Deanship of Graduate Studies | Researches | AUTOMATED SYSTEM FOR CHROMOSOME KARYOTYPING TO RECOGNIZE THE MOST COMMON NUMERICAL ABNORMALITIES USING DEEP LEARNING

Main Page
Deanship
- The Dean
  - Dean's Word
  - Curriculum Vitae
  - Contact the Dean
- Vision and Mission
- Organizational Structure
- Vice- Deanship
- Vice- Dean
- KAU Graduate Studies
Research Services & Courses
- Research Services Unit
- Important Research for Society
- Deanship's Services
  - FAQs
  - Research
  - Staff Directory
  - Files
  - Favorite Websites
  - Deanship Access Map
Graduate Studies Awards
Deanship's Staff
- Staff Directory
Files
Researches
Contact us

- عربي
- English

Deanship of Graduate Studies

Document Details

Document Type	:	Thesis
Document Title	:	AUTOMATED SYSTEM FOR CHROMOSOME KARYOTYPING TO RECOGNIZE THE MOST COMMON NUMERICAL ABNORMALITIES USING DEEP LEARNING نظام آلي للتنميط النووي للكروموسومات للتعرف على حالات التشوهات الخلقية الأكثر انتشاراً باستخدام التعلم العميق
Subject	:	Faculty of Computing and Information Technology
Document Language	:	Arabic
Abstract	:	Chromosome analysis is an essential task in a cytogenetics lab, where cytogeneticists can diagnose whether there are abnormalities or not. Karyotyping is a standard technique in chromosome analysis that classifies metaphase image to 24 chromosome classes. The main two categories of chromosome abnormalities are structural abnormalities that are changing in the structure of chromosomes and numerical abnormalities which include different types like monosomy (missing one chromosome) or trisomy (extra copy of the chromosome). Manual karyotyping is complex and requires high domain expertise, as it takes an amount of time. With these motivations, in this research, we automate karyotyping by borrowing the latest ideas from deep learning and recognize the most common numerical abnormalities (monosomy and trisomy) on a dataset contains 147 non-overlapped metaphase images collected from Center of Excellence in Genomic Medicine Research at King Abdulaziz University. The metaphase images go through three stages in our study. The first one is individual chromosomes detection using YOLOv2 Convolutional Neural Network followed by some chromosome post-processing. This step achieved 0.84 mean IoU, 0.9923 AP, and 100% individual chromosomes detection accuracy. The second stage is feature extraction and classification where we fine-tune VGG19 network using two different approaches, one by adding extra fully connected layer(s) and another by replacing fully connected layers with the global average pooling layer. The best accuracy obtained is 95.04%. The final step is detecting abnormality and this step obtained 96.67% average abnormality detection accuracy. To further validate the proposed classification method, we examined the Biomedical Imaging Laboratory dataset which is publicly available online and achieved 94.11% accuracy.
Supervisor	:	Dr. Lamiaa Elrefaei
Thesis Type	:	Master Thesis
Publishing Year	:	1442 AH 2020 AD
Co-Supervisor	:	Dr. Mai Fadel
Added Date	:	Friday, January 29, 2021

Researchers

Researcher Name (Arabic)	Researcher Name (English)	Researcher Type	Dr Grade	Email
منى سالم الخراز	Al-Kharraz, Mona Salem	Researcher	Master

Files

File Name	Type	Description
46871.pdf	pdf

Back To Researches Page