Description:
STARR-EDWARDS SILASTIC BALL HEART VALVE PROSTHESES by EDWARDS LIFESCIENCES LLC
Developed with a high degree of precision and durability, the STARR-EDWARDS SILASTIC BALL HEART VALVE PROSTHESES by EDWARDS LIFESCIENCES LLC is a significant advancement in cardiovascular technology, designed to enhance and save the lives of those with heart valve diseases.
As a trusted solution for heart valve replacement, this device takes centerstage in situations where native valve repair or reconstruction is not feasible. It replaces damaged or diseased heart valves, specifically the mitral and aortic valves, hence restoring the normal flow of blood throughout the body and significantly improving the quality of life of the patients.
Its distinguishing element is the Silastic ball, a soft silicone rubber ball, which works as a one-way valve controlling the flow of blood, preventing backward flow, or regurgitation. The cage structure that houses the ball is made of high-quality, highly durable stainless steel to ensure safety and effectiveness.
The STARR-EDWARDS SILASTIC BALL HEART VALVE PROSTHESES aims to offer a more reliable, longer-lasting solution for patients with serious heart ailments as compared to certain alternatives. It is positioned to exemplify commitment to quality, innovation, and patient safety in cardiovascular medicine.
Please note that the decision to use this device should be made in consultation with a healthcare professional who can explain the associated potential benefits and risks.
Primary Use:
STARR-EDWARDS SILASTIC BALL HEART VALVE PROSTHESES: Primary Medical Use
The
Starr-Edwards Silastic Ball Heart Valve Prosthesis has a significant role in the realm of cardiovascular medicine. Its primary use is to replace damaged or malfunctioning heart valves.
The central purpose of a heart valve is to ensure unidirectional blood flow within the heart, assisting in the vital task of circulating oxygen and nutrient-rich blood throughout our bodies. When these valves malfunction due to disease, aging, or congenital defects, the function of the heart becomes dramatically impaired, causing potentially life-threatening cardiovascular complications.
In such scenarios, it is frequently necessary to replace the malfunctioning valve with a dependable, durable, and
How It Works:
Introduction to the Starr-Edwards Silastic Ball Heart Valve Prostheses
The
Starr-Edwards Silastic Ball Heart Valve Prostheses is a pioneering breakthrough in the field of cardiac devices. Developed in the mid-20th century by two industry renowned physicians Dr. Albert Starr and Engineer Lowell Edwards, this device paved the way for innovative cardiac surgery practices and significantly enhanced the quality of life for numerous heart disease patients.
Functionality of the Starr-Edwards Silastic Ball Heart Valve Prostheses
The core function of the device is to replace the patient's defective native heart valve - specifically the mitral or aortic valve. This is commonly necessary in instances of severe
valvular heart disease, which can severely impact cardiac functionality.
Structure: The Starr-Edwards valve consists of three main components: a silicone elastomer (silastic) ball, a metal cage, and a cloth sewing ring. The metal cage, composed of a highly durable substance such as titanium or a cobalt-chromium alloy, encapsulates the silastic ball, while the cloth sewing ring aids in the implantation process.
Operation: Once the Starr-Edwards valve is implanted in the heart, it operates akin to a natural valve. During the heart's contraction phase (systole), the ball is pushed upwards, permitting the blood to flow from the heart into arteries. In the heart's relaxation phase (diastole), the ball descends, effectively sealing off the passage and preventing any backflow of blood into the heart.
It's important to notice that patients must regularly use
anticoagulants following implantation.
Conclusion
Despite newer heart valve prostheses making their entry into the market, the Starr-Edwards Silastic Ball Heart Valve Prostheses continues to save lives around the globe. It stands as a testament to the enduring potential of human inventiveness and the capabilities of medical progress.