Treatment of small coronary arteries with a paclitaxel-coated balloon catheter

Long-term outcomes of DCB and DES for the treatment of in-stent restenosis in relation to the vessel size

BACKGROUND

Percutaneous coronary intervention (PCI) with drug-coated balloons (DCB) or drug-eluting stents (DES) are well-established treatments for in-stent restenosis, however little is known about the impact of vessel size on the outcomes. The study aimed to evaluate the efficacy and safety profile of DCB versus DES in DES in-stent restenosis depending on the vessel size.

METHODS

Consecutive patients with DES in-stent restenosis who underwent PCI between January 2010 and February 2018 entered the registry with a long-term follow-up. Patients who received DCB at the index procedure were compared with those who received DES in three subgroups depending on the vessel size (≤2.5 mm; 2.5-3.5 mm; >3.5 mm). Data were analyzed using propensity score matching and Kaplan-Meier estimator plots.

RESULTS

Among 1,374 patients with DES in-stent restenosis, 615 were treated with DES and 759 with DCB. After propensity score matching, we analyzed 752 patients in the DES and DCB groups at a long-term follow-up. The risk of DOCE did not differ significantly between the DES and DCB groups, both in the overall population (HR 0.85; 95%CI [0.58; 1.26], log-rank p = 0.41) and when divided into small (HR 0.84; 95%CI [0.36; 1.95], log-rank p = 0.70), medium-sized (HR 0.90; 95%CI [0.49; 1.65], log-rank p = 0.73), and large-sized (HR 0.81; 95%CI [0.42; 1.53], log-rank p = 0.50) coronary arteries. The incidence of all-cause death was significantly higher in the overall DES population (HR 4.03; 95%CI [2.40; 6.79], log-rank p < 0.001) and subgroup of small (HR 5.54; 95%CI [1.80; 17.02], log-rank p = 0.003), medium-sized (HR 4.37; 95%CI [1.92; 9.94], log-rank p = 0.009) and large-sized coronary arteries (HR 3.26; 95%CI [1.35; 7.86], log-rank p = 0.02).

CONCLUSIONS

DES and DCB strategies are comparable methods of treating ISR regardless of the diameter of the treated vessel in a long-term follow-up.

Comprehensive clinical outcomes of drug-coated balloon treatment for coronary artery disease. Insights from a single-center experience

BACKGROUND

Some clinical trials have verified the efficacy and safety of paclitaxel drug-coated balloon (DCB) for small vessel coronary artery disease. However, nonsmall vessel and calcified lesions received less attention.

AIMS

This study aimed to investigate the efficacy of DCB treatment for various types of coronary artery lesions, including not only small vessel disease but also nonsmall vessel disease and calcified lesions. In this real-world clinical practice study, in-stent restenosis was excluded.

METHODS

This study consecutively included 934 patients with 1751 nonstented lesions who received DCB at a cardiovascular center in Kyoto Katsura Hospital in Japan between 2009 and 2012 and 2014 to 2019. This study enrolled and retrospectively analyzed all of the patients. Eligible patients routinely underwent follow-up angiography at 6-8 months after percutaneous coronary intervention. The primary endpoint includes target lesion revascularization (TLR) during follow-up. Further, this study calculated the predictor of TLR using multivariate analysis.

RESULTS

This study included the lesions involving 46.4% of type B2/C, 26.9% with severe calcification, and 6.0% with DCB restenosis. Mean DCB diameter and length were 2.75 ± 0.51 mm and 24.2 ± 9.6 mm, respectively. The median follow-up duration was 18 months. Follow-up angiography revealed a TLR rate of 9% and a restenosis rate of 9%. This study identified hemodialysis and current smoking as independent TLR predictors.

CONCLUSION

In routine clinical practice, the effectiveness of DCB was observed consistently across various types of coronary artery disease.

Comparison of Drug-Coated Balloon and Drug-Eluting Stent for the Treatment of Small Vessel Disease (from the Dissolve SVD Randomized Trial)

The Dissolve drug-coated balloons (DCBs) is a new-generation DCB coated with paclitaxel of balloon surface, with midchain triglyceride excipient. Although the use of DCBs is a promising technique, little is known about the the clinical efficacy of the novel Dissolve DCB in coronary small vessel disease. This study was a prospective, randomized, multicenter, noninferiority trial comparing the Dissolve DCB with the Resolute drug-eluting stent (DES) in patients with a reference vessel diameter ≥2.25 and ≤2.75 mm. Patients with a reference vessel diameter ≥2.00 and <2.25 mm were enrolled in the very small vessel registry. The angiographic and clinical follow-up were planned at 9 months and 1 year in all patients, respectively. The primary end point was 9-month in-segment percentage diameter stenosis. A total of 247 patients with small vessel disease from 10 Chinese sites were included (Dissolve DCB, n = 118; Resolute DES, n = 129); 30 patients were treated with the DCB in the very small vessel cohort. The 9-month in-segment percentage diameter stenosis was 31.2 ± 2.0% with Dissolve DCB versus 26.1 ± 2.1% with Resolute DES; the 1-sided 97.5% upper confidence limit of the difference was 10.3% (p for noninferiority = 0.0002). At 12 months, the DCB and DES groups were associated with similar rates of target lesion failure (8.5% vs 6.1%, p = 0.28) and major adverse cardiac and cerebrovascular events (20.9% vs 13.6%, p = 0.12). In conclusion, the Dissolve DCB was noninferior to the Resolute DES for the primary end point of 9-month in-segment percentage diameter stenosis in this multicenter, head-to-head, randomized trial (a safety and efficacy study of Dissolve In Treatment Of Coronary Small Vessel Disease; NCT03376646).

A Prospective Randomized Trial Comparing Sirolimus-Coated Balloon With Paclitaxel-Coated Balloon in De Novo Small Vessels

BACKGROUND

There are no data comparing sirolimus-coated balloons (SCBs [MagicTouch, Concept Medical]) to paclitaxel-coated balloons (PCBs [SeQuent Please Neo, B. Braun]) for the treatment of de novo small vessel disease (SVD).

OBJECTIVES

This study sought to compare quantitative coronary angiographic outcomes at 6 months after treatment of de novo SVD with a PCB or SCB.

METHODS

This prospective, multicenter, noninferiority trial randomized 121 patients (129 SVD lesions) to treatment with an SCB or PCB, with balloon sizing determined using optical coherence tomography. The primary endpoint was noninferiority for the 6-month angiographic net lumen gain.

