Which Need Do We Address?
Heart valve diseases affect millions of people worldwide, leading to severe health complications such as heart failure, stroke, and even death. Current artificial heart valves, whether mechanical or biological, have significant limitations. Mechanical valves require lifelong anticoagulation therapy to prevent blood clots, while biological valves, though more biocompatible, tend to degrade and calcify over time, necessitating frequent replacements. Our project aims to address these critical issues by developing a new type of artificial heart valve that combines the durability of mechanical valves with the biocompatibility of biological valves, thereby improving patient outcomes and quality of life.

Who We Are
We are a dedicated team of engineering students passionate about biomedical innovation.We are committed to leveraging cutting-edge technology and research to create solutions that can make a difference in the medical field

Discover Our Design
Our artificial heart valve design is inspired by the natural anatomy and function of human heart valves. Using advanced CAD software like SolidWorks, we have created a detailed 3D model that includes the valve leaflets, annulus, and supporting structures. The design process involves extensive Finite Element Analysis (FEA) using ANSYS to ensure the valve can withstand physiological pressures and stresses. We have also employed Computational Fluid Dynamics (CFD) simulations to optimize blood flow through the valve, minimizing turbulence and ensuring efficient operation.

Value Proposal
Our artificial heart valve offers several key advantages:
- Durability: Made from advanced biocompatible materials, our valve is designed to last significantly longer than current biological valves, reducing the need for frequent replacements.
- Biocompatibility: The materials used in our valve minimize the risk of calcification and do not require lifelong anticoagulation therapy, improving patient safety and comfort.
- Cost-Effective Production: Our valve can be manufactured using a simple moulding process, which reduces production costs and ensures consistent quality.
-Innovative Design: The valve's design mimics the natural motion of heart valves, ensuring optimal performance and reducing the risk of complications.

Our project represents a significant step forward in the field of artificial heart valves, combining innovative design, safe materials, and rigorous testing to create a product that can improve the lives of patients worldwide.