs from daily clinical practice, including 3D T1 and FLAIR sequences, was prospectively compiled. The MRIs were visually evaluated by two neuroradiologists and underwent morphometric assessment by two epileptologists. The dataset included 30 FCD cases (11 female, mean age: 28.1 ± 10.1 years) and a control group of 150 normal cases (97 female, mean age: 32.8 ± 14.9 years), along with 120 non-FCD pathological cases (64 female, mean age: 38.4 ± 18.4 years). The dataset was divided into three subsets, each analyzed by the CNN. Subsequently, the CNN underwent a two-phase-training process, incorporating subset MRIs and expert-labeled FCD maps. This training employed both classical and continual learning techniques. The CNN’s performance was validated by comparing the baseline model with the trained models at two training levels.

Results

In prospective validation, the best model trained using continual learning achieved a sensitivity of 90.0%, specificity of 70.0%, and accuracy of 72.0%, with an average of 0.41 false positive clusters detected per MRI. For FCD segmentation, an average Dice coefficient of 0.56 was attained. The model’s performance improved in each training phase while maintaining a high level of sensitivity. Continual learning outperformed classical learning in this regard.

Conclusions

Our study presents a promising CNN for FCD detection and segmentation, exhibiting both high sensitivity and specificity. Furthermore, the model demonstrates continuous improvement with the inclusion of more clinical MRI data. We consider our CNN a valuable tool for automated, examiner-independent FCD detection in daily clinical practice, potentially addressing the underutilization of epilepsy surgery in drug-resistant focal epilepsy and thereby improving patient outcomes.

用于自动检测和分割局灶性皮质发育不良的卷积神经网络的开发和前瞻性临床验证
目的局灶性皮质发育不良(FCD)是导致耐药性癫痫的一个主要原因。早期发现并切除 FCDs 对术后癫痫发作自由度的预后具有有利影响。尽管成像方法不断进步,但 FCD 的检测仍具有挑战性。House 等人(2021 年)采用卷积神经网络 (CNN) 自动检测和分割 FCD,灵敏度达到 77.8%。然而,由于其特异性较低,仅为 5.5%,其临床适用性受到了限制。本研究的目的是通过数据驱动的训练和算法优化来提高 CNN 的性能,然后在日常常规 MRI 上进行前瞻性验证。核磁共振成像由两名神经放射学专家进行视觉评估,并由两名癫痫专家进行形态计量学评估。数据集包括 30 例 FCD 病例(女性 11 例,平均年龄:28.1 ± 10.1 岁)和由 150 例正常病例(女性 97 例,平均年龄:32.8 ± 14.9 岁)组成的对照组,以及 120 例非 FCD 病理病例(女性 64 例,平均年龄:38.4 ± 18.4 岁)。数据集被分为三个子集,每个子集都由 CNN 进行分析。随后,CNN 结合子集 MRI 和专家标注的 FCD 地图进行了两阶段训练。这种训练采用了经典和持续学习技术。结果在前瞻性验证中,使用持续学习技术训练的最佳模型灵敏度为 90.0%,特异度为 70.0%,准确度为 72.0%,平均每个 MRI 检测到 0.41 个假阳性簇。在 FCD 分割方面,平均 Dice 系数为 0.56。该模型的性能在每个训练阶段都有所提高,同时保持了较高的灵敏度。结论我们的研究提出了一种用于 FCD 检测和分割的有前途的 CNN,它表现出很高的灵敏度和特异性。此外,随着更多临床磁共振成像数据的加入,该模型也在不断改进。我们认为我们的 CNN 是在日常临床实践中自动、独立于检查者的 FCD 检测的重要工具,有可能解决耐药局灶性癫痫中癫痫手术利用率不足的问题,从而改善患者的预后。
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来源期刊
Epilepsy Research
Epilepsy Research 医学-临床神经学
CiteScore
0.10
自引率
4.50%
发文量
143
审稿时长
62 days
期刊介绍: Epilepsy Research provides for publication of high quality articles in both basic and clinical epilepsy research, with a special emphasis on translational research that ultimately relates to epilepsy as a human condition. The journal is intended to provide a forum for reporting the best and most rigorous epilepsy research from all disciplines ranging from biophysics and molecular biology to epidemiological and psychosocial research. As such the journal will publish original papers relevant to epilepsy from any scientific discipline and also studies of a multidisciplinary nature. Clinical and experimental research papers adopting fresh conceptual approaches to the study of epilepsy and its treatment are encouraged. The overriding criteria for publication are novelty, significant clinical or experimental relevance, and interest to a multidisciplinary audience in the broad arena of epilepsy. Review articles focused on any topic of epilepsy research will also be considered, but only if they present an exceptionally clear synthesis of current knowledge and future directions of a research area, based on a critical assessment of the available data or on hypotheses that are likely to stimulate more critical thinking and further advances in an area of epilepsy research.
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