High-Level Project Summary
project RADON is a complete solution for whole heart replacement (Radio Active Digital Organ Neuron). It is all about the process involved in human heart transplantation. Where an adequate healthy person can survive a heart attack a maximum of 2 to 3 times after that it becomes a risky task for the patient to withstand the attack. Account of replacing that project RADON is introduced. which are AI machines that take over all the functions of the heart in the account of replacing the real human heart. Though it could be helpful for cardiac arrest patients to be a part of this world for some more extended couple of years.
Link to Final Project
Link to Project "Demo"
Detailed Project Description
Project RADON
Agenda:
project RADON (Radio Active Digital Organ Neuron) is all about the process involved in human heart transplantation. Where an adequate healthy person can survive a heart attack a maximum of 2 to 3 times after that it becomes a risky task for the patient to withstand the attack. Account of replacing that project RADON is introduced.
What is RADON:
RADON is an AI machine that takes over all the functions of the heart in the account of replacing the real human heart. Though it could be helpful for cardiac arrest patients to be a part of this world for some more extended couple of years.
And in an emergency case of sudden transplantation, it’s impossible to arrange a donor who is all of the same blood group which the patient has. As a remedy for this situation RADON will be helpful.
APPLICATIONS:
It uses an electronic health record, which helps identify the heart disease's vital signs. AI has various benefits in cardiology like daily decision-making process, heart imaging, precision in surgery, reduced risk, improved knowledge, and patient care.
The AI-assisted screening tool identified people at risk of left ventricular dysfunction 93% of the time. To put that Artificial intelligence (AI) algorithms have shown impressive results in specific and often time-consuming cardiovascular imaging tasks such as image segmentation, anomaly detection, and patient selection; however, these applications are limited to specific tasks in the clinical workflow.
In cardiovascular imaging, AI algorithms are often purely data-driven but can be improved when associated with biophysical models of the RADON, which enables the integration of pre-existing knowledge of human anatomy and physiology. In perspective, a mammogram is accurate 85% of the time.
Working:
RADON(Radio Active Digital Organ Neuron) is made up of TITANIUM, ZIRCONIUM these metals that are non-reactive with our body, and hence the outer structure of RADON is been made up of titanium(Ti)and the inner components are made up of zirconium.
In an account replacing the muscles and tissues inside the heart are made up of Hydroxyapatite, Tricalcium Phosphate (TCP), and ... Nanostructured rubber-like material with optimal properties could replace human tissues this(TCP)is used to replace all the veins and the valves as it could give the accurate function and hence TCP is used. Elastomers are Rubber-like solids in which Polymer chains are held together in these materials by relatively weak intermolecular these are used as an intermediator to transverse the flowing blood from the right ventricles to the lungs for
purification and on the other side, the same process is done. to give the impulse, here we are using a pacemaker to produce an electric impulse with the help of a pacemaker the impulse function in RADON is done precisely.
Space Agency Data
websites referred:
To gather data relating to an Aging group:
- https://www.nia.nih.gov/health/heart-health-and-aging#:~:text=People%20age%2065%20and%20older,heart%20disease)%20and%20heart%20failure
Research on Aging Heart
- https://www.who.int/news-room/fact-sheets/detail/cardiovascular-diseases-(cvds)#:~:text=Key%20facts,32%25%20of%20all%20global%20deaths
Hackathon Journey
HACKATHON JOURNEY
Space Experience:
- It was a tremendous and immense experience to go through this app.
- I am able to see that many teams are coming up with immersive projects.
We Learnt:
- I am able to go through many ideas which are indeed for society.
- It is useful for me to gather information for our innovations.
Inspired To Choose This Challenge:
- the topic (Can AI preserve our science legacy ) inspired me to bring a project that it has to be a solution for cardiac patients in society.
- the main motto of the project is to create re-life for heart failure patients.
Approach To Developing This Project:
- As human civilization evolves and reaches its peak in innovation and technology, health-related problems are surfacing equally high. Need for finding a solution and cure to meet the demands of health issues. Among the health issues, heart-related problems always take top place.
- Cost and time in addressing the problem are real challenges.
- We analyzed various device-based solutions existing currently and come up with this innovative new way of resolving heart-based problems.
Resolve Setbacks And Challenges:
- the test we face in life's journey is not to reveal our weaknesses but to help us discover our inner strengths. We can only know how strong we are when we strive and thrive beyond the challenges we face.
Like To Thank:
- I would like to thank my team members for the great support and my parents, teachers, and everyone who is with me for supporting this challenge.
References
Data And Resources
Data's
According To Google Data Statistics:
- Cardiovascular diseases (CVDs) are the leading cause of death globally. An estimated 17.9 million people died from CVDs in 2019, representing 32% of all global deaths. Of these deaths, 85% were due to heart attack and stroke. Over three-quarters of CVD deaths take place in low- and middle-income countries.
- India has one of the highest burdens of cardiovascular disease (CVD) worldwide. The annual number of deaths from CVD in India is projected to rise from 2.26 million (1990) to 4.77 million (2020). Coronary heart disease prevalence rates in India have been estimated over the past several decades and have ranged from 1.6% to 7.4% in rural populations and from 1% to 13.2% in urban populations.
Regarding My Project, The Data We Got:
HOW YOUR HEART CHANGES ACCORDING TO AGE:
- People aged 65 and older are much more likely than younger people to suffer a heart attack, to have a stroke, or develop coronary heart disease (commonly called heart disease) and heart failure. Heart disease is also a major cause of disability, limiting activity and eroding the quality of life of millions of older people.
THE RESEARCH ON AGING THE HEART:
- Adults age 65 and older are more likely than younger people to suffer from cardiovascular disease, which is problems with the heart, blood vessels, or both. Aging can cause changes in the heart and blood vessels that may increase a person's risk of developing cardiovascular disease.
- To understand how aging is linked to cardiovascular disease so that we can ultimately develop cures for this group of diseases, we need to first understand what is happening in the healthy but aging heart and blood vessels. This understanding has advanced dramatically in the past 30 years.
RESOURCES:
Resources I Used:
- Blender - used to animate the sculptures in the video.
- Krita - used to design the sculptures.
- Adobe Spark - used to work on graphics.
- Adobe Lightroom - used to work on the background color contrast.
- DaVinci Resolve - used for editing purposes.
Tags
#artificial heart, #heart transplant, #AI, #Artificial Intelligence, #RADON, #ctritical health issues ,#medical device