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A Comparative Analysis of Data Augmentation Approaches for Magnetic Resonance Imaging (MRI) Scan Images of Brain Tumor.脑肿瘤磁共振成像(MRI)扫描图像数据增强方法的比较分析
Acta Inform Med. 2020 Mar;28(1):29-36. doi: 10.5455/aim.2020.28.29-36.
2
Indication and Contraindication of Endoscopic Transforaminal Lumbar Decompression.内镜下经椎间孔腰椎减压术的适应证和禁忌证。
World Neurosurg. 2021 Jan;145:631-642. doi: 10.1016/j.wneu.2020.03.076. Epub 2020 Mar 19.
3
Five-year clinical outcomes with endoscopic transforaminal foraminoplasty for symptomatic degenerative conditions of the lumbar spine: a comparative study of versus techniques.经椎间孔内镜下腰椎管扩大成形术治疗腰椎症状性退变疾病的五年临床疗效:两种技术的对比研究
J Spine Surg. 2020 Jan;6(Suppl 1):S66-S83. doi: 10.21037/jss.2019.06.08.
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Five-year clinical outcomes with endoscopic transforaminal outside-in foraminoplasty techniques for symptomatic degenerative conditions of the lumbar spine.采用内镜经椎间孔由外向内椎间孔成形术治疗腰椎症状性退变疾病的五年临床疗效
J Spine Surg. 2020 Jan;6(Suppl 1):S54-S65. doi: 10.21037/jss.2019.07.03.
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Early and staged endoscopic management of common pain generators in the spine.脊柱常见疼痛源的早期及分期内镜治疗
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[LUMBAR DISC HERNIATION: PROTRUSION, EXTRUSION OR BULGE? THE PROPER USE OF THE TERMS - HOW AND WHEN WILL IT BE DEFINED AS A DISEASE?].[腰椎间盘突出症:突出、脱出还是膨出?术语的正确使用——如何以及何时将其定义为一种疾病?]
Harefuah. 2019 Dec;158(12):807-811.
7
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Int J Spine Surg. 2019 Oct 31;13(5):399-414. doi: 10.14444/6055. eCollection 2019 Oct.
8
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Clin Neurol Neurosurg. 2019 Jun;181:52. doi: 10.1016/j.clineuro.2019.03.011. Epub 2019 Apr 5.
9
Retrospective analysis of accuracy and positive predictive value of preoperative lumbar MRI grading after successful outcome following outpatient endoscopic decompression for lumbar foraminal and lateral recess stenosis.门诊内镜减压治疗腰椎椎间孔和侧隐窝狭窄成功后,对术前腰椎MRI分级的准确性和阳性预测值进行回顾性分析。
Clin Neurol Neurosurg. 2019 Apr;179:74-80. doi: 10.1016/j.clineuro.2019.02.019. Epub 2019 Feb 25.
10
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Medicine (Baltimore). 2018 Nov;97(48):e13456. doi: 10.1097/MD.0000000000013456.

人工智能将放射科医生报告与腰椎疼痛性疾病经椎间孔减压成功的内镜预测指标进行比较:深度学习算法在常规腰椎磁共振成像扫描解读中的应用

Artificial Intelligence Comparison of the Radiologist Report With Endoscopic Predictors of Successful Transforaminal Decompression for Painful Conditions of the Lumber Spine: Application of Deep Learning Algorithm Interpretation of Routine Lumbar Magnetic Resonance Imaging Scan.

作者信息

Lewandrowski Kai-Uwe, Muraleedharan Narendran, Eddy Steven Allen, Sobti Vikram, Reece Brian D, Ramírez León Jorge Felipe, Shah Sandeep

机构信息

Staff Orthopaedic Spine Surgeon Center for Advanced Spine Care of Southern Arizona and Surgical Institute of Tucson, Tucson, Arizona.

Aptus Engineering, Inc, Scottsdale, Arizona, and Multus Medical, LLC, Phoenix, Arizona.

出版信息

Int J Spine Surg. 2020 Dec;14(s3):S75-S85. doi: 10.14444/7130. Epub 2020 Nov 18.

DOI:10.14444/7130
PMID:33208388
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7735439/
Abstract

BACKGROUND

Identifying pain generators in multilevel lumbar degenerative disc disease is not trivial but is crucial for lasting symptom relief with the targeted endoscopic spinal decompression surgery. Artificial intelligence (AI) applications of deep learning neural networks to the analysis of routine lumbar MRI scans could help the primary care and endoscopic specialist physician to compare the radiologist's report with a review of endoscopic clinical outcomes.

OBJECTIVE

To analyze and compare the probability of predicting successful outcome with lumbar spinal endoscopy by using the radiologist's MRI grading and interpretation of the radiologic image with a novel AI deep learning neural network (Multus Radbot™) as independent prognosticators.

