Stent-based tempamine delivery on neointimal formation in a porcine coronary model

BACKGROUND: Tempamine is one of new class of antioxidant agents, the nitroxides, which have shown a wide range of biological effects like suppressing free radical driven reactions to maintain cell functions. The objectives of this study were to evaluate the effect of a biodegradable polymer coated stent loaded with tempamine on in-stent neointimal formation. METHODS: Stainless steel stents were dip coated in biodegradable elastomeric poly (ester-amide) (co-PEA) or in polymer solution mixed with 50% (wt%) and 100% (wt%) tempamine. One group 100% (wt%) tempamine loaded stents were further dip coated in co-PEA polymer to form a top layer. Stainless steel bare, polymer-only, and different doses tempanine coated stents were implanted into porcine coronary arteries with a stent to artery ratio 1.2:1. Histomorphometric analysis was performed at 5 days and 6 weeks respectively. RESULTS: Histomorphometric analysis showed that the bare, polymer-only and tempamine-coated stents elicited a similar tissue response at 5 days. At 6 weeks, the peri-strut inflammation and neointimal hyperplasia of polymer-only stents were comparable to the bare stents. Compared to the bare stents, 50% tempanine coated stents had a trend to decrease the arterial injury (0.62 +/- 0.41 versus 0.34 +/- 0.18, P = 0.075) and neointimal hyperplasia (1.80 +/- 0.77 versus 1.27 +/- 0.39 mm2, P = 0.085). However, 100% tempanine coated showed significantly increased inflammatory response and neointimal formation. CONCLUSION: These co-PEA polymer coatings showed a biocompatible performance. Loaded with 50% tempamine had a trend to decrease neointimal hyperplasia. The 100% tempamine for stent-based delivery may have potential cytotoxic effects to arterial wall. Using a co-PEA polymer topcoat could effectively abolish these side effects.     

Local methylprednisolone delivery using a BiodivYsio phosphorylcholine-coated drug-delivery stent reduces inflammation and neointimal hyperplasia in a porcine coronary stent model

Phosphorylcholine (PC)-coated stents have shown excellent blood and tissue biocompatibility in porcine coronary arteries. The purpose of this study was to determine the efficacy of local methylprednisolone (MP) delivery using PC-coated stents to inhibit inflammatory response and in-stent neointimal hyperplasia in an overstretched porcine coronary model. BiodivYsio (Biocompatibles, Farnham, Surrey, UK) PC-coated drug delivery (DD) stents and DD stents loaded with a high dose of MP (269?μg) were implanted in the coronary arteries of 20 pigs with a balloon/artery ratio of 1.2?:?1. At five days the peri-strut inflammatory response score and thrombus score of the MP-loaded DD stents were lower than in the control stents. The neointimal hyperplasia of MP-loaded DD stents was significantly reduced (0.80?±?0.10 versus 0.48?±?0.10?mm², p?<?0.01). At four-week follow-up, the inflammatory response of MP-loaded stents was lower than the control stents, but without significant difference. The MP-loaded stents showed decreased peri-strut arterial injury and in-stent neointimal hyperplasia (2.42?±?0.87 versus 1.62?± 0.71?mm², p?<?0.05). It is concluded that local vascular delivery of a high dose of MP from PC-coated DD stents could effectively decrease inflammatory response and thrombus formation after oversized stent deployment and result in a significant reduction of neointimal hyperplasia. (Int J Cardiovasc Intervent 2003; 5: 166-171)     

Long-term effects of novel biolimus eluting DEVAX AXXESS plus nitinol self-expanding stent in a porcine coronary model.

