First Place at Science Fair for Student using BYB Gear
My name is Azrin Khan and I am currently a junior (11th grade) in Francisco Bravo Medical Magnet Senior High School in California. My purpose is to build a device which will alert humans when they are going to have muscle cramps, and it will keep a record of the intensity of the cramp and how many times it happened. In addition to that, I am also going to build an app where all the data will be stored, and their doctor will also have access to the data so that any health issues can be determined and kept in control. This is an idea I got after watching all the diseases that have muscle cramps as their symptoms, and I believe having muscle cramps should not be neglected but it should be greatly taken care of and kept track of.
I asked Backyard Brains if they could help me with my project, and so I started to work with their Muscle SpikerShield. At the Bravo/USC Science and Engineering Fair last month, I won First Place in my category which was Mathematics and Computer Sciences.
The goal of this project was to construct a device which will assist epileptics to be alerted of their condition, and alert others around them to be on the lookout for danger when muscles contract abnormally in the body. Also, code to interpret the data recorded from the device into a human understandable language and using a live graph to plot real-time data which will be useful to both the individual and doctors and other professionals to be updated on the most recent conditions. This is the very first device that uses the electrical potential measured from muscle contraction to identify muscle cramps.
Overview of Project
This project uses an alarming device which sounds whenever muscles contract abnormally in a person’s body so that others nearby can also be aware of the patient’s condition. To test if the device was working, I tested on Lumbricus Terrestris (earthworms) and measured the electrical potential for 30 seconds on each earthworm. The device can also record the electrical potential every second so that the recorded information can be shared with their doctors and other professionals through these updates regarding their conditions. The live graph uses Python 2.7.15, and Python IDLE was used as the developing environment. Piezo Speakers connected to the Arduino Uno and Backyard Brains’ Muscle SpikerShield combination device alarms as soon as the electrical potential units reach 95 to 100. In the future, I would like to use an app to make the live graph available to doctors so that they can keep up with their patient’s health.
In conclusion, my device is functioning properly and in addition to my device, I’ve also designed a shirt with a pocket on the left sleeve that patients can use to hold their devices (see below). The Bravo/USC Science and Engineering Fair 2019 was a huge success for me. In my category, Computer Science and Mathematics, there were very impressive projects; someone used a drone to construct a gas sensor, while another participant coded a website that is designed to help people with OCD. I had a total of three judges who interviewed me, and two of the judges were professors from the KECK School of Medicine of USC and another judge was a lab PI also from the KECK School of Medicine of USC.
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Have an idea for your own experiment?
Recreate this experiment or perform your own with the Muscle SpikerShield Bundle!