Visual Computing Models in Cancer: PET/CT, CAD, CNN, and ST-Net

Authors

  • Simay Yüksel TED Ankara College Foundation High School
  • Ceren Anatürk Tombak High School Biology Teacher

DOI:

https://doi.org/10.47611/jsrhs.v12i2.4305

Keywords:

visual computing, cancer, PET/CT, CAD, CNN, ST-Net

Abstract

Visual computing is a discipline in computer science that allows computers to acquisite, process, and analyze visual data. In the application field of medicine, it enables to development of new methods for the visualization, detection, and analysis of diseases. Therefore, it plays a significant role in developing the understanding of diseases. Taking the fact that cancer is currently one of the deadliest and most frequent diseases around the world into consideration, it is crucial to generate effective methods for the study of cancer in order to provide appropriate management strategies for the disease and treatment methods. Research has shown that methods based on visual computing can detect, classify, and analyze the cancerous tissues in a patient successfully with high accuracy. This paper focuses on the PET/CT, CAD, CNN, and ST-Net visual computing models by evaluating their working mechanisms, their efficacy in the use of cancer with the help of previous research made in the literature, and their limitations in a medical approach.

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References or Bibliography

Alakwaa, W., Nassef, M., & Badr, A. (2017). Lung cancer detection and classification with 3D convolutional neural network (3D-CNN). International Journal of Advanced Computer Science and Applications, 8(8).

Castellino RA. Computer aided detection (CAD): an overview. Cancer Imaging. 2005 Aug 23;5(1):17-9. doi: 10.1102/1470-7330.2005.0018. PMID: 16154813; PMCID: PMC1665219.

Dabeer, S., Khan, M., & Islam, S. (2019). Cancer diagnosis in histopathological image: CNN based approach. Informatics in Medicine Unlocked, 16, 100231. https://doi.org/10.1016/j.imu.2019.100231

Dean, Judy C., and Christina C. Ilvento. "Improved cancer detection using computer-aided detection with diagnostic and screening mammography: prospective study of 104 cancers." American Journal of Roentgenology 187.1 (2006): 20-28.

Desai, M., & Shah, M. (2021). An anatomization on breast cancer detection and diagnosis employing multi-layer perceptron neural network (MLP) and Convolutional neural network (CNN). Clinical eHealth, 4, 1-11.

Dromain, C., et al. "Computed-aided diagnosis (CAD) in the detection of breast cancer." European journal of radiology 82.3 (2013): 417-423.

Gour, M., Jain, S., & Kumar, T. S. (2020). Residual learning based CNN for breast cancer histopathological image classification. International Journal of Imaging Systems and Technology, 30(3), 621–635. https://doi.org/10.1002/ima.22403

Griffeth L. K. (2005). Use of PET/CT scanning in cancer patients: technical and practical considerations. Proceedings (Baylor University. Medical Center), 18(4), 321–330. https://doi.org/10.1080/08998280.2005.11928089

Hadjiiski, L., Sahiner, B., & Chan, H. P. (2006). Advances in CAD for diagnosis of breast cancer. Current opinion in obstetrics & gynecology, 18(1), 64.

Hassan, N.M., Hamad, S. & Mahar, K. Mammogram breast cancer CAD systems for mass detection and classification: a review. Multimed Tools Appl 81, 20043–20075 (2022). https://doi.org/10.1007/s11042-022-12332-1

He, Bryan, et al. "Integrating spatial gene expression and breast tumour morphology via deep learning." Nature biomedical engineering 4.8 (2020): 827-834.

Jiang, Yun, et al. "Breast cancer histopathological image classification using convolutional neural networks with small SE-ResNet module." PloS one 14.3 (2019): e0214587.

Kayalibay, B., Jensen, G., & van der Smagt, P. (2017). CNN-based segmentation of medical imaging data. arXiv preprint arXiv:1701.03056

Kratochwil, C., Flechsig, P., Lindner, T., Abderrahim, L., Altmann, A., Mier, W., ... & Giesel, F. L. (2019). 68Ga-FAPI PET/CT: tracer uptake in 28 different kinds of cancer. Journal of Nuclear Medicine, 60(6), 801-805

Lin, Eugene C., and Abass Alavi. "PET and PET/CT." A clinical guide 3 rd Ed (2009).

Majib, M. S., Rahman, M. M., Sazzad, T. S., Khan, N. I., & Dey, S. K. (2021). Vgg-scnet: A vgg net-based deep learning framework for brain tumor detection on mri images. IEEE Access, 9, 116942-116952.

Monjo, Taku, et al. "Efficient prediction of a spatial transcriptomics profile better characterizes breast cancer tissue sections without costly experimentation." Scientific Reports 12.1 (2022): 4133.

Nawaz, Wajahat, et al. "Classification of breast cancer histology images using alexnet." Image Analysis and Recognition: 15th International Conference, ICIAR 2018, Póvoa de Varzim, Portugal, June 27–29, 2018, Proceedings 15. Springer International Publishing, 2018.

Pang, M., Su, K., & Li, M. (2021). Leveraging information in spatial transcriptomics to predict super-resolution gene expression from histology images in tumors. bioRxiv, 2021-11.

Patkulkar, P. A., Subbalakshmi, A. R., Jolly, M. K., & Sinharay, S. (2023). Mapping Spatiotemporal Heterogeneity in Tumor Profiles by Integrating High-Throughput Imaging and Omics Analysis. ACS Omega. https://doi.org/10.1021/acsomega.2c06659

Saif MW, Tzannou I, Makrilia N, Syrigos K. Role and cost effectiveness of PET/CT in management of patients with cancer. Yale J Biol Med. 2010 Jun;83(2):53-65. PMID: 20589185; PMCID: PMC2892773.

Sebastian, Sunit, et al. "PET–CT vs. CT alone in ovarian cancer recurrence." Abdominal imaging 33 (2008): 112-118.

Zangheri, B., Messa, C., Picchio, M. et al. PET/CT and breast cancer. Eur J Nucl Med Mol Imaging 31 (Suppl 1), S135–S142 (2004). https://doi.org/10.1007/s00259-004-1536-7

Zheng, B., & Fang, L. (2022). Spatially resolved transcriptomics provide a new method for cancer research. Journal of Experimental & Clinical Cancer Research, 41(1). https://doi.org/10.1186/s13046-022-02385-3

Zhu, Chao-Zhe, et al. "A review on the accuracy of bladder cancer detection methods." Journal of cancer 10.17 (2019): 4038.

Published

05-31-2023

How to Cite

Yüksel, S., & Anatürk Tombak, C. (2023). Visual Computing Models in Cancer: PET/CT, CAD, CNN, and ST-Net. Journal of Student Research, 12(2). https://doi.org/10.47611/jsrhs.v12i2.4305

Issue

Section

HS Review Articles