This project involved the design and development of a mini-PCR (Polymerase Chain Reaction) machine. The goal was to create a compact, efficient, and user-friendly device that could perform PCR, a crucial process in molecular biology. The design phase utilized SolidWorks to create a detailed model of the machine, ensuring optimal functionality and patient-specific compatibility. Post-design, the machine was equipped with innovative features such as a fridge compartment for sample storage and curved edges for easier handling. We also used a LabVIEW-based system for signal detection, demonstrating its potential for clinical applications. This endeavor significantly honed my skills in system design, SolidWorks, signal processing, and signal amplification, marking a significant milestone in my journey as a Biomedical Engineer.
The design phase was a rigorous process, carried out using SolidWorks to create a detailed model of the Mini-PCR. This tool allowed us to create an accurate and comprehensive model of the system, ensuring that every component was meticulously designed for optimal functionality. The countless hours spent refining the design resulted in a functional, patient-specific, and biocompatible system.
Following the design phase, we incorporated innovative features such as a fridge compartment to store samples and curved edges to make the casing easier to hold and transport. This phase provided us with invaluable hands-on experience with the fabrication of biomedical devices. Each component was created with utmost care, ensuring that the final product was robust and reliable.
Our team communicated and worked very well together throughout the semester. We were able to keep ourselves on track by communicating clearly what we were up to and what needed to be completed, and by when. Communication was crucial when we collaborated, especially in instances where face-to-face meetings were not possible. Our project was recognized as one of the best in the subject, earning us a distinction for our work.
This project was a significant milestone in my journey as a Biomedical Engineer. It honed my skills in system design, SolidWorks, signal processing, and signal amplification. The hands-on experience of creating a patient-specific system from scratch, coupled with the recognition we received, underscores my potential in this field.
The project showcased my proficiency in using tools like SolidWorks and my ability to work effectively with biomedical signals and amplify them. These skills, along with my problem-solving abilities and innovative thinking, make me a strong candidate for a position in Biomedical Engineering. I am eager to leverage these skills to create impactful solutions in the field and improve people's lives.