Deep learning differentiates between healthy and diabetic mouse ears from optical coherence tomography angiography images

Pfister Martin; Stegmann Hannes; Schuetzenberger Kornelia; Schaefer Bhavapriya Jasmin; Hohenadl Christine; Schmetterer Leopold; Groeschl Martin; Werkmeister Rene M.

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Deep learning differentiates between healthy and diabetic mouse ears from optical coherence tomography angiography images

机译：深度学习与光学相干断层造影血管造影图像的健康和糖尿病小鼠耳之间的区别

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We trained a deep learning algorithm to use skin optical coherence tomography (OCT) angiograms to differentiate between healthy and type 2 diabetic mice. OCT angiograms were acquired with a custom-built OCT system based on an akinetic swept laser at 1322 nm with a lateral resolution of similar to 13 mu m and using split-spectrum amplitude decorrelation. Our data set consisted of 24 stitched angiograms of the full ear, with a size of approximately 8.2 x 8.2 mm, evenly distributed between healthy and diabetic mice. The deep learning classification algorithm uses the ResNet v2 convolutional neural network architecture and was trained on small patches extracted from the full ear angiograms. For individual patches, we obtained a cross-validated accuracy of 0.925 and an area under the receiver operating characteristic curve (ROC AUC) of 0.974. Averaging over multiple patches extracted from each ear resulted in the correct classification of all 24 ears.

机译：我们训练了一种深入学习算法来使用皮肤光学相干性断层扫描（OCT）血管造影来区分健康和2型糖尿病小鼠。通过基于1322nm的动态扫描激光器的定制OCT系统获得了OCT血管仪，其横向分辨率类似于13μm，并使用分流频谱幅度去相关性。我们的数据集由24个全耳的缝合血管仪组成，尺寸约为8.2×8.2mm，均匀分布在健康和糖尿病小鼠之间。深度学习分类算法使用Reset V2卷积神经网络架构，并在从全耳血管造影中提取的小斑块上培训。对于个体贴片，我们获得了0.925的交叉验证精度和在接收器操作特性曲线（ROC AUC）的区域为0.974。在每个耳朵中提取的多个贴片上的平均导致所有24个耳朵的正确分类。

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来源
《Annals of the New York Academy of Sciences》 |2021年第8期|15-26|共12页
作者
Pfister Martin; Stegmann Hannes; Schuetzenberger Kornelia; Schaefer Bhavapriya Jasmin; Hohenadl Christine; Schmetterer Leopold; Groeschl Martin; Werkmeister Rene M.;
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作者单位

Med Univ Vienna Ctr Med Phys & Biomed Engn Wahringer Gurtel 18-20-4L A-1090 Vienna Austria|Med Univ Vienna Christian Doppler Lab Ocular & Dermal Effects Thi Vienna Austria|Vienna Univ Technol Inst Appl Phys Vienna Austria;

Med Univ Vienna Ctr Med Phys & Biomed Engn Wahringer Gurtel 18-20-4L A-1090 Vienna Austria|Med Univ Vienna Christian Doppler Lab Ocular & Dermal Effects Thi Vienna Austria;

Med Univ Vienna Ctr Med Phys & Biomed Engn Wahringer Gurtel 18-20-4L A-1090 Vienna Austria|Med Univ Vienna Christian Doppler Lab Ocular & Dermal Effects Thi Vienna Austria;

Med Univ Vienna Ctr Med Phys & Biomed Engn Wahringer Gurtel 18-20-4L A-1090 Vienna Austria|Med Univ Vienna Christian Doppler Lab Ocular & Dermal Effects Thi Vienna Austria;

Med Univ Vienna Christian Doppler Lab Ocular & Dermal Effects Thi Vienna Austria|Croma Pharma GmbH Leobendorf Austria;