RESULTS

Angiographic follow-up was completed in 109 (90.1%) patients in the per-protocol analysis. The mean ± SD angiographic net gains were 0.25 ± 0.40 mm with SCBs vs 0.48 ± 0.37 mm with PCBs, resulting in SCBs failing to meet the 0.30 mm criterion for noninferiority (Pnoninferiority = 0.173), with an absolute difference of -0.23 mm (95% CI: -0.37 to -0.09) secondary to a smaller late loss (0.00 ± 0.32 mm vs 0.32 ± 0.47 mm; P < 0.001) and more frequent late lumen enlargement (53.7% vs 30.0%; OR: 2.60; 95% CI: 1.22-5.67; P = 0.014) with PCBs. Binary restenosis rates were 32.8% and 12.5% following treatment with SCBs and PCBs, respectively (OR: 3.41; 95% CI: 1.36-9.44; P = 0.012). The mean angiography-derived fractional flow ratio at follow-up was 0.86 ± 0.15 following treatment with SCBs and 0.91 ± 0.09 following PCBs (P = 0.026); a fractional flow ratio ≤0.80 occurred in 13 and 5 vessels after treatment with SCBs and PCBs, respectively.

CONCLUSIONS

The SCB MagicTouch failed to demonstrate noninferiority for angiographic net lumen gain at 6 months compared to the PCB SeQuent Please Neo.

Drug-coated balloon: an effective alternative to stent strategy in small-vessel coronary artery disease-a meta-analysis

Background

Small-vessel coronary artery disease (CAD) is frequently observed in coronary angiography and linked to a higher risk of lesion failure and restenosis. Currently, treatment of small vessels is not standardized while having drug-eluting stents (DES) or drug-coated balloons (DCBs) as possible strategies. We aimed to conduct a meta-analytic approach to assess the effectiveness of treatment strategies and outcomes for small-vessel CAD.

Methods

Comprehensive literature search was conducted using PubMed, Embase, MEDLINE, and Cochrane Library databases to identify studies reporting treatment strategies of small-vessel CAD with a reference diameter of ≤3.0 mm. Target lesion revascularization (TLR), target lesion thrombosis, all-cause death, myocardial infarction (MI), and major adverse cardiac events (MACE) were defined as clinical outcomes. Outcomes from single-arm and randomized studies based on measures by means of their corresponding 95% confidence intervals (CI) were compared using a meta-analytic approach. Statistical significance was assumed if CIs did not overlap.

Results

Thirty-seven eligible studies with a total of 31,835 patients with small-vessel CAD were included in the present analysis. Among those, 28,147 patients were treated with DES (24 studies) and 3,299 patients with DCB (18 studies). Common baseline characteristics were equally distributed in the different studies. TLR rate was 4% in both treatment strategies [0.04; 95% CI 0.03-0.05 (DES) vs. 0.03-0.07 (DCB)]. MI occurred in 3% of patients receiving DES and in 2% treated with DCB [0.03 (0.02-0.04) vs. 0.02 (0.01-0.03)]. All-cause mortality was 3% in the DES group [0.03 (0.02-0.05)] compared with 1% in the DCB group [0.01 (0.00-0.03)]. Approximately 9% of patients with DES developed MACE vs. 4% of patients with DCB [0.09 (0.07-0.10) vs. 0.04 (0.02-0.08)]. Meta-regression analysis did not show a significant impact of reference vessel diameter on outcomes.

Conclusion

This large meta-analytic approach demonstrates similar clinical and angiographic results between treatment strategies with DES and DCB in small-vessel CAD. Therefore, DES may be waived in small coronary arteries when PCI is performed with DCB.

Drug Coated Balloon in the Treatment of De Novo Coronary Artery Disease: A Narrative Review

Drug coated balloons (DCBs) are currently indicated in guidelines as a first choice option in the management of instant restenosis, whereas their use in de novo lesions is still debated. The concerns raised after the contrasting results of the initial trials with DCBs in de novo lesions have been more recently overcome by a larger amount of data confirming their safety and effectiveness as compared to drug-eluting stents (DES), with potentially greater benefits being achieved, especially in particular anatomical settings, as in very small or large vessels and bifurcations, but also in selected subsets of higher-risk patients, where a 'leave nothing behind' strategy could offer a reduction of the inflammatory stimulus and thrombotic risk. The present review aims at providing an overview of current available DCB devices and their indications of use based on the results of data achieved so far.

Predictors of bail-out stenting in patients with small vessel disease treated with drug-coated balloon percutaneous coronary intervention

BACKGROUND

Drug-coated balloons (DCBs) have shown comparable results with drug-eluting stents in small vessel disease (SVD) percutaneous coronary intervention (PCI) in terms of target vessel revascularization and a reduced incidence of myocardial infarction. However, the relatively high rate of bail-out stenting (BOS) still represents a major drawback of DCB PCI.

AIMS

The aim of the study was to investigate the clinical, anatomic, and procedural features predictive of BOS after DCB PCI in SVD.

METHODS

We included all consecutive patients undergoing PCI at our institution between January 2020 and May 2022 who were treated with DCB PCI of a de novo lesion in a coronary vessel with a reference vessel diameter (RVD) between 2.0 and 2.5 mm. Angiographic success was defined as a residual stenosis <30% without flow-limiting dissection. Patients who did not meet these criteria underwent BOS.

RESULTS

A total of 168 consecutive patients and 216 coronary stenoses were included. The rate of bail-out stent was 13.9%. On multivariate analysis, DCB/RVD ratio (odds ratio [OR]: 4.39, 95% confidence interval [CI]: 1.71-11.29, p < 0.01), vessel tortuosity (OR: 7.00, 95% CI: 1.66-29.62, p < 0.01), distal vessel disease (OR: 5.66, 95% CI: 2.02-15.83, p < 0.01), and high complexity (Grade C of ACC/AHA classification) coronary stenoses (OR: 6.31, 95% CI: 1.53-26.04, p = 0.01) were independent predictors of BOS.

CONCLUSIONS

BOS is not an infrequent occurrence in DCB PCI of small vessels and is correlated with vessel tortuosity, distal diffuse vessel disease, higher lesion complexity, and balloon diameter oversizing.

Coronary Drug-Coated Balloons for De Novo and In-Stent Restenosis Indications

Drug-coated balloons are approved outside the United States, not only for the treatment of peripheral arteries but also for coronary arteries. This review describes the technological basics, the scenarios of clinical application, and the current available data from clinical trials for the different coronary indications.

