Promoting vascular healing using nanofibrous ticagrelor-eluting stents

Lee, Cheng-Hung; Hsieh, Ming‐Jer; Liu, Kuo‐Sheng; Cheng, Che-Wei; Chang, Shang‐Hung; Liu, Shih‐Jung; Hsu, Ming-Yi; Hung, Kuo‐Chun; Yeh, Yung‐Hsin; Chen, Wen‐Jone; Juang, Jyuhn‐Huarng; Wen, Ming‐Shien

doi:10.2147/ijn.s166785

Cited by 8 publications

(6 citation statements)

References 58 publications

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“…A growing number of ex vivo and clinical studies in this regard indicate that the currently used P2Y12-receptor antagonists, i.e., clopidogrel, prasugrel, and ticagrelor, have a very different effect on injury-repair process that immediately begins after stenting ( 47 ). The latter anti-platelet drug reduces neo-intimal hyperplasia together with the local inflammatory response and excessive proliferation of smooth muscle cell proliferation while preserving re-endothelialization ( 48 ). Schnorbus et al compared the three P2Y12 anti-aggregants and postulated that prasugrel is associated with improved endothelial function, stronger platelet inhibition, and a lower inflammatory response compared to ticagrelor and clopidogrel ( 49 ).…”

Section: Discussionmentioning

confidence: 99%

First Experience of Three Neurovascular Centers With the p64MW-HPC, a Low-Profile Flow Diverter Designed for Proximal Cerebral Vessels With Antithrombotic Coating

et al. 2021

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Background: In the last decade, flow diversion (FD) has been established as hemodynamic treatment for cerebral aneurysms arising from proximal and distal cerebral arteries. However, two significant limitations remain—the need for 0.027” microcatheters required for delivery of most flow diverting stents (FDS), and long-term dual anti-platelet therapy (DAPT) in order to prevent FDS-associated thromboembolism, at the cost of increasing the risk for hemorrhage. This study reports the experience of three neurovascular centers with the p64MW-HPC, a FDS with anti-thrombotic coating that is implantable via a 0.021” microcatheter.Materials and methods: Three neurovascular centers contributed to this retrospective analysis of patients that had been treated with the p64MW-HPC between March 2020 and March 2021. Clinical data, aneurysm characteristics, and follow-up results, including procedural and post-procedural complications, were recorded. The hemodynamic effect was assessed using the O'Kelly–Marotta Scale (OKM).Results: Thirty-two patients (22 female, mean age 57.1 years) with 33 aneurysms (27 anterior circulation and six posterior circulation) were successfully treated with the p64MW-HPC. In 30/32 patients (93.75%), aneurysmal perfusion was significantly reduced immediately post implantation. Follow-up imaging was available for 23 aneurysms. Delayed aneurysm perfusion (OKM A3: 8.7%), reduction in aneurysm size (OKM B1-3: 26.1%), or sufficient separation from the parent vessel (OKM C1-3 and D1: 65.2%) was demonstrated at the last available follow-up after a mean of 5.9 months. In two cases, device thrombosis after early discontinuation of DAPT occurred. One delayed rupture caused a caroticocavernous fistula. The complications were treated sufficiently and all patients recovered without permanent significant morbidity.Conclusion: Treatment with the p64MW-HPC is safe and feasible and achieves good early aneurysm occlusion rates in the proximal intracranial circulation, which are comparable to those of well-established FDS. Sudden interruption of DAPT in the early post-interventional phase can cause in-stent thrombosis despite the HPC surface modification. Deliverability via the 0.021” microcatheter facilitates treatment in challenging vascular anatomies.

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Section: Discussionmentioning

confidence: 99%

First Experience of Three Neurovascular Centers With the p64MW-HPC, a Low-Profile Flow Diverter Designed for Proximal Cerebral Vessels With Antithrombotic Coating

et al. 2021

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“…The water contact angle was the only parameter affected by the QR coating, and this decrease was expected due to the presence of the biomolecule on the implant surface. The use of a coating that is covalently linked to the surface, as demonstrated by FTIR spectroscopy and XPS in previous studies [18,19], could provide an alternative to the use of a polymer, which is considered as one of the leading causes of late stent thrombosis in DES [8,9]. Similar to previous reports [19,35], QR coated surfaces were also biocompatible on HUVEC cells, and remarkably showed higher metabolic activity in all evaluated time points, similar to other studies with mesenchymal stem cells [18,19].…”