OBJECTIVE: The purpose of this study was to evaluate the long-term effects of the DEVAX AXXESS biolimus eluting stent (BES) in a porcine coronary model, compared with those of bare metal stent (BMS) and polymer only stent (POS) controls. BACKGROUND: Excessive neointimal growth has been identified as a major cause of late failure of percutaneous coronary interventions. The effect of drug eluting from self-expanding stents for prevention of neointimal hyperplasia has not been studied before. The DEVAX AXXESS is a self-expanding nickel titanium stent, coated with antiproliferative compound-biolimus. METHODS: Twenty juvenile farm swine, 25-35 kg in weight, 3-6 months in age were used. Each animal received a stent to the left anterior descending artery, left circumflex or right coronary arteries as permitted per anatomy. The chronic vascular response after BES implantation was compared with that after BMS and POS implantation at 28, 90, and 180 days follow-up. RESULTS: The 28-day outcome by quantitative coronary angiography (QCA) showed significant increase in minimal luminal diameter (MLD) in the BES (MLD: 2.90 +/- 0.97, 2.39 +/- 0.90, 1.59 +/- 0.91; P = 0.009) compared with BMS and POS, respectively. By histomorphometric analysis, there was also a corresponding significant reduction in neointimal tissue proliferation in the BES (average neointimal area: 2.78 +/- 0.07, 5.46 +/- 0.66, 8.42 +/- 0.85; P = 0.002) compared with that in BMS and POS controls, respectively at 28-days follow-up. At 90 and 180 days, the mean neointimal area was not significantly different between the BES and the controls. CONCLUSIONS: BES favorably modulates the neointimal tissue formation for 28 days, in the porcine coronary model. Long-term inhibition of neointimal hyperplasia is not sustained most likely because of the delayed cellular proliferation and inflammation in the vessel wall.     

Stent-mediated methylprednisolone delivery reduces macrophage contents and in-stent neointimal formation

OBJECTIVE: Corticosteroids have a wide range of biological effects. Stent-based methylprednisolone delivery could effectively suppress peri-strut inflammation and neointima induced by a polymer matrix. We tested the safety and efficacy of local stent-mediated methylprednisolone delivery using a biological coating on in-stent neointimal formation in a porcine coronary stent model. METHODS: Stainless steel coronary stents were dip-coated in a biological polymer/ methylprednisolone solution, resulting in total load of 530 mug methylprednisolone per stent. In-vitro drug release was performed. Stainless steel bare stents, polymer-only and methylprednisolone-coated stents (MP) were implanted in coronary arteries of pigs with a stent/artery ratio of 1.2 : 1. Histopathologic evaluation, morphometry and immunohistochemistic staining were analyzed at 4-week follow-up. RESULTS: In-vitro drug release studies showed sustained release up to 10 weeks. In vivo the vascular response of polymer-only-coated stents was comparable with the bare stents. No increased peri-strut inflammation and neointimal hyperplasia were observed. The in-stent neointimal formation of methylprednisolone-coated stents was significantly reduced compared with the bare and polymer-only-coated stents (bare, 1.92+/-0.73; polymer-only, 2.14+/-1.50; MP, 1.01+/-0.47 mm, P=0.019). The macrophage content of methylprednisolone-coated stents (bare, 30.74+/-48.67; polymer-only, 19.55+/-24.60; MP, 1.16+/-3.33/mm, P=0.072) was dramatically decreased. However, there were no significant difference among the three group in terms of the proliferating cells expressed by proliferation cell nuclear antigens. CONCLUSION: Stent-based local methylprednisolone delivery could effectively decrease both vascular macrophage infiltration and in-stent neointimal hyperplasia.     

The genous™ endothelial progenitor cell capture stent accelerates stent re‐endothelialization but does not affect intimal hyperplasia in porcine coronary arteries

Objectives : To study the effect of endothelial progenitor cell (EPC) capture on the vascular response to coronary stenting. Background : The introduction of drug‐eluting stents has reduced the need for target lesion revascularization, but their effect on delayed healing, inflammation, and vascular dysfunction has emphasized the need to design strategies that improve current DES. One such strategy is to improve endothelialization by capturing CD34‐positive cells (EPC) by the stent surface. The first human clinical trial using coronary EPC capture stents showed stent safety but neointimal thickness (NIT) was not reduced compared to bare metal stents (BMS). To understand these responses we studied the coronary response to the EPC capture stent in swine. Methods and Results : The stent, coated with murine antihuman monoclonal CD34 antibodies, was assessed with QCA guided stent implantation in normal swine coronary arteries for early endothelialization at 2 and 5 days, and NIT at 28 and 90 days in comparison to control stents carrying a non‐specific murine antibody or to BMS. The main finding was that while the EPC capture stent significantly improved early endothelialization it did not reduce NIT at 28 and 90 days. Conclusions : The EPC capture stent improves early endothelialization in swine but this does not affect neointimal thickness as compared to control stents at 28 and 90 days. © 2011 Wiley Periodicals, Inc.     