Small-vessel Coronary Angioplasty – Past, Present, and Future

Small-vessel disease (SVD) is an important subset of the population with coronary artery disease which may account for up to 30–70% according to different series. The challenges of SVD interventions are first to detect the true small-vessel size along with the true length of the lesion by intravascular imaging, then to decide about the interventional strategies as there is difficulty in delivering the stent to the lesion, dissections, under expansions of the stent during percutaneous coronary intervention with increased incidence of restenosis, and need for revascularization on the long term as well. Special attention is to be paid to this subset of patients of SVD as the treatment strategies need to be improvised than simple balloon dilatation or stenting with drug-eluting stents. At present, drug-coated or eluting balloon emerging as an improvised strategy for treating these patients with intravascular imaging. This article concentrates on the latest updates in SVD treatment.

Novel application of drug-coated balloons in coronary heart disease: A narrative review

The incidence of coronary heart disease (CAD) has soared over the years, and coronary intervention has become an increasingly important therapeutic approach. The past decade has witnessed unprecedented developments in therapeutic medical instruments. Given that drug-coated balloons bring many benefits, they are indicated for an increasing number of conditions. In this article, we review the results of current clinical trials about drug-coated balloons and summarize their safety and clinical progression in different coronary artery diseases, laying the groundwork for basic research, and clinical therapeutics of this patient population.

Small Vessel Coronary Artery Disease: Rationale for Standardized Definition and Critical Appraisal of the Literature

Small vessel coronary artery disease (CAD) is present in 30% to 67% of patients undergoing percutaneous coronary intervention according to different series, representing an unmet clinical need in light of an increased risk of technical failure, restenosis, and need for repeated revascularization. The definition of small vessel is inconsistent across trials, and no definite cutoff value has yet been determined. The lack of consensus on the definition of small vessel CAD has contributed to the high degree of heterogeneity in the safety and efficacy of the various revascularization options. Therefore, the aim of this article is to provide a critical appraisal of existing reports and to propose a reference vessel diameter of <2.5 ​mm definition of small vessel CAD to guide future clinical trials and clinical decision-making.

Impact of directional coronary atherectomy followed by drug-coated balloon strategy to avoid the complex stenting for bifurcation lesions

Although the simple single stenting rather than complex double stenting is recommended on percutaneous coronary intervention (PCI) for bifurcation lesions, double stenting cannot always be avoided. We investigated the impact of directional coronary atherectomy (DCA), followed by drug-coated balloon (DCB) treatment to reduce the number of stents and avoid complex stenting in PCI for bifurcation lesions and short-term patency. DCA treatment without stents was attempted for 27 bifurcation lesions in 25 patients, of those, 26 bifurcation lesions in 24 patients were successfully treated and 3-month follow-up angiography and optical coherence tomography (OCT) were performed. Sixteen lesions (59.3%) were related to left main trunk distal bifurcations, and 7 (25.9%) were true bifurcation lesions. Among the true bifurcation lesions, 4 lesions (57.1%) needed 1 stent, and the other 3 lesions (42.9%) needed no stents. Among the non-true bifurcation lesions, 1 lesion (5.0%) needed bailout stent and other lesions (95.0%) needed no stents. According to DCA followed by DCB treatment, the angiographic mean diameter stenosis improved from 65.5 ± 15.0% to 7.8 ± 9.8%, and the mean plaque area in intravascular ultrasound improved from 80.4 ± 10.5% to 39.0 ± 11.5%, respectively. Angiographic and OCT late lumen loss values were 0.2 ± 0.6 mm and 1.4 ± 1.9 mm, respectively. No patient had in-hospital major adverse cardiac events (MACE) and 3-month MACE. In conclusion, compared with standard provisional side branch stenting strategy, DCA followed by DCB treatment might reduce the number of stents, avoid complex stenting for major bifurcation lesions and provide good short-term outcomes.

Drug-Coated Balloon-Only Angioplasty Outcomes in Diabetic and Nondiabetic Patients with De Novo Small Coronary Vessels Disease

Background

The revascularization of small vessels using drug-eluting stents remains challenging. The use of the drug-coated balloon is an attractive therapeutic strategy in de novo lesions in small coronary vessels, particularly in the diabetic group. This study aimed to assess the outcomes of DCB-only angioplasty in small vessel disease.

Methods

A total of 1198 patients with small vessel disease treated with DCB-only strategy were followed. Patients were divided into the diabetic and nondiabetic groups. Clinical and angiographical follow-up were organized at 12 months. The primary endpoints were target lesion failure and secondary major adverse cardiac events.

Results

There was a significantly higher rate of target lesion failure among diabetic patients compared to nondiabetic [17 (3.9%) vs. 11 (1.4%), P=0.006], taken separately, the rate of target lesion revascularization significantly differed between groups with a higher rate observed in the diabetic group [9 (2%) vs. 4 (0.5%), P=0.014]. Diabetes mellitus remained an independent predictor for TLF (HR: 2.712, CI: 1.254–5.864, P=0.011) and target lesion revascularization (HR: 3.698, CI: 1.112–12.298, P=0.033) after adjustment. However, no significant differences were observed between groups regarding the target vessel myocardial infarction (0.6% vs. 0.1%, P=0.110) and MACE [19 (4.4%) vs. 21 (2.7%), P=0.120].

Conclusion

Drug-coated balloon-only treatment achieved lower incidence rates of TLF and MACE. Diabetes is an independent predictor for target lesion failure and target lesion revascularization at one year following DCB treatment in small coronary vessels. We observed no significant differences between groups regarding MACE in one year.

A randomized comparison of a novel iopromide-based paclitaxel-coated balloon Shenqi versus SeQuent Please for the treatment of in-stent restenosis

BACKGROUND

Treatment of coronary in-stent restenosis (ISR) remains challenging in contemporary clinical applications. Drug-coated balloon (DCB) angioplasty offers an effective treatment for ISR. Shenqi is a novel iopromide-based paclitaxel-coated balloon and its clinical safety, effectiveness and angiographic efficacy in patients with ISR have not been investigated.

METHODS

A total of 216 subjects with the first occurrence of ISR at 11 investigational sites in China were randomly allocated in a 1:1 fashion to treatment with DCB SeQuent Please or Shenqi. Clinical follow-up was planned at 1, 6, 9 and 12 months, and angiographic follow-up was planned at 9 months. The study was powered for the primary endpoint of 9-month in-segment late loss.

RESULTS

At 9-month follow-up, the in-segment late loss was 0.29 ± 0.43 mm with Shenqi versus 0.30 ± 0.46 mm with SeQuent Please, and the one-sided 97.5% upper confidence limit of the difference was 0.14 mm, achieving noninferiority of Shenqi compared with SeQuent Please (P = 0.002). In total, 12 patients developed target lesion failure (TLF) in the Shenqi group compared with 16 patients in the SeQuent Please group (10.91% versus 15.09%; P = 0.42) within 1 year. TLF was mainly driven by target lesion revascularization (9.09%) followed by target vessel-related myocardial infarction (1.82%) and cardiovascular death (0.91%) in the Shenqi group.

