Abstract
Although the drug-eluting stent (DES) has become the standard for percutaneous coronary intervention (PCI)-based revascularization, concerns remain regarding the use of DES, mainly due to its permanent rigid constraint to vessels. A drug-eluting bioresorbable stent (BRS) was thus developed as an alternative to DES, which can be absorbed entirely after its therapeutic period. Magnesium (Mg)-based BRSs have attracted a great deal of attention due to their suitable mechanical properties, innovative chemical features, and well-proven biocompatibility. However, the primary disadvantage of Mg-based BRSs is the rapid degradation rate, resulting in the early loss of structural support long before the recovery of vascular function. Recently, a new type of patented Mg–Nd–Zn-Zr alloy (JDBM) was developed at Shanghai Jiao Tong University to reduce the degradation rate compared to commercial Mg alloys. In the present investigation, a poly(d,l-lactic acid)-coated and rapamycin eluting (PDLLA/RAPA) JDBM BRS was prepared, and its biosafety and efficacy for coronary artery stenosis were evaluated via in vitro and in vivo experiments. The degree of smooth muscle cell adhesion to the PDLLA/RAPA coated alloy and the rapamycin pharmacokinetics of JDBM BRS were first assessed in vitro. JDBM BRS and commercial DES FIREHAWK were then implanted in the coronary arteries of a porcine model. Neointimal hyperplasia was evaluated at 30, 90, and 180 days, and re-endothelialization was evaluated at 30 days. Furthermore, Micro-CT and optical coherence tomography (OCT) analyses were performed 180 days after stent implantation to evaluate the technical feasibility, biocompatibility, and degradation characteristics of JDBM BRS in vivo. The results show the ability of a PDLLA/RAPA coated JDBM to inhibit smooth muscle cell adhesion and moderate the drug release rate of JDBM BRS in vitro. In vivo, low local and systemic risks of JDBM BRS were demonstrated in the porcine model, with preserved mechanical integrity after 6 months of implantation. We also showed that this novel BRS was associated with a similar efficacy profile compared with standard DES and high anti-restenosis performance. These findings may confer long term advantages for using this BRS over a traditional DES.
Highlights
The drug-eluting stent (DES) has become the standard for percutaneous coronary intervention (PCI)-based revascularization, concerns remain regarding the use of DES, mainly due to its permanent rigid constraint to vessels
After incubated for 1 day, there was no apparent difference in cell density among the four groups, and only the PDLLA/RAPA group showed a slightly lower cell density
The smooth muscle cell density increased 4 and 2.5 times in the negative control group (NC) and PDLLA groups, respectively, while there was no evident change in the Hydrogen Fluoride (HF)-JDBM group
Summary
The drug-eluting stent (DES) has become the standard for percutaneous coronary intervention (PCI)-based revascularization, concerns remain regarding the use of DES, mainly due to its permanent rigid constraint to vessels. Drug-eluting stents (DES), the third revolution in interventional cardiology, have become the gold standard in percutaneous myocardial revascularization, as DES have been demonstrated to reduce the in-stent restenosis rate and incidence of major cardiac adverse events (MACE) by inhibiting the proliferation of smooth muscle cells compared with B MS1,2. The first generation of poly-l-lactic acid (PLLA) based stent (ABSORB, Abbott Vascular) showed promising results at 1-year post-operation. It has had several limitations, including increased strut thickness and crossing profile and relatively low resistance to overexpansion, which originates from its poor mechanical properties. The primary disadvantage of Mg-based BRS is its high corrosion rate with complete biodegradation within 3 months; ideal BRS should have adequate radial support for a period of about 6 months to prevent recoil and constrictive remodeling
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