A novel paclitaxel-eluting porous carbon-carbon nanoparticle coated, nonpolymeric cobalt-chromium stent: evaluation in a porcine model.

OBJECTIVES: We aimed to evaluate the response of porcine coronary arteries to a novel paclitaxel-eluting porous carbon-carbon nanoparticle coated, nonpolymeric cobalt chromium stent. BACKGROUND: Polymer based drug-eluting stents significantly reduce restenosis. However, the indefinite presence of polymer is thought to initiate and sustain inflammation and contribute to the occurrence of late complications. METHODS: Sixteen carbon-carbon coated, nonpolymeric cobalt chromium stents with two different doses of paclitaxel (eight of each) were implanted in porcine coronary arteries. In addition, eight cobalt chromium stents coated with a biodegradable polymer were also studied. Animals were sacrificed 6 weeks after stent implantation and histomorphometric analysis was performed. Results were compared among the three groups of stents. RESULTS: The cobalt chromium stents coated with carbon-carbon with low and medium doses of paclitaxel both showed acceptable performance characteristics, with respect to endothelialization, neointimal hyperplasia, percentage diameter stenosis, inflammatory response, and tendency to fibrin deposition, when compared to historical data with the Cypher stent. On the other hand, the stents coated with poly(lactide) and poly(lactide-co-glycolide) biodegradable polymers and 0.7 microg/mm2 paclitaxel showed poor performance. There was a significant tendency to poor endothelialization, greater neointimal hyperplasia, percentage diameter stenosis, greater inflammatory response, and tendency to fibrin deposition (P < 0.01 for all parameters). CONCLUSIONS: This preclinical evaluation demonstrates the safety and efficacy of a novel cobalt chromium stent with a carbon-carbon coating and low and medium doses of paclitaxel.     

Particle debris from a nanoporous stent coating obscures potential antiproliferative effects of tacrolimus-eluting stents in a porcine model of restenosis.

Polymer stent coatings may not be suitable for drug elution because of inherent proinflammatory effects. A previous study suggested a beneficial effect of a stent eluting tacrolimus from a nanoporous ceramic aluminum oxide coating in a rabbit restenosis model. We investigated whether this stent is effective in preventing in-stent restenosis in a porcine restenosis model. Thirty-four juvenile swine underwent balloon overstretch injury and were subjected to implantation of either stainless steel (bare) stents, bare stents coated with nanoporous aluminum oxide alone, and coated stents eluting 50 and 180 mug of tacrolimus (FK506). In-stent restenosis was quantified at 1 and 3 months after stent placement by histomorphometry. A significant increase of neointimal hyperplasia was noted with the stents coated with aluminum oxide alone compared with bare stents (2.92 +/- 1.02 and 1.38 +/- 0.51 mm(2), respectively; P < 0.02). In all arteries containing coated stents, particle debris was found in the media and neointima, resulting in augmented vascular inflammation. In the group of stents coated with aluminum oxide, FK506 elution at a dose 180 mug reduced neointimal hyperplasia vs. no drug elution (1.66 +/- 0.49 vs. 2.92 +/- 1.02 mm(2); 180 mug vs. ceramic alone; P < 0.03). At a dose of 50 mug stent-based delivery of FK506, no reduction of neointimal hyperplasia was found (2.88 +/- 1.31 and 2.92 +/- 1.02 mm(2), respectively; P = NS; FK506 vs. ceramic alone). In summary, particle debris shed from a drug-eluting aluminum oxide coating of a stainless steel stent counteracts potential antiproliferative effects of stent-based tacrolimus delivery in a porcine model of restenosis. We propose that stent coatings eluting drugs need to be routinely tested for being tightly anchored into the stent surface. Alternatively, omission of any coating used as a drug reservoir may eliminate inflammatory particle debris after placement of drug-eluting stents.     

Stent‐based tempamine delivery on neointimal formation in a porcine coronary model

Background: Tempamine is one of new class of antioxidant agents, the nitroxides, which have shown a wide range of biological effects like suppressing free radical driven reactions to maintain cell functions. The objectives of this study were to evaluate the effect of a biodegradable polymer coated stent loaded with tempamine on in‐stent neointimal formation.

