An Improvised Deep-Learning-Based Mask R-CNN Model for Laryngeal Cancer Detection Using CT Images

Recently, laryngeal cancer cases have increased drastically across the globe. Accurate treatment for laryngeal cancer is intricate, especially in the later stages. This type of cancer is an intricate malignancy inside the head and neck area of patients. In recent years, diverse diagnosis approaches and tools have been developed by researchers for helping clinical experts to identify laryngeal cancer effectively. However, these existing tools and approaches have diverse issues related to performance constraints such as lower accuracy in the identification of laryngeal cancer in the initial stage, more computational complexity, and large time consumption in patient screening. In this paper, the authors present a novel and enhanced deep-learning-based Mask R-CNN model for the identification of laryngeal cancer and its related symptoms by utilizing diverse image datasets and CT images in real time. Furthermore, our suggested model is capable of capturing and detecting minor malignancies of the larynx portion in a significant and faster manner in the real-time screening of patients, and it saves time for the clinicians, allowing for more patient screening every day. The outcome of the suggested model is enhanced and pragmatic and obtained an accuracy of 98.99%, precision of 98.99%, F1 score of 97.99%, and recall of 96.79% on the ImageNet dataset. Several studies have been performed in recent years on laryngeal cancer detection by using diverse approaches from researchers. For the future, there are vigorous opportunities for further research to investigate new approaches for laryngeal cancer detection by utilizing diverse and large dataset images.

[1]  Divya Rao,et al.  Automated segmentation of the larynx on computed tomography images: a review , 2022, Biomedical Engineering Letters.

[2]  K. Niemczyk,et al.  Artificial Intelligence in Laryngeal Endoscopy: Systematic Review and Meta-Analysis , 2022, medRxiv.

[3]  A. Santone,et al.  FABNet: Fusion Attention Block and Transfer Learning for Laryngeal Cancer Tumor Grading in P63 IHC Histopathology Images , 2021, IEEE Journal of Biomedical and Health Informatics.

[4]  A. Schlaefer,et al.  In vivo detection of head and neck tumors by hyperspectral imaging combined with deep learning methods , 2021, Journal of biophotonics.

[5]  Nassir Navab,et al.  Deep Convolution Neural Network for Laryngeal Cancer Classification on Contact Endoscopy-Narrow Band Imaging , 2021, Sensors.

[6]  S. Moccia,et al.  Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection , 2021, The Laryngoscope.

[7]  Huiliang Shang,et al.  Neural Network for Image Classification of Laryngeal Cancer , 2021, 2021 International Conference on Networking Systems of AI (INSAI).

[8]  Wenyao Xu,et al.  VoiceLens: A multi-view multi-class disease classification model through daily-life speech data , 2021, Smart Health.

[9]  M. C. A. Korba,et al.  Detection of precancerous laryngeal leukoplakia using sub-band based cepstral , 2021, 2021 International Conference on Networking and Advanced Systems (ICNAS).

[10]  Sherin M. Youssef,et al.  Extraction of Laryngeal Cancer Informative Frames from Narrow Band Endoscopic Videos , 2021, 2021 IEEE International Conference on Imaging Systems and Techniques (IST).

[11]  A. Santone,et al.  LPCANet: Classification of Laryngeal Cancer Histopathological Images Using a CNN with Position Attention and Channel Attention Mechanisms , 2021, Interdisciplinary Sciences: Computational Life Sciences.

[12]  K. W. Nam,et al.  Automated laryngeal mass detection algorithm for home-based self-screening test based on convolutional neural network , 2021, Biomedical engineering online.

[13]  Rasheed Omobolaji Alabi,et al.  Clinical significance of tumor-stroma ratio in head and neck cancer: a systematic review and meta-analysis , 2021, BMC cancer.

[14]  Sushruta Mishra,et al.  Emergence of Drug Discovery in Machine Learning , 2021 .

[15]  Sushruta Mishra,et al.  Variable Optimization in Cervical Cancer Data Using Particle Swarm Optimization , 2021 .

[16]  P. Mallick,et al.  Application and evaluation of classification model to detect autistic spectrum disorders in children , 2021, Int. J. Comput. Appl. Technol..

[17]  Sushruta Mishra,et al.  A Hybrid DTNB Model for Heart Disorders Prediction , 2021 .

[18]  S. Hakim,et al.  Evaluation of the Potential Prognostic Value of Tumor Budding in Laryngeal Carcinoma by Conventional and Immunohistochemical Staining , 2020, Analytical cellular pathology.

[19]  Qisheng Su,et al.  Identification of prognostic immune genes in laryngeal cancer , 2020, The Journal of international medical research.

[20]  Y. Han,et al.  Convolutional Neural Network Classifies Pathological Voice Change in Laryngeal Cancer with High Accuracy , 2020, Journal of clinical medicine.

[21]  Marcel Bengs,et al.  Spatio-spectral deep learning methods for in-vivo hyperspectral laryngeal cancer detection , 2020, Medical Imaging.

[22]  K. Piersiala,et al.  CT Lung Screening in Patients with Laryngeal Cancer , 2020, Scientific Reports.

[23]  V. .,et al.  Voice-Disorder Identification of Laryngeal Cancer Patients , 2020 .

[24]  T. M. Inbamalar,et al.  An Improved Method for Detection of Laryngeal Cancer and Its Stages , 2020 .

[25]  Haidi Yang,et al.  Computer-aided diagnosis of laryngeal cancer via deep learning based on laryngoscopic images , 2019, EBioMedicine.

[26]  Yang Li,et al.  Laryngeal Tumor Detection in Endoscopic Images Based on Convolutional Neural Network , 2019, 2019 IEEE 2nd International Conference on Electronic Information and Communication Technology (ICEICT).

[27]  Tobias Ortmaier,et al.  A dataset of laryngeal endoscopic images with comparative study on convolution neural network-based semantic segmentation , 2018, International Journal of Computer Assisted Radiology and Surgery.

[28]  Suresh C. Sharma,et al.  Role of narrow band imaging in the diagnosis of laryngeal lesions: Pilot study from India. , 2018, Indian journal of cancer.

[29]  Raghuram Shivram,et al.  Detection of possibility of Laryngeal Cancer through Mel Frequency Cepstrum Coefficient Analysis , 2018, 2018 3rd IEEE International Conference on Recent Trends in Electronics, Information & Communication Technology (RTEICT).

[30]  Anis Ben Aicha,et al.  Noninvasive Detection of Potentially Precancerous Lesions of Vocal Fold Based on Glottal Wave Signal and SVM Approaches , 2018, KES.

[31]  H. Yamazaki,et al.  Radiotherapy for laryngeal cancer—technical aspects and alternate fractionation , 2017, Journal of radiation research.

[32]  Jörg Bendix,et al.  Development of an image pre‐processor for operational hyperspectral laryngeal cancer detection , 2016, Journal of biophotonics.

[33]  M. Kraft,et al.  Value of narrow band imaging in the early diagnosis of laryngeal cancer , 2016, Head & neck.

[34]  M. Schuster,et al.  A noninvasive procedure for early-stage discrimination of malignant and precancerous vocal fold lesions based on laryngeal dynamics analysis. , 2015, Cancer research.

[35]  Fei-Fei Li,et al.  ImageNet: A large-scale hierarchical image database , 2009, 2009 IEEE Conference on Computer Vision and Pattern Recognition.