Section: Discussionmentioning

confidence: 99%

“…Drug eluting stents (DESs) are used to inhibit the proliferation of smooth muscle cells, decreasing the risk of in-stent restenosis by the delivery of an appropriate concentration of an effective agent locally without systemic toxicity [7]. Usually, this controlled liberation of the therapeutic agent is achieved due to the use of a polymer coating; however, there are some complications associated to the use of polymers, considered as one of the leading causes of late stent thrombosis [8,9]. Thus, the use of a nanostructured surface could provide an alternative for the application of the stent coating without the need of using a polymer.…”

Section: Introductionmentioning

confidence: 99%

Nanostructured Titanium for Improved Endothelial Biocompatibility and Reduced Platelet Adhesion in Stent Applications

et al. 2020

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Although coronary stents have improved the early and long-term consequences of arterial lesions, the prevention of restenosis and late stent thrombosis is key to prevent a new obstruction of the vessel. Here we aimed at improving the tissue response to stents through surface modification. For that purpose, we used two different approaches, the use of nanostructuration by electrochemical anodization and the addition of a quercitrin (QR) coating to the Ti surface. Four surfaces (Ti, NN, TiQR and NNQR) were characterized by atomic force microscopy, scanning electronic microscopy and contact angle analysis and QR content was evaluated by fluorescent staining. Cell adhesion, cytotoxicity, metabolic activity and nitric oxide (NO) production was evaluated on primary human umbilical cord endothelial cells (HUVECs). Platelet adhesion, hemolysis rate and Staphylococcus epidermidis CECT 4184 adhesion at 30 min were analyzed. Nanostructuration induced an increase on surface roughness, and QR coating decreased the contact angle. All surfaces were biocompatible, with no hemolysis rate and lower platelet adhesion was found in NN surfaces. Finally, S. epidermidis adhesion was lower on TiQR surfaces compared to Ti. In conclusion, our results suggest that NN structuration could improve biocompatibility of bare metal stents on endothelial cells and reduce platelet adhesion. Moreover, QR coating could reduce bacterial adhesion.

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“…More than affecting platelet, the ticagrelor eluting stents preserves endothelial recovery and favors suppressive smooth muscle proliferation. 294 The drug release profile largely determines the overall performance of stents in a variety of evaluation models. 291 Polymers, synthetic or biological polymers, acting as versatile basal layers demanding to provide good biocompatibility (blood or tissue), generally are utilized to incorporate pharmacologic agents for mediating drug release behavior, covering poly(ethylene-co-vinylacetate), poly(n-butylmethacrylate), poly(styrene-b-isobutylene-b-styrene) fluoropolymer, phosphorylcholine, poly(lactic acid) (PLA), and poly(lactic-co-glycolic acid) (PLGA).…”

Section: Strategies Of Lesion-localizing Delivery For Treating Athero...mentioning

confidence: 99%

Recent advance in treatment of atherosclerosis: Key targets and plaque-positioned delivery strategies

Liu

Tan

et al. 2022

J Tissue Eng

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Atherosclerosis, a chronic inflammatory disease of vascular wall, is a progressive pathophysiological process with lipids oxidation/depositing initiation and innate/adaptive immune responses. The coordination of multi systems covering oxidative stress, dysfunctional endothelium, diseased lipid uptake, cell apoptosis, thrombotic and pro-inflammatory responding as well as switched SMCs contributes to plaque growth. In this circumstance, inevitably, targeting these processes is considered to be effective for treating atherosclerosis. Arriving, retention and working of payload candidates mediated by targets in lesion direct ultimate therapeutic outcomes. Accumulating a series of scientific studies and clinical practice in the past decades, lesion homing delivery strategies including stent/balloon/nanoparticle-based transportation worked as the potent promotor to ensure a therapeutic effect. The objective of this review is to achieve a very brief summary about the effective therapeutic methods cooperating specifical targets and positioning-delivery strategies in atherosclerosis for better outcomes.

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Promoting vascular healing using nanofibrous ticagrelor-eluting stents

Cited by 8 publications

References 58 publications

First Experience of Three Neurovascular Centers With the p64MW-HPC, a Low-Profile Flow Diverter Designed for Proximal Cerebral Vessels With Antithrombotic Coating

First Experience of Three Neurovascular Centers With the p64MW-HPC, a Low-Profile Flow Diverter Designed for Proximal Cerebral Vessels With Antithrombotic Coating

Nanostructured Titanium for Improved Endothelial Biocompatibility and Reduced Platelet Adhesion in Stent Applications

Recent advance in treatment of atherosclerosis: Key targets and plaque-positioned delivery strategies

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