Article: Computer-Aided Diagnosis System for Detection of Stomach Cancer with Image Processing Techniques

Stomach cancer is a type of cancer that is hard to detect at an early stage because it gives almost no symptoms at the beginning. Stomach cancer is an increasing incidence of cancer both in the World as well as in Turkey. The most common method used worldwide for gastric cancer diagnosis is endoscopy. However, definitive diagnosis is made with endoscopic biopsy results. Diagnosis with endoscopy is a very specific and sensitive method. With high-resolution endoscopy it is possible to detect mild discolorations, bulges and structural changes of the surface of the mucosa. However, because the procedures are performed with the eye of a doctor, it is possible that the cancerous areas may be missed and / or incompletely detected. Because of the fact that the cancerous area cannot be completely detected may cause the problem of cancer recurrence after a certain period of surgical intervention. In order to overcome this problem, a computerized decision support system (CDS) has been implemented with the help of specialist physicians and image processing techniques. The performed CDS system works as an assistant to doctors of gastroenterology, helping to identify the cancerous area in the endoscopic images of the scaffold, to take biopsies from these areas and to make a better diagnosis. We believe that gastric cancer will be helpful in determining the area and biopsy samples taken from the patient will be useful in determining the area. It is therefore considered a useful model.

Citing Articles

Computer vision applications for the detection or analysis of tuberculosis using digitised human lung tissue images - a systematic review.

Lumamba K, Wells G, Naicker D, Naidoo T, Steyn A, Gwetu M BMC Med Imaging. 2024; 24(1):298.

PMID: 39497049 PMC: 11536899. DOI: 10.1186/s12880-024-01443-w.

Modeling Epidemiology Data with Machine Learning Technique to Detect Risk Factors for Gastric Cancer.

Mohammadnezhad K, Sahebi M, Alatab S, Sadjadi A J Gastrointest Cancer. 2023; 55(1):287-296.

PMID: 37428282 DOI: 10.1007/s12029-023-00952-1.

Establishing machine learning models to predict the early risk of gastric cancer based on lifestyle factors.

Afrash M, Shafiee M, Kazemi-Arpanahi H BMC Gastroenterol. 2023; 23(1):6.

PMID: 36627564 PMC: 9832798. DOI: 10.1186/s12876-022-02626-x.

Hybrid Deep Learning Model for Endoscopic Lesion Detection and Classification Using Endoscopy Videos.

Ayyaz M, Lali M, Hussain M, Rauf H, Alouffi B, Alyami H Diagnostics (Basel). 2022; 12(1).

PMID: 35054210 PMC: 8775223. DOI: 10.3390/diagnostics12010043.

Application of machine learning in the diagnosis of gastric cancer based on noninvasive characteristics.

Zhu S, Dong J, Zhang C, Huang Y, Pan W PLoS One. 2020; 15(12):e0244869.

PMID: 33382829 PMC: 7775073. DOI: 10.1371/journal.pone.0244869.

References

1.

Moran J, Mitchell A, Goodmanson G, Stockburger K . Differentiation among effects of nitrogen fertilization treatments on conifer seedlings by foliar reflectance: a comparison of methods. Tree Physiol. 2001; 20(16):1113-20. DOI: 10.1093/treephys/20.16.1113. View

2.

Brenner H, Rothenbacher D, Arndt V . Epidemiology of stomach cancer. Methods Mol Biol. 2008; 472:467-77. DOI: 10.1007/978-1-60327-492-0_23. View

3.

Ural B, Hardalac F, Serhatlioglu S, Ilhan M . Gastric Cancer Regional Detection System. J Med Syst. 2015; 40(1):31. DOI: 10.1007/s10916-015-0399-8. View

4.

Subudhi B, Thangaraj V, Sankaralingam E, Ghosh A . Tumor or abnormality identification from magnetic resonance images using statistical region fusion based segmentation. Magn Reson Imaging. 2016; 34(9):1292-1304. DOI: 10.1016/j.mri.2016.07.002. View

5.

White F, Gohari K, Smith C . Histological and ultrastructural morphology of 7,12 dimethylbenz(alpha)-anthracene carcinogenesis in hamster cheek pouch epithelium. Diagn Histopathol. 1981; 4(4):307-33. View