Methods: Stainless steel stents were dip coated in biodegradable elastomeric poly (ester‐amide) (co‐PEA) or in polymer solution mixed with 50%(wt%) and 100%(wt%) tempamine. One group 100% (wt%) tempamine loaded stents were further dip coated in co‐PEA polymer to form a top layer. Stainless steel bare, polymer‐only, and different doses tempanine coated stents were implanted into porcine coronary arteries with a stent to artery ratio 1.2:1. Histomorphometric analysis was performed at 5 days and 6 weeks respectively

Results: Histomorphometric analysis showed that the bare, polymer‐only and tempamine‐coated stents elicited a similar tissue response at 5 days. At 6 weeks, the peri‐strut inflammation and neointimal hyperplasia of polymer‐only stents were comparable to the bare stents. Compared to the bare stents, 50% tempanine coated stents had a trend to decrease the arterial injury (0.62±0.41 versus 0.34±0.18, P = 0.075) and neointimal hyperplasia (1.80±0.77 versus 1.27±0.39 mm², P = 0.085). However, 100% tempanine coated showed significantly increased inflammatory response and neointimal formation

Conclusion: These co‐PEA polymer coatings showed a biocompatible performance. Loaded with 50% tempamine had a trend to decrease neointimal hyperplasia. The 100% tempamine for stent‐based delivery may have potential cytotoxic effects to arterial wall. Using a co‐PEA polymer topcoat could effectively abolish these side effects.     

一种新型可降解聚合物涂层-雷帕霉素洗脱支架对猪冠状动脉新生内膜增生的影响

目的:评价可降解高分子材料聚丙交酯-乙交酯(PLGA)作为支架药物载体的可行性及携带雷帕霉素的PLGA涂层支架的抗内膜增生作用。方法:在14头微型猪的3支冠状动脉分别植入钴铬合金裸支架(CoCr-BMS)、不载药的PLGA涂层支架(PCOS)和PLGA涂层雷帕霉素洗脱支架(PLGA-SES)。分别在支架植入后1个月和3个月时,复查冠状动脉造影,然后分离支架段血管行组织病理学分析。结果:共有12头动物存活,其余2头动物可能因麻醉剂相关的呼吸抑制而死亡。支架植入后1个月和3个月,不载药的PLGA涂层支架新生内膜面积和晚期管腔丢失与CoCr-BMS组相近,而PLGA-SES组则明显低于CoCr-BMS组。组织形态学示3组支架段血管损伤积分、炎症积分及再内皮化积分差异无统计学意义。结论:在猪冠状动脉支架模型中,PLGA涂层的支架设计具有良好的生物相容性和安全性;携带雷帕霉素的这种支架可抑制新生内膜形成,预防支架再狭窄的发生。     

Novel stent and delivery systems for the treatment of bifurcation lesions: porcine coronary artery model.

BACKGROUND: In percutaneous treatment of bifurcation coronary lesions, side-branch restenosis remains a significant limitation in current therapeutic approaches. Coronary stents with a side aperture and a sleeve may be clinically advantageous to maintain access to side branch, stabilize the side-branch orifice, and deliver the appropriate drug to the side-branch ostium. METHODS: A novel stent system (PETAL stent; Advanced Stent Technologies, Pleasanton, CA), incorporating a side aperture with deployable struts, was compared within porcine coronary model to the prior stent version having only the side aperture (SLK-View stent). In six pigs, each stent was implanted either in the left anterior descending coronary artery or the left circumflex coronary artery with adjunctive kissing balloon dilatation. At 28-day follow-up, coronary angiography was performed. RESULT: A total of six SLK-View stents and six PETAL stents were implanted in coronary arteries without any complication, and adjunctive kissing balloon dilatations were successful in all lesions. Quantitative coronary angiography (QCA) data at 28 days showed that PETAL stents exhibited superior QCA in mean diameter compared with SLK-View stents for side branch, inferring efficacy of PETAL ostial struts. CONCLUSION: AST-PETAL stent has the potential to be a new solution for treatment of bifurcation lesions. Antirestenosis drug elution should be considered with this successful platform.     

Experimental efficacy of an everolimus eluting cobalt chromium stent.