CONCLUSIONS

Shenqi DCB was noninferior to SeQuent Please DCB for the primary endpoint of 9-month in-segment late loss. Shenqi DCB may become an attractive alternative treatment for patients with coronary ISR, withholding the need for additional stent implantation.

Clinical outcomes of drug-coated balloon in coronary lesions: a real-world, all-comers study

BACKGROUNDS

Although drug-eluting stents are the most common interventional devices for patients with coronary disease, drug-coated balloons (DCBs) represent a novel therapeutic alternative in certain scenarios. This prospective, observational all-comers study explored the clinical outcomes of DCB use in patients with coronary lesions.

METHODS AND RESULTS

All patients treated with DCBs were enrolled in this study, including patients with in-stent restenosis (ISR) or de novo lesions. The primary outcome was the target lesion revascularization (TLR) rate at one year. We enrolled 2306 patients with 2660 lesions and performed DCB angioplasty in 399 patients (17.3%) with ISR and 1907 patients (82.7%) with de novo lesions. During follow-up (366 ± 46 days), the TLR rate was lower in the de novo lesion group (1.31%) compared to the ISR group (7.02%) [odds ratio (OR) 0.176, 95% confidence interval (CI) 0.101-0.305, p < 0.001]. Patients with de novo lesions had a lower yearly incidence of MACE compared to ISR patients (2.73 vs. 9.27%, respectively, OR 0.274, 95% CI 0.177-0.424, p < 0.001) and a lower incidence of any revascularization (5.09 vs. 13.03%, OR 0.358, 95% CI 0.251-0.510, p < 0.001). No significant differences between groups were observed in the rates of cardiac death (OR 0.783, 95% CI 0.258-2.371, p = 0.655) or MI (OR 0.696, 95% CI 0.191-2.540, p = 0.573).

CONCLUSIONS

DCB angioplasty in this all-comers, real-world, prospective study was safe and efficient with low TLR and MACE rates. Thus, DCB appears to be an attractive alternative for the stent-less treatment of de novo coronary lesions. ISR in-stent restenosis; OR odds ratio; CI confidence interval; TLR target lesion revascularization; MACE major adverse cardiovascular events; MI myocardial infraction. MACE defined as the composite outcome of cardiac death, myocardial infarction, and target vessel revascularization. Any revascularization includes any percutaneous coronary intervention, and coronary artery bypass grafting.

Outcomes after drug-coated balloon interventions for de novo coronary lesions in the patients on chronic hemodialysis

The impact of drug-coated balloon (DCB) on hemodialysis (HD) patients with coronary lesions remains unclear. This study aimed to compare outcomes after DCB treatment between HD and non-HD patients with de novo coronary lesions. A total of 235 consecutive patients who electively underwent DCB treatment for de novo coronary lesions were included (HD group: n = 100; non-HD group: n = 135). Angiographic follow-up was performed 6 months after the procedure. Patients were clinically followed up for 2 years. The incidence rates of target lesion revascularization (TLR) and major adverse cardiac events (MACE) were investigated. Diabetes and a history of coronary bypass grafting were more frequent in the HD group than in the non-HD group (69.0% vs. 50.7%, p = 0.007, and 24.0% vs 9.1%, p = 0.013, respectively). The reference diameter and pre-procedural diameter stenosis were greater in the HD group than in the non-HD group (2.49 mm vs. 2.24 mm, p = 0.007, and 65.9% vs. 59.6%, p = 0.015, respectively). Calcification was observed in 65.5% of all lesions, and rotational atherectomy was performed in 30.2% patients. The average diameter of the DCB was 2.51 mm (2.57 mm, HD group vs. 2.47 mm, non-HD group, p = 0.14). Although post-procedural diameter stenosis was similar between the groups, late lumen loss on follow-up angiography was larger in HD patients than in non-HD patients (0.27 mm vs. - 0.03 mm, p = 0.0009). The 2-year rates of freedom from TLR and MACE were lower in HD patients than in non-HD patients [79.3% vs. 91.7%, hazard ratio (HR) 2.76, 95% confidence interval (CI) 1.23-6.77, p = 0.014; and 61.6% vs. 89.4%, HR 4.60, 95% CI 2.30-10.2, p < 0.001, respectively]. In conclusion, the rates of TLR and MACE after DCB treatment were higher in HD patients than in non-HD patients.

A Prospective Multicenter Randomized Trial to Assess the Effectiveness of the MagicTouch Sirolimus-Coated Balloon in Small Vessels: Rationale and Design of the TRANSFORM I Trial

AIMS

The objective of the study is to assess the efficacy and safety of the novel Magic Touch sirolimus coated-balloon (SCB) when compared to the SeQuent Please Neo paclitaxel coated balloon (PCB) for the treatment of de-novo small vessel coronary artery diseases (SVD).

STUDY DESIGN

The TRANSFORM I study is a randomized, multicenter, non-inferiority trial with the intent to enroll a total of 114 patients with a de-novo SVD (≤2.5 mm). Vessel size will be pre-screened by on-line QCA. After successful pre-dilatation without major coronary dissections (type C-F) nor Thrombolysis In Myocardial Infarction trial [TIMI] grade flow ≤2, patients will be enrolled in a 1:1 randomization to receive treatment with either the novel SCB balloon or the comparative PCB balloon. The balloon sizing will be selected according to the lumen-based approach derived from optical coherence tomography (OCT). The primary endpoint is 6-month mean net lumen diameter gain (6-month minimum lumen diameter [MLD] minus baseline MLD) assessed by quantitative coronary analysis (QCA) with non-inferiority margin of 0.3 mm in per-protocol analysis. The clinical follow-up will be conducted up to 1 year. The enrollment started in September 2020 and will complete in April 2021.

CONCLUSIONS

The TRANSFORM I trial will assess the efficacy of novel SCB in terms of non-inferiority to conventional PCB with a novel OCT measurement approach in patients with a de-novo SVD. Clinical Trial Registration URL: https://clinicaltrials.gov. Unique identifier: NCT03913832.

Long term outcome after treatment of de novo coronary artery lesions using three different drug coated balloons

OBJECTIVE

To evaluate the long-term efficacy of three currently available drug coated balloons (DCB) for the treatment of de-novo coronary lesions.

METHODS

This was a retrospective analysis of prospectively collected data from the Swedish Coronary Angiography and Angioplasty Registry. Between 2009 and 2017, three currently available DCB brands used in the treatment of de novo lesions were included. Outcomes were clinically driven restenosis and target lesion thrombosis (TLT) (per device) and major adverse cardiac events (MACE) including death, myocardial infarction or target vessel revascularization (per patient) at 4 years. Multivariable Cox regression models were used to adjust for differences.

