Bioresorbable Sirolimus-eluting scaffold in de Novo Coronary Artery Lesions
A Bioresorbable Sirolimus-eluting scaffold Versus a Metallic Sirolimus-eluting Stent for the Treatment of de Novo Coronary Artery Lesions: a Randomized, Open-label, Non-inferiority Trial
Xijing Hospital
2,000 participants
Dec 20, 2025
INTERVENTIONAL
Conditions
Summary
Bioresorbable scaffold (BRS) was designed aiming to avoid the late adverse events associated with permanent metallic stents by providing temporary support to the vessel wall and promoting vessel remodeling, plaque reduction, and restoring vasomotion after its full absorption. As the first FDA-approved BRS, ABSORB BRS was associated with a significantly higher risk of late scaffold thrombosis compared with everolimus-eluting stent (EES). As a result, the ESC-EAPCI task force recommended that the current ABSORB BRS should not be preferred over conventional DES in clinical practice. To solve this dilemma, improved scaffold technology and optimal implantation techniques are necessary. The latest generation Firesorb BRS is a PLLA backbone scaffold system abluminally coated with poly(D, L-lactide) mixed with sirolimus using highly accurate and precise point spraying techniques. Compared to the ABSORB BRS, Firesorb features a thinner stent thickness (100-125 μm) while maintaining sufficient radial support, enabling faster degradation and a shorter duration of presence in the coronary. Additionally, inspired by the design of the Firehawk DES, its unique spot-coating process applies a single-sided coating layer exclusively to the stent's outer surface, enabling targeted drug release. Preclinical trials have demonstrated favorable performance for Firesorb, culminating in its approval by the National Medical Products Administration (NMPA) in 2024. Against these backgrounds, we have designed this trial to investigate whether the Firesorb BRS is non-inferior to the drug-eluting stent in terms of the Device-Oriented Composite Endpoint (DoCE) in patients undergoing percutaneous coronary intervention for de novo lesions.
Eligibility
Inclusion Criteria11
- Patients with an indication for PCI due to acute or chronic coronary syndrome
- Patients who understand the study's objectives, voluntarily participate, sign the informed consent form, and are willing to undergo regular follow-up
- De novo lesion(s)
- Target vessel diameter of ≥ 2.5 mm to ≤ 4.00 mm, target lesion length ≤ 25 mm (visual estimation)
- Target lesion is NOT
- Severely calcified
- In-stent restenosis
- Diffused lesion requiring stent overlapping or more than one stent
- Located in the left main, aorto-ostial, proximal LAD/LCX/RCA involving vessel ostia (stent coverage required within 3 mm of vessel ostia), surgical graft, myocardial bridge, or chronic total occlusion
- Bifurcation requiring two stents or involving a side branch that is ≥ 2.5 mm in diameter
- Located in the target vessel with severe tortuosity
Exclusion Criteria9
- Age < 18 years, or > 75 years
- Patient is a woman who is pregnant or nursing
- Patients who have received any stent implantation in the target vessel within one year
- Patients required long-term oral anticoagulation
- Known non-adherence to antiplatelet therapy or not suitable for long-term antiplatelet therapy due to high bleeding risk
- Patients who are allergic to heparin, poly L-lactic acid (PLLA), sirolimus, antiplatelet drugs, or contrast
- Currently participating in another trial and not yet at its primary endpoint
- Patients whose life expectancy is less than 3 years
- Cardiogenic shock
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Interventions
The Firesorb BRS (MicroPort Medical, Shanghai, China) is a balloon-expandable scaffold with a highly crystallized PLLA backbone, abluminally coated with a poly(D, L-lactide) (PDLLA) matrix incorporating sirolimus (4 μg/mm) through highly accurate and precise point spraying techniques. The scaffold thickness is 100 μm for devices with diameters of 2.5 and 2.75 mm, and 125 μm for those ranging from 3.0 to 4.0 mm in diameter. There are two radiopaque markers at each end of the scaffold, which can identify the position of the stent under X-ray monitoring and help to accurately locate the scaffold.
The Firehawk™ stent (MicroPort Medical, Shanghai, China) is a third-generation balloon-expandable L605 cobalt chromium stent with abluminal grooves containing a biodegradable polymer, which provides controlled release of the anti-proliferative medicinal substance sirolimus. The polymer is biodegradable, leaving only the metallic stent as a permanent implant. The stent is mounted on a rapid exchange delivery catheter system. The unique abluminal grooves are scored at the outer surface of the struts (total strut thickness: 86 μm), with an average sirolimus dosage of 3 µg/mm stent lengths.
Locations(1)
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NCT07022587