INTRODUCTION: Rapamycin and its analogs are now being coated on different stent platforms, using different polymer matrices to prevent restenosis by impairing vascular smooth muscle cell proliferation and neointimal formation. METHODS: We evaluated the feasibility and compared the efficacy of biostable polymeric everolimus and sirolimus (CYPHER, Cordis) eluting stents in a porcine coronary model. Cobalt chromium balloon expandable stents (ML VISION, Guidant) were coated with a polymer containing everolimus (190 mug/cm(2)). Twelve pigs underwent placement of 36 oversized sirolimus (n = 12), everolimus (n = 12), and bare metal (cobalt chromium, n = 12) stents in the coronary arteries. RESULTS: At day 28, vessel injury scores were low (<0.25) and similar between each of the three test groups. The mean neointimal thickness was significantly lower in the everolimus- (0.13 +/- 0.07 mm, P = 0.02) and sirolimus-eluting stents (0.13 +/- 0.08 mm, P = 0.04) versus the bare metal stents (0.20 +/- 0.07 mm). The mean percent area stenosis was similar for the everolimus-eluting stents [(20.8 +/- 6.9)%] and the sirolimus-eluting stents [(20.8 +/- 7.6)%], and each was significantly less than that of bare metal stents [(26.1 +/- 7.8)%, P = 0.05]. CONCLUSION: Stent-based delivery of sirolimus and everolimus delivered via durable polymeric matrices are equally effective in the suppression of neointimal formation at day 28 in the porcine coronary model. Further study is necessary to document dose response and long-term comparative effects of these drug-eluting stents.     

Preventive effects of the heparin-coated stent on restenosis in the porcine model.

The coronary stent reduces acute coronary arterial occlusion and late restenosis during and after coronary intervention. However, stent thrombosis and restenosis are still major limitations in the widespread use of the coronary stent. Local drug delivery using the heparin-coated stent may be a new approach, which reduces the incidence of stent thrombosis and restenosis. In order to evaluate the effects of the heparin-coated stent on stent restenosis, heparin-coated stents were compared with control stents in a porcine coronary stent restenosis model. Stent overdilation injury (stent:artery = 1.3:1.0) was performed with bare Wiktor stents (group I, n = 10) and heparin-coated Wiktor stents (group II, n = 20; HEPAMED, Medtronics) in porcine coronary arteries. Follow-up quantitative coronary angiography (QCA) was performed at 4 weeks after stenting, and histo-pathologic assessments of stented porcine coronary arteries were compared in both groups. On QCA, percent diameter stenosis was significantly higher in group I than in group II (16.3% +/- 6.62% vs. 9.6% +/- 5.06%, P < 0.05). The injury score of stented porcine coronary arteries was the same in both groups (1. 26 +/- 0.23 vs. 1.20 +/- 0.22). The area of pathologic stenosis of the stented arteries was higher in group I than in group II (41.6% +/- 12.5% vs. 27.1% +/- 9.9%, P < 0.005). The neointimal area was higher in group I than in group II (4.58 +/- 1.41 mm(2) vs. 2.57 +/- 1.07 mm(2), P < 0.05). By immunohistochemistry, the proliferating cell nuclear antigen (PCNA) index was higher in group I compared with group II (11.2% +/- 6.75% vs. 6.3% +/- 4.14%, P < 0.05). The heparin-coated stent is effective in the prevention of late coronary stent restenosis in a porcine coronary stent restenosis model. This may be related to the inhibition of neointimal cell proliferation.     

Addition of cytochalasin D to a biocompatible oil stent coating inhibits intimal hyperplasia in a porcine coronary model

BACKGROUND: Polymer-based, drug-eluting stents, are currently under extensive investigation in the conquest against in-stent restenosis. Concern remains, however, about potential long-term lack of biocompatibility of the polymers used in these studies. Therefore, this study aimed to evaluate in porcine coronary arteries (1) the in vivo biocompatibility of a new natural, eicosapentaenoic acid oil stent-coating and (2) the efficacy of this coating in preventing in-stent restenosis when cytochalasin D--an inhibitor of actin filament formation, that interferes with cell proliferation and migration--was added. METHODS AND RESULTS: To assess in vivo biocompatibility of the oil coating, 15 bare and 15 oil-coated stents were randomly deployed in coronary arteries of 15 pigs. No difference in tissue response, regarding inflammation or proliferation, was seen between both groups at five days or at four weeks follow-up. To evaluate the efficacy of the coating in preventing in-stent restenosis by adding a potential anti-restenotic drug, stents were dip-coated in 20 mg cytochalasin D/ml oil solution, resulting in 93 +/- 18 microg cytochalasin D/stent load (n = 3). In vitro drug release studies showed sustained release up to four weeks. Next, 11 oil-coated and 11 cytochalasin D-loaded stents were randomly implanted in coronary arteries of 11 pigs. At four weeks, a 39% decrease in neointimal hyperplasia (p < 0.05, ANCOVA, with injury as covariate) was found in cytochalasin D-loaded stents compared to oil-coated stents. CONCLUSIONS: This new natural oil stent-coating shows excellent biocompatibility to vascular tissue. Local cytochalasin D delivery from this stent-platform significantly inhibits neointimal hyperplasia in a porcine coronary model.     