RESULTS

We included 6715 lesions treated with DCBs, 4483 SeQuent® Please (S-DCB), 1071 IN.PACT Falcon (I-DCB) and 1161 Pantera® Lux (P-DCB), in 5670 patients. The mean DCB diameter was 2.4 mm. Bailout stenting occurred in 6.7% of lesions. Angiographic success was 98.5%. The overall cumulative rate of restenosis was 5.5% (299 events). The risk for reported restenosis did not significantly differ between I-DCB vs S-DCB, adjusted hazard ratio (aHR) 0.96; 95% confidence interval (CI) 0.69-1.34, P-DCB vs S-DCB aHR 0.88; 95% CI 0.63-1.23 and I-DCB vs P-DCB aHR 1.10; 95% CI 0.72-1.68. The cumulative risk for TLT was 0.8% in all three DCBs. The risk for MACE or individual components of MACE did not differ between the three patient-groups.

CONCLUSION

In de novo coronary lesions, we found comparable long-term efficacy with three currently available DCB brands. DCB angioplasty was feasible with low risk for long-term restenosis and TLT.

Drug-coated balloon versus drug-eluting stent in small coronary artery lesions: angiographic analysis from the BASKET-SMALL 2 trial

BACKGROUND

The randomized BASKET-SMALL 2 trial showed non-inferiority for treatment with drug-coated balloon (DCB) compared with drug-eluting stents (DES) in patients undergoing percutaneous coronary intervention (PCI) for de novo lesions in small coronary arteries regarding clinical endpoints at 1 year. In this predefined substudy, we investigated the angiographic findings in patients undergoing a clinically indicated follow-up angiography during the study phase.

METHODS

Eight-hundred and eighty-three patients underwent PCI with either DES or DCB in a culprit vessel < 3 mm in diameter for stable coronary artery disease or acute coronary syndrome. Event-driven re-angiographies and the corresponding images at baseline were analyzed for angiographic endpoints.

RESULTS

One-hundred and eleven patients (117 lesions, 66 DES versus 51 DCB) presented for an unscheduled re-angiography at median 5.7 months after the index procedure. At baseline, mean reference vessel diameter was 2.05 mm and the residual in-segment stenosis after the index procedure was less in DES compared to DCB (23.7% vs 33.8%, p = 0.001). At follow-up angiography, diameter stenosis in the DES group (29.0%) was still somewhat smaller than after DCB angioplasty (35.8%) when adjusting for time since PCI (p = 0.047), whereas lumen loss (LL) did not differ between the two treatment arms (LL-DES 0.06 mm vs LL-DCB 0.10 mm, p = 0.20). Eight patients following DES implantation presented with a complete occlusion of the target lesion compared to no occlusion in the DCB group (p = 0.009).

CONCLUSIONS

The clinically indicated follow-up angiography within 1 year showed no difference in LL. Complete thrombotic vessel occlusions were found only in the DES group.

CLINICAL TRIAL REGISTRATION

www.clinicaltrials.gov ; number, NCT01574534.

Drug-coated balloons for coronary artery disease: current concepts and controversies

Drug-coated balloons (DCBs) are a novel development for percutaneous coronary intervention. The first successful application was in-stent restenosis but in recent years, strong evidence has been released for its use in native small-vessels disease. Additional applications such as acute myocardial infarction, chronic total occlusion and bifurcation lesions are still under investigation. This article reviews the key studies evaluating the role of DCBs in several settings and reports on interesting cases where DCBs showed positive results for high-risk patients with neoplasm, as well as with high bleeding risk, planned surgery or renal injury. We also highlight a new biodegradable therapy for coronary bifurcation treatment, in which a bioresorbable vascular scaffold is implanted in the main branch, completed with a DCB angioplasty in the side branch when a treatment is deemed necessary.

Intravascular imaging analysis of a drug-eluting balloon followed by a bare metal stent compared to a drug-eluting stent for treatment of de novo lesions

BACKGROUND/AIMS

After a study comparing drug-eluting stents (DESs) to sequential treatment with drug-eluting balloons (DEBs) and bare metal stents (BMSs), we retrospectively analysed strut malapposition and neointimal hyperplasia in de novo coronary lesions using optical coherence tomography (OCT) or intravascular ultrasonography (IVUS).

METHODS

We obtained OCT data from 16 patients (eight per group) and IVUS data from 40 patients (20 per group). OCT or IVUS was performed after the index procedure and after 9 months. Parameters including obstruction volume due to neointimal hyperplasia (neointimal hyperplasia volume/stent volume, %), strut malapposition (% of malapposed struts), and intra-individual inhomogeneity of in-stent restenosis were compared.

RESULTS

Although obstruction volume due to neointimal hyperplasia was significantly higher in the DEB-BMS group (14.90 ± 15.36 vs. DES 7.03 ± 11.39, p = 0.025), there was no difference in strut malapposition between the two groups (DEB-BMS 1.99 ± 5.37 vs. DES 0.88 ± 2.22, p = 0.856). The DEB-BMS group showed greater intra-individual inhomogeneity of in-stent restenosis pattern than the DES group.

CONCLUSION

Treatment with DEB followed by BMS failed to improve strut malapposition despite higher in-stent neointimal growth, probably because of the inhomogeneous inhibition of in-stent neointimal hyperplasia by DEB. DEB technology should be improved to obtain even drug delivery to the vessel wall and homogeneous prevention of neointimal growth comparable to contemporary DES.

Paclitaxel-Coated Balloon Angioplasty Versus Drug-Eluting Stent in Acute Myocardial Infarction: The REVELATION Randomized Trial

OBJECTIVES

This study sought to assess the efficacy and safety of a drug-coated balloon (DCB) strategy versus drug-eluting stent (DES) in primary percutaneous coronary intervention for ST-segment elevation myocardial infarction (STEMI).

BACKGROUND

In primary percutaneous coronary intervention for STEMI, stenting has proved to be beneficial with regard to repeat revascularization, but not recurrent myocardial infarction or death, compared with balloon angioplasty alone. A strategy of DCB angioplasty without stenting might abolish the potential disadvantages of stent implantation while reducing the probability of restenosis observed in plain old balloon angioplasty.

METHODS

In the prospective, randomized, single-center REVELATION trial, we compared DCB with DES in patients presenting with STEMI. Patients with a new, nonseverely calcified culprit lesion in a native coronary artery and a residual stenosis of <50% after pre-dilatation were randomized to treatment with a DCB or DES. The primary endpoint was fractional flow reserve at 9 months, allowing for a functional measurement of the infarct-related lesion.