METHODS

The location and severity of foraminal stenosis were analyzed using comparative ordinal grading by the radiologist, and a contiguous grading by the AI network in patients suffering from lateral recess and foraminal stenosis due to lumbar herniated disc. The compressive pathology definitions were extracted from the radiologist lumbar MRI reports from 65 patients with a total of 383 levels for the central canal - (0) no disc bulge/protrusion/canal stenosis, (1) disc bulge without canal stenosis, (2) disc bulge resulting in canal stenosis, and (3) disc herniation/protrusion/extrusion resulting in canal stenosis. Both neural foramina were assessed with either - (0) neural foraminal stenosis absent, or (1) neural foramina are stenosis present. Reporting criteria for the pathologies at each disc level and, when available, the grading of severity were extracted and assigned into two categories: "Normal," and "Stenosis." Clinical outcomes were graded using dichotomized modified Macnab criteria considering and results as "Improved," and and outcomes as "Not Improved." Binary logistic regression analysis was used to predict the probability of the AI- and radiologist grading of stenosis at the 88 foraminal decompression sites to result in "Improved" outcomes.

RESULTS

The average age of the 65 patients was 62.7 +/- 12.7 years. They consisted of 51 (54.3%) males and 43 (45.7%) females. At an average final follow-up of 57.4 +/- 12.57, Macnab outcome analysis showed that 86.4% of the 88 foraminal decompressions resulted in and (Improved) clinical outcomes. The stenosis grading by the radiologist showed an average severity score of 4.71 +/- 2.626, and the average AI severity grading was 5.65 +/- 3.73. Logit regression probability analysis of the two independent prognosticators showed that both the grading by the radiologist (86.2%; odds ratio 1.264) and the AI grading (86.4%; odds ratio 1.267) were nearly equally predictive of a successful outcome with the endoscopic decompression.

CONCLUSIONS

Deep learning algorithms are capable of identifying lumbar foraminal compression due to herniated disc. The treatment outcome was correlated to the decompression of the directly visualized corresponding pathology during the lumbar endoscopy. This research should be extended to other validated pain generators in the lumbar spine.

LEVEL OF EVIDENCE

CLINICAL RELEVANCE

Validity, clinical teaching, evaluation study.

摘要

背景

在多节段腰椎间盘退变疾病中识别疼痛根源并非易事,但对于通过靶向性脊柱内镜减压手术实现持久的症状缓解至关重要。将深度学习神经网络的人工智能(AI)应用于常规腰椎MRI扫描分析,有助于初级保健医生和内镜专科医生将放射科医生的报告与内镜临床结果回顾进行比较。

目的

通过使用放射科医生的MRI分级和放射影像解读,以及一种新型AI深度学习神经网络(Multus Radbot™)作为独立预测指标,分析并比较预测腰椎脊柱内镜手术成功结果的概率。

方法

对于因腰椎间盘突出导致侧隐窝和椎间孔狭窄的患者,放射科医生采用比较性序贯分级法,AI网络采用连续分级法分析椎间孔狭窄的位置和严重程度。从65例患者的放射科医生腰椎MRI报告中提取中央管的压迫性病变定义,共383个节段,分级如下:(0)无椎间盘膨出/突出/椎管狭窄;(1)椎间盘膨出但无椎管狭窄;(2)椎间盘膨出导致椎管狭窄;(3)椎间盘突出/脱出/游离导致椎管狭窄。评估两个椎间孔时,分级如下:(0)无椎间孔狭窄;(1)存在椎间孔狭窄。提取每个椎间盘节段病变的报告标准以及(如可用)严重程度分级,并分为两类:“正常”和“狭窄”。使用二分法改良Macnab标准对临床结果进行分级,将优和良的结果视为“改善”,可和差的结果视为“未改善”。采用二元逻辑回归分析预测AI和放射科医生对88个椎间孔减压部位狭窄分级导致“改善”结果的概率。

结果

65例患者的平均年龄为62.7±12.7岁。其中男性51例(54.3%),女性43例(45.7%)。平均末次随访时间为57.4±12.57个月,Macnab结果分析显示,88个椎间孔减压中有86.4%获得了优和良(改善)的临床结果。放射科医生的狭窄分级显示平均严重程度评分为4.71±2.626,AI平均严重程度分级为5.65±3.73。对两个独立预测指标的逻辑回归概率分析显示,放射科医生的分级(86.2%;优势比1.264)和AI分级(86.4%;优势比1.267)对内镜减压成功结果的预测能力几乎相同。

结论

深度学习算法能够识别因椎间盘突出导致的腰椎椎间孔压迫。治疗结果与腰椎内镜检查期间直接可视化相应病变的减压相关。本研究应扩展至腰椎其他经证实的疼痛根源。

证据水平

3级。

临床相关性

有效性、临床教学、评估研究。