Med Univ Vienna Ctr Med Phys & Biomed Engn Wahringer Gurtel 18-20-4L A-1090 Vienna Austria|Med Univ Vienna Christian Doppler Lab Ocular & Dermal Effects Thi Vienna Austria|Med Univ Vienna Dept Clin Pharmacol Vienna Austria|Singapore Eye Res Inst Singapore Singapore|Nanyang Technol Univ Sch Chem & Biomed Engn Singapore Singapore|Duke NUS Med Sch Ophthalmol & Visual Sci Acad Clin Program Singapore Singapore|Inst Mol & Clin Ophthalmol Basel Switzerland;

Vienna Univ Technol Inst Appl Phys Vienna Austria;

Med Univ Vienna Ctr Med Phys & Biomed Engn Wahringer Gurtel 18-20-4L A-1090 Vienna Austria|Med Univ Vienna Christian Doppler Lab Ocular & Dermal Effects Thi Vienna Austria;

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正文语种 eng
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关键词
angiographic imaging; diabetes; machine learning; optical coherence tomography;

机译：血管造影成像;糖尿病;机器学习;光学相干断层扫描;

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1. Machine Learning-assisted Automated Quantification of Foveal Avascular Zone Parameters and Perifoveal Capillary Density of Prototype and Commercial Optical Coherence Tomography Angiography (OCT-A) Platforms in Healthy and Diabetic Eyes [J] . Chan Forson, Mammo Zaid, Heisler Morgan L., Investigative ophthalmology & visual science . 2017,第8期

机译：机器学习辅助自动定量心脏缺血区参数和薄膜毛细管密度的原型和商业光学相干断层造影血管造影（OCT-A）平台在健康和糖尿病眼中
2. Machine Learning-assisted Automated Quantification of Foveal Avascular Zone Parameters and Perifoveal Capillary Density of Prototype and Commercial Optical Coherence Tomography Angiography (OCT-A) Platforms in Healthy and Diabetic Eyes [J] . Chan Forson, Mammo Zaid, Heisler Morgan L., Investigative ophthalmology & visual science . 2017,第8期

机译：机器学习辅助自动定量心脏缺血区参数和薄膜毛细管密度的原型和商业光学相干断层造影血管造影（OCT-A）平台在健康和糖尿病眼中
3. Comparison of Retinal Vascular Imaging between Optical Coherence Tomography Angiography and En-Face Optical Coherence Tomography in Diabetic Retinopathy [J] . Miwa Yuko, Murakami Tomoaki, Suzuma Kiyoshi, Investigative ophthalmology & visual science . 2016,第12期

机译：糖尿病视网膜病变中光学相干断层造影血管造影与抗面光学相干断层扫描的视网膜血管成像的比较
4. Textural Analysis of Optical Coherence Tomography Skin Images: quantitative differentiation between healthy and cancerous tissues [C] . Saba Adabi, Silvia Conforto, Matin Hosseinzadeh, Optical Coherence tomography and coherence domain optical methods in biomedicine XXI . 2017

机译：光学相干断层扫描皮肤图像的纹理分析：健康组织和癌组织之间的定量区分
5. Deep Learning Optimization for Optical Coherence Tomography Medical Image Analysis [D] . Wang, Haifeng. 2019

机译：光学相干断层扫描医学图像分析的深度学习优化
6. Differentiation of Diabetic Status Using Statistical and Machine Learning Techniques on Optical Coherence Tomography Angiography Images [O] . Tariq Mehmood Aslam, David Charles Hoyle, Vikram Puri, -1

机译：使用统计和机器学习技术对光学相干断层造影血管造影图像的差异化糖尿病状态
7. Deep learning differentiates between healthy and diabetic mouse ears from optical coherence tomography angiography images [O] . Martin Pfister, Hannes Stegmann, Kornelia Schützenberger, 2021

机译：深度学习区分光学相干断层造影血管造影图像的健康和糖尿病小鼠耳之间

Deep learning differentiates between healthy and diabetic mouse ears from optical coherence tomography angiography images

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