RESULTS

A total of 120 patients were included. At 9 months after enrolment, the mean fractional flow reserve value was 0.92 ± 0.05 in the DCB group (n = 35) and 0.91 ± 0.06 in the DES group (n = 38) (p = 0.27). One abrupt vessel closure requiring treatment occurred after treatment with DCB. Up to 9-months follow-up, 2 patients required nonurgent target lesion revascularization (1 in each group).

CONCLUSIONS

In the setting of STEMI, the DCB strategy was noninferior to DES in terms of fractional flow reserve assessed at 9 months. Furthermore, it seemed to be a safe and feasible strategy. (Revascularization With Paclitaxel-Coated Balloon Angioplasty Versus Drug-Eluting Stenting in Acute Myocardial Infarction [REVELATION]; NCT02219802).

Meta-analysis of the effects of drug-coated balloons among patients with small-vessel coronary artery disease

OBJECTIVE

This study evaluated the clinical value of drug-coated balloons for patients with small-vessel coronary artery disease (SVD).

METHODS

A computerized literature search was performed using the databases to conduct a meta-analysis and evaluate the clinical value of drug-coated balloons among patients with SVD.

RESULTS

This review enrolling 1545 patients receiving drug-coated balloons and 1010 patients receiving stents (including drug-eluting stents and bare-metal stents). The meta-analysis results showed that the incidence of major adverse cardiovascular events among patients with SVD did not significantly differ between the drug-coated balloon group and the stent group within 1 postoperative year (odds ratio = 0.81, P = .5). A subgroup analysis showed that the incidence of myocardial infarction among the drug-coated balloon group was significantly lower than that among the stent group (odds ratio = 0.58, P = .04). Nevertheless, the late lumen loss of the drug-coated balloon group was significantly lower than that of the stent group (mean difference = 0.31, P = .01).

CONCLUSIONS

Drug-coated balloons can be used to effectively reduce the incidence of myocardial infarction in patients with SVD within 1 year and decrease the extent of late lumen loss without increasing the incidence of major adverse cardiovascular events.

12-Month clinical results of drug-coated balloons for de novo coronary lesion in vessels exceeding 3.0 mm

The purpose of this observational study was to investigate the feasibility, initial safety, and efficacy of the SeQuent® Please DCB (B. Braun Melsungen, Germany) for patients with de novo coronary lesions in vessels exceeding 3.0 mm in a consecutive series of all comer percutaneous coronary intervention. A total of 120 patients (135 lesions) with de novo coronary lesions in vessels ≥ 3.0 mm treated with DCB were enrolled in this single-centre prospective observational study. The primary endpoint was target lesion failure (TLF), a composite endpoint of cardiac death, target vessel-myocardial infarction (TV-MI), and clinically driven target vessel revascularization (TLR) at 12 months. Safety endpoints included cardiac death, TV-MI, and definite target vessel thrombosis. 45.9% of the lesions were classified as complex (type B2/C). The reference vessel diameter was 3.09 ± 0.31 mm measured via quantitative coronary angiography analysis. Coronary dissections occurred in 42 patients (35.0%; Type A-B 14.1%; Type C 19.1%; Type D: 1.6%), two of which [1.6%; (type D dissection)] underwent bail-out stent implantation. 12-month follow-up was completed in 100% patients. The 12-month incidence of TLF was 3.4%. The clinically driven TLR occurred in four patients (3.4%). The incidence of TLR was low in patients without any detectable dissections, similar to those with dissections (3.8% vs. 2.5%; p = 0.146). No patient suffered cardiac death, TV-MI, or target vessel thrombosis. The study shows the feasibility, initial safety, and efficacy of coronary intervention using SeQuent® Please DCB for the treatment of patients with de novo lesion in vessels exceeding 3 mm. The study highlights that the coronary dissection (Type A-C) post DCB treatment occurs frequently but is safe at follow up.

Role of Drug-coated Balloons in Small-vessel Coronary Artery Disease

Percutaneous coronary intervention of small-vessel coronary artery disease (SVD) remains challenging due to difficulties with device delivery and high restenosis rate, even with the use of newer-generation drug-eluting stents. Drug-coated balloons represent an attractive emerging percutaneous coronary intervention option in patients with SVD. Potential advantages of drug-coated balloons in SVD include enhanced deliverability because of their small profile, avoidance of foreign-body implantation, and shorter duration of dual antiplatelet therapy.

Drug Coated Balloon-Only Strategy in De Novo Lesions of Large Coronary Vessels

Objectives

We analyzed the efficacy of drug coated balloons (DCB) as a stand-alone-therapy in de novo lesions of large coronary arteries. DCBs seem to be an attractive alternative for the stent-free interventional treatment of de novo coronary artery disease (CAD). However, data regarding a DCB-only approach in de novo CAD are currently limited to vessels of small caliber.

Methods

By means of propensity score (PS) matching 234 individuals with de novo CAD were identified with similar demographic characteristics. This patient population was stratified in a 1:1 fashion according to a reference vessel diameter cut-off of 2.75 mm in small and large vessel disease. The primary endpoint was the rate of clinically driven target lesion revascularization (TLR) at 9 months.

Results

Patients with small vessel disease had an average reference diameter of 2.45 ± 0.23 mm, while the large vessel group averaged 3.16 ± 0.27 mm. Regarding 9-month major adverse cardiac event (MACE), 5.7% of the patients with small and 6.1% of the patients with large vessels had MACE (p=0.903). Analysis of the individual MACE components revealed a TLR rate of 3.8% in small and 1.0% in large vessels (p=0.200). Of note, no thrombotic events in the DCB treated coronary segments occurred in either group during the 9-month follow-up.

Conclusions

Our data demonstrate for the first time that DCB-only PCI of de novo lesions in large coronary arteries (>2.75 mm) is safe and as effective. Interventional treatment for CAD without permanent or temporary scaffolding, demonstrated a similar efficacy for large and small vessels.

Long-term efficacy of drug coated balloons compared with new generation drug-eluting stents for the treatment of de novo coronary artery lesions

BACKGROUND

Studies comparing drug coated balloons (DCB) with new generation drug-eluting stents (nDES) for the treatment of de novo coronary artery lesions are lacking.

METHODS

From 2009 to 2016, DCB or nDES used for treatment of de novo coronary lesions at our institution were included, in total 1,197 DEB and 6,458 nDES. We evaluated target lesions restenosis (TLR) and definite target lesion thrombosis (TLT). Propensity score modeling were utilized to study adjusted associations between treatment and outcomes.

