Literature DB >> 33747681

Automatic Deep Learning Semantic Segmentation of Ultrasound Thyroid Cineclips Using Recurrent Fully Convolutional Networks.

Jeremy M Webb1, Duane D Meixner1, Shaheeda A Adusei2, Eric C Polley3, Mostafa Fatemi1, Azra Alizad1,2.   

Abstract

Medical segmentation is an important but challenging task with applications in standardized report generation, remote medicine and reducing medical exam costs by assisting experts. In this paper, we exploit time sequence information using a novel spatio-temporal recurrent deep learning network to automatically segment the thyroid gland in ultrasound cineclips. We train a DeepLabv3+ based convolutional LSTM model in four stages to perform semantic segmentation by exploiting spatial context from ultrasound cineclips. The backbone DeepLabv3+ model is replicated six times and the output layers are replaced with convolutional LSTM layers in an atrous spatial pyramid pooling configuration. Our proposed model achieves mean intersection over union scores of 0.427 for cysts, 0.533 for nodules and 0.739 for thyroid. We demonstrate the potential application of convolutional LSTM models for thyroid ultrasound segmentation.

Entities:  

Keywords:  Deep learning; recurrent neural networks; semantic segmentation; thyroid nodule; thyroid volume; ultrasound

Year:  2020        PMID: 33747681      PMCID: PMC7978237          DOI: 10.1109/access.2020.3045906

Source DB:  PubMed          Journal:  IEEE Access        ISSN: 2169-3536            Impact factor:   3.367


  12 in total

1.  Distance regularized level set evolution and its application to image segmentation.

Authors:  Chunming Li; Chenyang Xu; Changfeng Gui; Martin D Fox
Journal:  IEEE Trans Image Process       Date:  2010-08-26       Impact factor: 10.856

2.  Reducing the Hausdorff Distance in Medical Image Segmentation With Convolutional Neural Networks.

Authors:  Davood Karimi; Septimiu E Salcudean
Journal:  IEEE Trans Med Imaging       Date:  2019-07-19       Impact factor: 10.048

3.  Combo loss: Handling input and output imbalance in multi-organ segmentation.

Authors:  Saeid Asgari Taghanaki; Yefeng Zheng; S Kevin Zhou; Bogdan Georgescu; Puneet Sharma; Daguang Xu; Dorin Comaniciu; Ghassan Hamarneh
Journal:  Comput Med Imaging Graph       Date:  2019-05-09       Impact factor: 4.790

4.  Thyroid cancer: ESMO Clinical Practice Guidelines for diagnosis, treatment and follow-up†.

Authors:  S Filetti; C Durante; D Hartl; S Leboulleux; L D Locati; K Newbold; M G Papotti; A Berruti
Journal:  Ann Oncol       Date:  2019-12-01       Impact factor: 32.976

5.  Completion thyroidectomy: A risky undertaking?

Authors:  Kristina J Nicholson; Cindy Y Teng; Kelly L McCoy; Sally E Carty; Linwah Yip
Journal:  Am J Surg       Date:  2019-07-18       Impact factor: 2.565

6.  A large multicenter correlation study of thyroid nodule cytopathology and histopathology.

Authors:  Chung-Che Charles Wang; Lyssa Friedman; Giulia C Kennedy; Hui Wang; Electron Kebebew; David L Steward; Martha A Zeiger; William H Westra; Yongchun Wang; Elham Khanafshar; Giovanni Fellegara; Juan Rosai; Virginia Livolsi; Richard B Lanman
Journal:  Thyroid       Date:  2010-12-29       Impact factor: 6.568

7.  Thyroid cancer in the thyroid nodules evaluated by ultrasonography and fine-needle aspiration cytology.

Authors:  Jen-Der Lin; Tzu-Chieh Chao; Bie-Yu Huang; Szu-Tah Chen; Hung-Yu Chang; Chuen Hsueh
Journal:  Thyroid       Date:  2005-07       Impact factor: 6.568

8.  Brain tumor segmentation with Deep Neural Networks.

Authors:  Mohammad Havaei; Axel Davy; David Warde-Farley; Antoine Biard; Aaron Courville; Yoshua Bengio; Chris Pal; Pierre-Marc Jodoin; Hugo Larochelle
Journal:  Med Image Anal       Date:  2016-05-19       Impact factor: 8.545

9.  Screening for Thyroid Cancer: US Preventive Services Task Force Recommendation Statement.

Authors:  Kirsten Bibbins-Domingo; David C Grossman; Susan J Curry; Michael J Barry; Karina W Davidson; Chyke A Doubeni; John W Epling; Alex R Kemper; Alex H Krist; Ann E Kurth; C Seth Landefeld; Carol M Mangione; Maureen G Phipps; Michael Silverstein; Melissa A Simon; Albert L Siu; Chien-Wen Tseng
Journal:  JAMA       Date:  2017-05-09       Impact factor: 56.272
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  3 in total

1.  Comparing deep learning-based automatic segmentation of breast masses to expert interobserver variability in ultrasound imaging.

Authors:  Jeremy M Webb; Shaheeda A Adusei; Yinong Wang; Naziya Samreen; Kalie Adler; Duane D Meixner; Robert T Fazzio; Mostafa Fatemi; Azra Alizad
Journal:  Comput Biol Med       Date:  2021-10-21       Impact factor: 4.589

2.  Objective assessment of segmentation models for thyroid ultrasound images.

Authors:  Niranjan Yadav; Rajeshwar Dass; Jitendra Virmani
Journal:  J Ultrasound       Date:  2022-10-04

3.  Tracked 3D ultrasound and deep neural network-based thyroid segmentation reduce interobserver variability in thyroid volumetry.

Authors:  Markus Krönke; Christine Eilers; Desislava Dimova; Melanie Köhler; Gabriel Buschner; Lilit Schweiger; Lemonia Konstantinidou; Marcus Makowski; James Nagarajah; Nassir Navab; Wolfgang Weber; Thomas Wendler
Journal:  PLoS One       Date:  2022-07-29       Impact factor: 3.752
  3 in total

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