Phosphorylcholine-coated stents in porcine coronary arteries: in vivo assessment of biocompatibility

AIMS: To examine the angiographic (quantitative coronary angiography), morphometric, light microscopic (LM) (i.e., histology and immunohistochemical staining) and electron microscopic (EM) findings after implantation of phosphorylcholine (PC)-coated compared to uncoated stents in porcine coronary arteries. METHODS: Forty (25 PC-coated, 15 uncoated) divYsio stents were implanted into the coronary arteries of 20 pigs. Quantitative coronary angiography (QCA) was performed pre-stent and post-implantation in fifteen pigs, at 28 days. Two pigs were killed at 5 days (LM and scanning EM), one pig at 14 days (scanning EM) and 17 pigs at 28 days (LM, scanning EM, transmission EM). At 28 days, thirty-two of 34 stented segments excised were formalin-fixed, of which 30 were embedded in resin and sectioned for morphometry and LM. Remaining stents were examined by TEM and SEM. RESULTS: No angiographically occlusive thrombosis occurred in any of the stents. LM at 5 days showed endothelialization of PC-coated and uncoated stents, which was also confirmed by scanning EM at 14 days. At 28 days, QCA and morphometry showed no significant differences between PC-coated and uncoated stents. A few inflammatory cells were seen in both stent types at 5 days but there was no inflammatory or additional tissue reaction to PC-coated compared to uncoated stents at 28 days. CONCLUSIONS: The divYsio stents, with or without PC coating, performed equally well in terms of acute patency, 28-day QCA and morphometry. The PC coating allows a stent to endothelialize normally and is not associated with specific histological changes. The PC coating on the divYsio stent appears biocompatible.     

聚丙交酯-乙交酯涂层-钴基合金雷帕霉素洗脱支架对猪冠状动脉新生内膜增生的影响

目的:评价钴基合金支架平台、聚丙交酯-乙交酯(PLGA)聚合物作为携带雷帕霉素涂层的新型支架的抗内膜增殖的有效性及安全性。方法:随机在7头微型猪的3支冠状动脉置入钴基合金PLGA涂层支架(Cob-POS组)、钴基合金PLGA涂层雷帕霉素洗脱支架(Cob-SES组)、不锈钢雷帕霉素药物洗脱支架(gen1-SES组),记录支架释放前后的冠状动脉造影图像。3个月后,冠状动脉造影复查后处死动物,分离支架段血管行组织病理学分析。结果:6只动物存活,1只动物于支架释放过程中死亡,死因可能为麻醉剂所致的呼吸抑制。3组(n=6)支架段血管组织学评价示,与gen1-SES组比较,Cob-SES组新生内膜面积和最大内膜厚度均明显减少。Cob-POS和Cob-SES组支架内狭窄程度与gen1-SES组比较,均差异有统计学意义(P<0.05)。组织形态学示3组支架段血管损伤积分、炎症积分、再内皮化积分差异无统计学意义。结论:在猪冠状动脉支架模型中,钴基合金平台、PLGA涂层的支架设计显示出良好的生物相容性和安全性;携带雷帕霉素的这种支架显示出比第一代雷帕霉素支架更佳的抑制内膜增生的能力。     

Paradoxical effects of aurintricarboxylic acid and RG-13577: acute thrombosis and in-stent stenosis in a passive-coated stent.