RESULTS

Median follow-up was 901days. DCB patients were older, with higher cardiovascular risk profile. Bailout stenting after DCB was performed in 8% of lesions. The cumulative rate of TLR and TLT was 7.0 vs. 4.9% and 0.2 vs. 0.8% for DCB vs. nDES, respectively. Before adjustment, DCB was associated with a higher risk of TLR [hazard ratio (HR) 1.44; 95% confidence interval (CI) 1.07-1.94] and a non-significantly lower risk of TLT (HR 0.30; 95% CI 0.07-1.24), compared to nDES. In the propensity matched population consisted of 1,197 DCB and 1,197 nDES, treatment with DCB was associated with similar risk for TLR (adjusted HR 1.05; 95% CI 0.72-1.53) but significantly lower risk for TLT (adjusted HR 0.18; 95% CI 0.04-0.82) compared to nDES.

CONCLUSIONS

Treatment with DCB was associated with a similar risk of TLR and a lower risk of definite TLT compared with nDES. In selected cases, DCB appears as a good alternative to nDES for the treatment of de novo coronary lesions.

Long-Term Follow-Up After Treatment of Drug-Eluting Stent Restenosis and De Novo Lesions Using SeQuent Please Paclitaxel-Coated Balloons

Managing patients with in-stent restenosis (ISR) remains an important clinical challenge. In particular, large, randomized trials assessing the effect of drug-eluting balloons (DEB) in patients with de novo lesions are warranted. We investigated the effect of DEB on procedural complications, target lesion revascularization (TLR), and major adverse cardiac and cerebrovascular events in patients with drug-eluting stent ISR and de novo lesions. The clinical profiles of 238 consecutive patients treated for coronary ISR (n = 174) and de novo lesions (n = 64) using SeQuent Please paclitaxel-coated balloon were analyzed. Study end points were major adverse cardiac events (MACEs). At 1-year follow-up, TLR and MACEs occurred with acceptably low rates (5.0% and 6.3%, respectively). At 2.00 (0.74) years of follow-up, there was a significant difference in the rates of TLR between the ISR and the de novo lesions groups (14.4% [ISR] vs 3.1% [de novo], P = .028), and the occurrence of MACEs distinctly increased in the ISR group compared to the de novo lesions group (21.8% vs 6.2%, P = .009). The long-term outcomes of the ISR group were inferior to those of the de novo group (TLR, log-rank P = .019; MACEs, log-rank P = .010). Drug-eluting balloon for ISR and de novo lesions of small coronary vessels is effective and safe.

Drug-Coated Balloon-Only Percutaneous Coronary Intervention for the Treatment of De Novo Coronary Artery Disease: A Systematic Review

Percutaneous coronary intervention (PCI) with a drug coated balloon (DCB) is a novel treatment which seeks to acutely dilate a coronary stenosis and deliver an anti-proliferative drug to the vessel wall (reducing the risk of re-stenosis), without implanting a drug eluting stent (DES). In this study, we performed a systematic review of stentless DCB-only angioplasty in de novo coronary artery disease. We identified 41 studies examining the effects of DCB-only PCI in a variety of clinical scenarios including small vessels, bifurcations, calcified lesions, and primary PCI. DCB-only PCI appears to be associated with comparable clinical outcomes to DESs and superior angiographic outcomes to plain-old balloon angioplasty. Although current data are promising, there is still a need for further long-term randomized control trial data comparing a DCB-only approach specifically against a second- or third-generation DES. A 4-week period of dual antiplatelet therapy provides a real advantage for the DCB-only PCI approach, which is not possible with most DESs. Since rates of adverse clinical outcomes are very low for all PCI procedures attention should be turned to the development of robust endpoints with which to compare DCB-only PCI approaches to the standard treatment with a DES.

Drug-coated balloons for small coronary artery disease (BASKET-SMALL 2): an open-label randomised non-inferiority trial

BACKGROUND

Drug-coated balloons (DCB) are a novel therapeutic strategy for small native coronary artery disease. However, their safety and efficacy is poorly defined in comparison with drug-eluting stents (DES).

METHODS

BASKET-SMALL 2 was a multicentre, open-label, randomised non-inferiority trial. 758 patients with de-novo lesions (<3 mm in diameter) in coronary vessels and an indication for percutaneous coronary intervention were randomly allocated (1:1) to receive angioplasty with DCB versus implantation of a second-generation DES after successful predilatation via an interactive internet-based response system. Dual antiplatelet therapy was given according to current guidelines. The primary objective was to show non-inferiority of DCB versus DES regarding major adverse cardiac events (MACE; ie, cardiac death, non-fatal myocardial infarction, and target-vessel revascularisation) after 12 months. The non-inferiority margin was an absolute difference of 4% in MACE. This trial is registered with ClinicalTrials.gov, number NCT01574534.

FINDINGS

Between April 10, 2012, and February 1, 2017, 382 patients were randomly assigned to the DCB group and 376 to DES group. Non-inferiority of DCB versus DES was shown because the 95% CI of the absolute difference in MACE in the per-protocol population was below the predefined margin (-3·83 to 3·93%, p=0·0217). After 12 months, the proportions of MACE were similar in both groups of the full-analysis population (MACE was 7·5% for the DCB group vs 7·3% for the DES group; hazard ratio [HR] 0·97 [95% CI 0·58-1·64], p=0·9180). There were five (1·3%) cardiac-related deaths in the DES group and 12 (3·1%) in the DCB group (full analysis population). Probable or definite stent thrombosis (three [0·8%] in the DCB group vs four [1·1%] in the DES group; HR 0·73 [0·16-3·26]) and major bleeding (four [1·1%] in the DCB group vs nine [2·4%] in the DES group; HR 0·45 [0·14-1·46]) were the most common adverse events.

INTERPRETATION

In small native coronary artery disease, DCB was non-inferior to DES regarding MACE up to 12 months, with similar event rates for both treatment groups.

FUNDING

Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung, Basel Cardiovascular Research Foundation, and B Braun Medical AG.

Treatment of large de novo coronary lesions with paclitaxel-coated balloon only: results from a Chinese institute

BACKGROUND

To evaluate the efficacy of paclitaxel-coated balloons (SeQuent Please^®) for large de novo coronary lesions with diameters greater than 2.8 mm.

METHODS

We performed a retrospective study of 527 consecutive patients with 595 de novo lesions (222 lesions) that comprised the large vessel disease (LVD) group, with a reference diameter (RD) ≥ 2.8 mm; the other 373 lesions comprised the small vessel disease (SVD) group, with a RD < 2.8 mm who received drug-coated balloon (DCB) angioplasty at the Beijing Hospital, Beijing, China. Sixty-eight patients with 91 lesions, including 45 LVD lesions, underwent coronary angiography at an average 10.7 months after DCB intervention. Clinical characteristics were recorded, and coronary angiograms were analysed with Quantitative Coronary Angiography (QCA) software.

