About Sara Reeves
Hi! My name is Sara and I am a fourth year Biomedical Engineering student at Georgia Tech!
I'm originally from Augusta GA (home of the Masters Tournament) but moved to Atlanta in 2018 and LOVE IT!
I have excellent leadership skills, an energetic personality and a love for others.
I am passionate about volunteering in my community, working with people of all backgrounds, fly fishing (& even tying my own flies), hiking & camping, and I do a little bit of artwork here and there.
I have the ability to lead and manage myself as well as others. I am results driven and action oriented.
I thrive in fast paced environments. I am able to successfully maintain satisfied customer relationships and bring projects to a successful and profitable conclusion.
My main objectives when looking for a job:
1. Rewarding
2. Flexible
3. People!
4. Demand
5. Dynamic
My Latest Projects
EKG Build using a Bio-amplifier circuit
Our study purpose and objectives: Test a condition that changes heart rate variability (HRV) and compare to a normal condition.
Literature shows that HRV levels are indicative of stress. This study could show how positive reinforcement during stressful situations could reduce stress levels by increasing HRV and possibly lead to improvement in scores.
Will update as we continue to make developments.
Last edit 1/21/2020
Parkinson's Disease
Modeling, creating, and testing an at home device to measure Levodopa concentrations in a patient’s blood plasma by using colorimetry, mass spectrometry and voltage.
This will allow doctors to better identify how often a patient experiences an off period in order to optimize a patient’s dosage.
Working with a team of eight biomedical engineering students and two biomedical engineering professors.
EKG cable Management
Our EZEKG device is unique to solutions currently offered in healthcare as we include a cable management system as well as a cleaning mechanism that removes debris such as blood and dirt from the cables as it passes through the input of the cable housing.
Our device creates value by reducing the risk of hospital acquired infections and potential hazards for both the user and the patient.
Prototypes based upon feedback from both physicians and nurses, as well as biologists.
see: our website