PURPOSE: To investigate if a platelet inhibitor (aurintricarboxylic acid [ATA]) and a heparin-mimicking antagonist (RG-13577) of basic fibroblast growth factor 2 (bFGF2) could be combined as a stable compound and attached to conventional bare metal stents to hinder thrombus formation and inflammatory reactions of stenting. METHODS: Fifteen domestic pigs were stented with RG-13577/ATA-coated (n=6), ATA-coated (n=12), and bare metal stents (n=12) in the left anterior descending (LAD) and left circumflex (LCX) coronary arteries. All surviving pigs were evaluated with contrast angiography and intravascular ultrasonography (IVUS) after 4 weeks. Histological analysis of the stented arteries was performed after hematoxylin-eosin staining. Tissue factor (TF) staining and scanning electron microscopy (SEM) were performed in animals with acute stent thrombosis. RESULTS: Five of the 6 animals receiving an RG-13577/ATA-coated stent experienced acute stent thrombosis, while no adverse events occurred in the animals of the other 2 groups. Follow-up angiography did not show significant in-stent stenosis in either bare or ATA-coated stents. However, histomorphometry revealed larger neointimal area (3.54+/-0.69 mm2 versus 1.82+/-0.27 mm2, p<0.05) and outward plaque area (1.56+/-0.34 mm2 versus 0.61+/-0.12 mm2, p<0.05) in ATA-coated stents. Three-dimensional IVUS analysis showed analogous results, with significantly larger neointimal volume and outward plaque volume in ATA-coated stents. There was a slight increase in TF staining around the stent struts, while SEM showed increased platelet adhesion and activity in RG-13577/ATA-coated stents versus the ATA-coated and bare metal stents. CONCLUSION: RG-13577/ATA-coated stents lead to acute stent thrombosis. The ATA coating alone did not lead to acute events, but resulted in higher neointimal hyperplasia and expansive remodeling. These results underline the importance of preclinical studies before using new coated stents in human arteries.     

Pimecrolimus and dual pimecrolimus-paclitaxel eluting stents decrease neointimal proliferation in a porcine model.

OBJECTIVES AND BACKGROUND: The purpose of this study was to determine the effectiveness and vascular response of a pimecrolimus drug eluting stent and a combination (pimecrolimus + paclitaxel) stent as compared with bare metal controls in the porcine coronary model. METHODS AND RESULTS: In the first phase of the study, cobalt chromium stents were loaded with an erodible polymer and either a slow release or a fast release formulation of pimecrolimus. Thirty stents (metal, n = 10; pimecrolimus slow, n = 10; pimecrolimus fast, n = 10) were implanted in the coronary arteries of 10 pigs. At 30 days, neointimal proliferation and inflammation were both significantly less in the pimecrolimus fast release group as compared with the bare metal controls. Endothelialization was complete and equal in all three groups of stents. In the second phase of the study, stents were loaded with an erodible polymer with alternating reservoirs of paclitaxel and pimecrolimus. Twenty stents (8 control stents and 12 dual stents) were implanted in the coronary arteries of seven pigs. At 30 days, neointimal proliferation was significantly less in the dual drug group as compared with the bare metal controls. Endothelialization was complete in both groups of stents, suggesting complete healing of the arteries. CONCLUSIONS: In a 30-day porcine stent model, pimecrolimus inhibits neointimal proliferation as compared with bare metal stents. Also, the proof of concept of a dual drug eluting stent was established showing both safety and efficacy.     

Evaluation of the biocompatibility of two new diamond-like stent coatings (Dylyn) in a porcine coronary stent model

