Hemocompatibility of all-trans retinoic acid-loaded citrate polymer coatings for vascular stents.

IF 2.2 Q3 ENGINEERING, BIOMEDICAL Regenerative Engineering and Translational Medicine Pub Date : 2022-12-01 Epub Date: 2022-05-02 DOI:10.1007/s40883-022-00257-y
Heather Ursino, Bisheng Zhang, Christopher Ludtka, Antonio Webb, Josephine B Allen
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Abstract

Purpose: Current strategies implementing drug-eluting polymer stent coatings fail to fully address the lasting effects of endothelial suppression which ultimately result in delayed reendothelialization and thrombogenic complications. The present study investigates the in vitro hemocompatibility of all-trans retinoic acid loaded poly (1,8-octanediol-co-citrate) coatings (AtRA-POC coatings) for advanced intravascular stent technology. The ability of these materials in supporting endothelial restoration via migration and proliferation while inhibiting smooth muscle cell growth is also explored.

Methods: Using in vitro models, the hemocompatibility of AtRA-loaded POC-coated cobalt chromium (CoCr) vascular stents was evaluated in terms of platelet and inflammatory activity. Platelet activity was quantified by platelet adhesion and platelet activation, further supported by SEM visualization. Inflammatory activity was quantified by the production of proinflammatory cytokines by THP1 monocytes. Lastly, in vitro wound healing and an 5-Ethynyl-2'deoxyuridine (EdU) and pico green DNA assays were used in quantitating endothelial and smooth muscle cell migration and proliferation.

Results: Experimental examinations of platelet adhesion and activation demonstrate significant reductions in the platelet response to POC coated AtRA loaded stents when compared to bare CoCr stents. Such findings reveal AtRA-POC coatings to have significantly improved hemocompatibility compared to that of bare metal stents and at least as good as POC alone. Similarly, in reference to LPS-stimulated controls, Human monocyte-like THP1 cells in culture with AtRA-POC-CoCr stents for 24 hours showed reduced detection of proinflammatory cytokines, comparable to that of bare CoCr and untreated controls. This result supports AtRA-POC coatings as possessing limited immunological potential. Observations from in vitro endothelial and smooth muscle cell investigations demonstrate the ability of the drug AtRA to allow cell processes involved in restoration of the endothelium while inhibiting smooth muscle cell processes.

Conclusion: This study demonstrates AtRA loaded POC coatings are hemocompatible, noninflammatory, and provide a promising strategy in enhancing vascular stent techniques and clinical integration. Possessing hemocompatibility and immunological compatibility that is at least as good as bare metal stents as clinical standards support the use of AtRA-POC coatings for vascular applications. Additionally, selectively reducing smooth muscle cell proliferation while supporting endothelial cell proliferation and migration further demonstrates the potential of these materials in significantly improving the state of vascular stent technology in the area of stent thrombosis and neointimal hyperplasia.

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血管支架全反式维甲酸负载柠檬酸聚合物涂层的血液相容性。
目的:目前实施药物洗脱聚合物支架涂层的策略不能完全解决内皮抑制的持久影响,最终导致延迟的再内皮化和血栓形成并发症。本研究探讨了全反式维甲酸负载聚(1,8-辛二醇-柠檬酸酯)涂层(AtRA-POC涂层)用于先进血管内支架技术的体外血液相容性。这些材料通过迁移和增殖支持内皮细胞修复,同时抑制平滑肌细胞生长的能力也被探讨。方法:采用体外模型,从血小板和炎症活性方面评估atra负载poc涂层钴铬(CoCr)血管支架的血液相容性。通过血小板粘附和血小板活化来量化血小板活性,并通过扫描电镜可视化进一步支持。通过THP1单核细胞产生促炎细胞因子来量化炎症活性。最后,采用体外伤口愈合、5-乙基-2'脱氧尿苷(EdU)和pico绿DNA测定法定量内皮细胞和平滑肌细胞的迁移和增殖。结果:血小板粘附和激活的实验检查表明,与裸CoCr支架相比,POC涂层AtRA负载支架的血小板反应显著降低。这些发现表明,与裸金属支架相比,AtRA-POC涂层具有显着改善的血液相容性,至少与单独的POC一样好。同样,在lps刺激的对照中,AtRA-POC-CoCr支架培养24小时的人单核细胞样THP1细胞的促炎细胞因子检测减少,与裸CoCr和未处理对照相当。这一结果支持AtRA-POC涂层具有有限的免疫潜力。对体外内皮细胞和平滑肌细胞的研究表明,AtRA药物能够使参与内皮修复的细胞过程发挥作用,同时抑制平滑肌细胞过程。结论:本研究表明AtRA负载的POC涂层具有血液相容性、非炎症性,为增强血管支架技术和临床整合提供了一种有前途的策略。具有血液相容性和免疫相容性,至少与裸金属支架一样好,作为临床标准支持使用AtRA-POC涂层用于血管应用。此外,选择性地减少平滑肌细胞的增殖,同时支持内皮细胞的增殖和迁移,进一步证明了这些材料在显著改善血管支架技术在支架血栓形成和新生内膜增生领域的潜力。
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来源期刊
CiteScore
4.90
自引率
11.50%
发文量
41
期刊介绍: Regenerative Engineering is an international journal covering convergence of the disciplines of tissue engineering, advanced materials science, stem cell research, the physical sciences, and areas of developmental biology. This convergence brings exciting opportunities to translate bench-top research into bedside methods, allowing the possibility of moving beyond maintaining or repairing tissues to regenerating them. The journal encourages both top-down engineering approaches and bottom-up strategies integrating materials science with stem cell research and developmental biology. Convergence papers on instructive biomaterials, stimuli-responsive biomaterials, micro- and nano-patterning for regenerative engineering, elastomeric biomaterials, hydrogels for tissue engineering, and rapid prototyping and bioprinting approaches are particularly welcome. The journal provides a premier, single-blind peer-reviewed forum for the publication of original papers, authoritative reviews, rapid communications, news and views, and opinion papers addressing the most important issues and efforts toward successfully regenerating complex human tissues and organs. All research articles feature a lay abstract highlighting the relevance and future impact for patients, government and other health officials, and members of the general public. Bridging the gap between the lab and the clinic, the journal also serves as a dedicated platform for showcasing translational research that brings basic scientific research and discoveries into clinical methods and therapies, contributing to the improvement of human health care. Topics covered in Regenerative Engineering and Translational Medicine include: Advanced materials science for regenerative and biomedical applicationsStem cells for tissue regenerationDrug delivery for tissue regenerationNanomaterials and nanobiotechnology for tissue regenerationStudies combining tissue engineering/regeneration with developmental biologyConvergence research in pre-clinical and clinical phases
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