Retina Image Analysis

Revision as of 14:34, 15 May 2021 by Sbprm2021 4 (talk | contribs)
  • Project name: Retina Image Analysis
  • Tutor: Michael Beyeler (michael [dot] beyeler [at] unil [dot] ch)
                                     Retina Image Analysis                                        
                      Participant : Alexandre Jann, Maylis Touya, Paola Zanchi
                                Teaching Assistant:  Michael Beyeler

Introduction

We wanted to know if we can link tortuosity of the blood vessel in the eyes with cardiovascular diseases by using programming and bioinformatics.

Why is this project interesting?

This project is quite interesting because it allows us to have a mathematical insight into the determination of diseases and comorbidity risks. Moreover, since an eye fundus is a less invasive physical exam, allowing us to see well the conditions of the blood vessels in a very short amount of time, it seems that it can be a very good exam, and maybe can replace the actuals vascular exams that are invasive and take a long time to be made.

Problematic / Hypothesis

Can we predict the risk of cardiovascular disease from the tortuosity of blood vessels in the eye?

Material and Methods

Material

Method

ARIA

It is a software originally used for measuring the tortuosity of a plant's roots. In fact, ARIA stands for Automatic Root Image Analysis, and has been shown at first in this paper. Here, it has been used to measure the tortuosity of blood vessels in fundus images.

Tortuosity measurement :

We used the density factor (called DF) to calculate the tortuosity of the blood vessels. It consists of the ratio between the length of a line and the length between its first and last point.

Distance Factor Formula

The formula for the distance ratio (DF) with the total length of the segment (numerator) divided by the


Statistical tools :

We used the quantile method to determine the outliers of our DF: all the DFs that were above the 3rd quantile were set as irrelevant.

Results

First, we had to plot for one fundus image of the blood vessels and adapt the diameter.

Discussion

Conclusion

References

  1. ARIA https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0108255 paper
  2. Cheung, Carol Yim-Lui et al. “Retinal vascular tortuosity, blood pressure, and cardiovascular risk factors.” Ophthalmology vol. 118,5 (2011): 812-8. doi:10.1016/j.ophtha.2010.08.045
  3. Strandberg, Timo E, and Kaisu Pitkala. “What is the most important component of blood pressure: systolic, diastolic or pulse pressure?.” Current opinion in nephrology and hypertension vol. 12,3 (2003): 293-7. doi:10.1097/00041552-200305000-00011

Why was this project a challenge?

PDF Files of our work

You can find the PDF of our work on R here for the small dataset.

You can find our R script here.

You can find our intermediate presentation here.

You can find our final PDF report here.

You can find our final presentation here.