Hydrogenated diamond-like carbon films (DLC, a-C:H), deposited using plasma-assisted or ion beam-assisted techniques, offer great potential as self-lubricating coatings in many tribological applications. Additionally, studies on biocompatibility have shown that DLC is an inert, impervious hydrocarbon with properties suitable for use in the biomedical field. One particular class of modified DLC coatings are diamond-like nanocomposite coatings (DLN or Dylyn , Bekaert, Kortrijk, Belgium), which offer promising solutions for many industrial applications. In this study, the biocompatibility of two diamond-like stent coatings are evaluated in a porcine coronary stent model. METHODS: Either coated or non-coated stents were randomly implanted in two coronary arteries of 20 pigs so that each group contained 13 stented arteries. Pigs underwent a control angiogram at 6 weeks and were then sacrificed. Quantitative coronary analysis before, immediately after stent implantation, and at 6 weeks was performed using the semi-automated Polytron 1000 system (Siemens, Erlangen, Germany). Morphometry was performed using a computerized morphometric program. Angiographic analysis showed similar baseline selected arteries and post-stenting diameters. At 6-week follow-up, there was no significant difference in minimal stent diameter. Histopathology revealed a similar injury score in the 3 groups. Inflammation was significantly increased in the DLN-DLC coating group. Thrombus formation was significantly decreased in both coated stent groups. Neointimal hyperplasia was decreased in both coated stent groups; however, the difference with the non-coated stents was not statistically significant. Area stenosis was lower in the DLN-coated stent group than in the control group (41 +/- 17% vs. 54 +/- 15%; p = 0.06). CONCLUSION: The results indicate that the diamond-like nanocomposite stent coatings are compatible, resulting in decreased thrombogenicity and decreased neointimal hyperplasia. Covering this coating with another diamond-like carbon film (DLC) resulted in an increased inflammatory reaction and no additional advantage compared to the single-layer diamond-like nanocomposite coating.     

Low-energy gamma-emitting stents inhibit intimal hyperplasia with minimal "edge effects" in a pig coronary artery model.

PURPOSE: The objective of this study was to determine the effects of different doses of gamma-emitting radioactive stents on intimal hyperplasia in a porcine coronary stent model at 28 days. METHODS: Sixty-four bare stents and those coated with palladium-103 [activities of 0 (control), 0.5, 1.0, 2.0, and 4.0 mCi] were implanted in the coronary arteries of 32 pigs. Stented segments were evaluated by histomorphometry at 28 days. RESULTS: There was significantly more intima in the 0.5- and 1-mCi stents than in controls (4.27+/-0.52 and 4.71+/-1.13 vs. 1.71+/-0.61 mm(2); P<.0001). Neointimal formation in 2-mCi stents was similar to that in controls, while that in 4-mCi stents was reduced compared to that in controls (2.34+/-1.61 and 0.82+/-0.25 vs. 1.71+/-0.61 mm(2); P=NS and P<.05, respectively). Stent margin neointimal response was representative of that within the stent body, with nonsignficant modest increases in intimal area at adjacent nonstented segments in radioactive stent groups. There was a dose-dependent increase in inflammation scores. Radioactive stents had lower intimal smooth muscle and higher fibrin scores. There was an increase in adventitial fibrosis in 1- and 2-mCi stents versus controls (1.26+/-0.99, and 2.25+/-1.27 vs. 0.21+/-0.31; P<.001). CONCLUSION: Dose-response inhibition of in-stent hyperplasia with minimal "edge effects" occurs with low-energy gamma-emitting stents. An increased inflammatory response at higher doses in palladium-103 stents indicates that later follow-up studies are necessary.     

可降解聚乳酸涂层西罗莫司洗脱支架在小型猪冠状动脉模型中的实验研究

目的评价新型L605钴铬合金平台可降解聚乳酸共聚物载体西罗莫司药物洗脱支架（bioabsorbable polymeric sirolimus-eluting stent,BPSES）在小型猪冠状动脉抑制新生内膜增殖的有效性和安全性。方法金属裸支架（bare mental stent,BMS）18枚、单纯可降解聚乳酸共聚物涂层支架（bioabsorbable polymer-only stent,BPOS）18枚以及BPSES 18枚被分别随机置入18头小型猪的前降支（18枚）、回旋支（18枚）以及右冠状动脉（18枚）。置入28天和90天,复查冠状动脉造影评价管腔丢失。置入7天、28天以及90天处死部分动物行塑料包埋硬组织切片染色组织形态学分析。结果置入28天及90天,BPSES与BMS相比,显著降低管腔丢失（28天0.54±0.45 mm比1.11±0.45mm,P=0.048;90天0.42±0.34 mm比0.96±0.41 mm,P=0.024）。在损伤积分相似的情况下,置入28天时BPSES较BMS新生内膜面积明显减少（0.90±0.40 mm2比1.88±0.71 mm2,P=0.015）,而在90天时亦叮见此趋势,7天、28天和90天BPSES和BPOS炎症反应及内皮化程度与BMS相似。结论BPSES在置入小型猪冠状动脉28天后,可以安全有效地抑制新生内膜增殖,90天时亦可见此趋势。