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Concept
Bioresorbable stent
Summary
In medicine, a stent is any device which is inserted into a blood vessel or other internal duct to expand it to prevent or alleviate a blockage. Traditionally, such devices are fabricated from metal mesh and remain in the body permanently or until removed through further surgical intervention. A bioresorbable stent (also called bioresorbable scaffold, biodegradable stent or naturally-dissolving stent) serves the same purpose, but is manufactured from a material that may dissolve or be absorbed in the body.
The use of metal drug-eluting stents presents some potential drawbacks. These include a predisposition to late stent thrombosis, prevention of late vessel adaptive or expansive remodeling, hindrance of surgical revascularization, and impairment of imaging with multislice CT.
To overcome some of these potential drawbacks, several companies are pursuing the development of bioresorbable scaffolds or bioabsorbable stents. Like metal stents, placement of a bioresorbable stent will restore blood flow and support the vessel through the healing process. However, in the case of a bioresorbable stent, the stent will gradually resorb and be benignly cleared from the body, enabling a natural reconstruction of the arterial wall and restoration of vascular function.
Studies have shown that the most critical period of vessel healing is largely complete by approximately three to nine months. Therefore, the goal of a bioresorbable or "temporary" stent is to fully support the vessel during this critical period, and then resorb from the body when it is no longer needed.
Bioabsorbable scaffolds, or naturally dissolving stents, that have been investigated include base materials that are either metals or polymers. While polymer-based scaffolds had a strong presence at first, they have meanwhile lost some appeal due to safety concerns and focus is now shifted more towards metallic magnesium-based scaffolds.
Metal stent candidates are iron, magnesium, zinc and their alloys.
Official source
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