Bio-engineered Stent : The Future Of Coronary Artery Disease Treatment?

Bio-engineered Stent

A stent is a small, wire mesh tube that is inserted into a narrowed or blocked blood vessel or artery to help keep it open. Stents are commonly used to treat heart disease, but can also be used to treat other conditions such as kidney disease and peripheral artery disease. While stents are effective in treating these conditions, there are still some risks associated with their use. Bio-engineered stents may offer a safer and more effective alternative.

A Bio-engineered Stent is a stent that is designed to mimic the natural environment of the artery. These stents are made from biodegradable materials, such as polymers and metals, that gradually break down over time. The goal of bio-engineered stents is to reduce the risk of complications, such as restenosis (the re-narrowing of the artery) and thrombosis (blood clotting), that can occur with traditional stents.

The Global Bio-engineered Stent Market Size Was Valued At US$ 2,764.2 Million In 2017, And Is Projected To Exhibit A CAGR Of 8.7% Over The Forecast Period (2018 – 2026).

One of the key advantages of Bio-Engineered Stent is their ability to promote the growth of healthy tissue. Traditional stents can sometimes cause irritation and inflammation in the artery, which can lead to the formation of scar tissue and the re-narrowing of the artery. Bio-engineered stents are designed to be more biocompatible, which means they are less likely to cause inflammation and promote the growth of healthy tissue.

There are currently several types of Bio-engineered Stent in development. One approach is to use drugs or other substances that can help promote the growth of healthy tissue. For example, some bio-engineered stents are coated with drugs that inhibit the growth of smooth muscle cells, which are the cells that can cause restenosis. Other stents are designed to release growth factors, which are proteins that promote the growth of healthy tissue.

Another approach to bio-engineered stents is to use materials that are naturally biocompatible. For example, some stents are made from materials such as silk, collagen, or hyaluronic acid, which are all naturally occurring substances in the body. These materials are less likely to cause inflammation and are more biocompatible than traditional stent materials.

Bio-engineered Stent may also be able to provide more personalized treatment for patients. Currently, stents are typically one-size-fits-all, meaning that the same stent is used for every patient. However, bio-engineered stents can be customized to fit the specific needs of each patient. For example, a stent could be designed to release a specific drug or growth factor based on the patient's individual medical history and condition

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