RESULTS

The patients in the LVD group were much younger than those in the small vessel group (61.7 ± 11.3 vs. 63.8 ± 11.7, P = 0.003), and fewer LVD patients had diabetes (27.0 vs. 57.8%, P = 0.001), three-vessel disease (37.5 vs. 52.6%, P = 0.003) and complex lesions (37.8 vs. 48.8%, P = 0.009) than those in the SVD group. Lesion preparations for LVD were more complicated than for SVD, such as 40.1% of lesions required the additional use of a cutting or scoring balloon (P = 0.004), and 21.2% lesions required non-compliant (NC) balloons (P < 0.001). Coronary dissections occurred in 63(28.3%) lesions in the LVD group but bail-out drug-eluting stent (DES) implantation was required only in one lesion (0.5%), which were both comparable with those in the SVD group. The success rate of DCB intervention was quite high and also similar in the LVD group and SVD group (99.5 vs. 99.7%, P > 0.05). QCA analysis showed that the follow-up minimal lumen diameter (MLD) was significantly increased compared with the MLD immediately post angioplasty both in the SVD group (1.75 ± 0.48 vs. 1.58 ± 0.31 mm, P = 0.008) and the LVD group (2.26 ± 0.66 vs. 2.09 ± 0.40 mm, P = 0.067). At an average of 10.1 months of clinical follow-up, the major adverse cardiovascular event (MACE) rate was 0% in the LVD group and 1.4% in the SVD group, with target lesion revascularization (TLR) rates of 0% and 1.1%, respectively. No death was observed in either group.

CONCLUSIONS

DCB for de novo coronary lesions with diameters greater than 2.8 mm was as safe and effective as for small vessel lesions, suggesting that the DCB-only strategy is also feasible in large de novo lesions intervention.

Drug-coated balloon angioplasty for de novo small vessel disease including chronic total occlusion and bifurcation in real-world clinical practice

The aim of this study is to validate the efficacy of drug-coated balloons (DCBs) for real-world de novo small vessel diseases including chronic total occlusion and bifurcation. DCB angioplasty has been reported to be effective in the treatment of de novo small vessel disease. However, the number of reports that have focused on complex lesions is limited. This observational study comprised consecutive patients who underwent DCB angioplasty for de novo small vessel disease with a reference diameter of less than 2.5 mm by visual estimation. Outcome parameters included late lumen loss, restenosis rate, and major adverse cardiac events, such as cardiac death, non-fatal myocardial infarction, and target lesion revascularization (TLR). Fifty-two patients underwent DCB angioplasty for 59 lesions with a reference vessel diameter of 1.93 ± 0.63 mm. Thirty-eight of the lesions (69%) were classified as type B2/C, including chronic total occlusions (20%) and bifurcations (33%). At the 8-month follow-up, late lumen loss was - 0.01 ± 0.44 mm with a restenosis rate of 20%. No cardiac deaths or myocardial infarctions were reported and only 5 (9%) angiographically driven TLRs were reported. DCB angioplasty offered an acceptable 8-month lumen patency and a stable clinical outcome for real-world complex de novo coronary diseases.

Drug-coated balloons for de novo lesions in small coronary arteries: rationale and design of BASKET-SMALL 2

The treatment of coronary small vessel disease (SVD) remains an unresolved issue. Drug‐eluting stents (DES) have limited efficacy due to increased rates of instent‐restenosis, mainly caused by late lumen loss. Drug‐coated balloons (DCB) are a promising technique because native vessels remain structurally unchanged. Basel Stent Kosten‐Effektivitäts Trial: Drug‐Coated Balloons vs. Drug‐Eluting Stents in Small Vessel Interventions (BASKET‐SMALL 2) is a multicenter, randomized, controlled, noninferiority trial of DCB vs DES in native SVD for clinical endpoints. Seven hundred fifty‐eight patients with de novo lesions in vessels <3 mm in diameter and an indication for percutaneous coronary intervention such as stable angina pectoris, silent ischemia, or acute coronary syndromes are randomized 1:1 to angioplasty with DCB vs implantation of a DES after successful initial balloon angioplasty. The primary endpoint is the combination of cardiac death, nonfatal myocardial infarction, and target‐vessel revascularization up to 1 year. Secondary endpoints include stent thrombosis, Bleeding Academic Research Consortium (BARC) type 3 to 5 bleeding, and long‐term outcome up to 3 years. Based on clinical endpoints after 1 year, we plan to assess the noninferiority of DCB compared to DES in patients undergoing primary percutaneous coronary intervention for SVD. Results will be available in the second half of 2018. This study will compare DCB and DES regarding long‐term safety and efficacy for the treatment of SVD in a large all‐comer population.

Comparison of drug-eluting balloon versus drug-eluting stent for treatment of coronary artery disease: a meta-analysis of randomized controlled trials

Background

Drug-eluting balloons (DEB) have significant value for treating coronary artery disease (CAD). However, the merits of using DEB versus drug-eluting stents (DES) to treat CAD remain controversial. Herein, we conducted a meta-analysis to compare the safety and efficacy of DEB and DES for treatment of CAD.

Methods

We searched MEDLINE, EMBASE, and CENTRAL databases for eligible trials comparing DEB with DES for treatment of CAD. The primary endpoint was major adverse cardiac events (MACE); the secondary endpoints included in-lesion late lumen loss (LLL), binary restenosis (BR), myocardial infarction (MI), target lesion revascularization (TLR) and mortality.

Results

Twenty-three trials with a total of 2712 patients were included. There were no significant differences in the primary endpoint of MACE between the DEB and DES groups (Risk Ratio (RR) 1.19; 95% confidence interval (CI) (0.87, 1.63); P = 0.27), or in the clinical outcomes of each of MACE’s components, including TLR, MI and mortality. However, efficacy was significantly different between the DEB and DES groups, especially when we compared DEB to second-generation DES: in-lesion LLL (Mean Difference (MD) 0.11; (0.01, 0.22); P = 0.03); binary restenosis (RR 1.46; (1.00, 2.13); P = 0.05).

Conclusions

DEB is equivalent to DES in terms of safety for managing CAD, and DEB may be considered as an alternative choice for treatment of CAD.

Electronic supplementary material

The online version of this article (10.1186/s12872-018-0771-y) contains supplementary material, which is available to authorized users.

Drug-eluting balloon: design, technology and clinical aspects

A drug-eluting balloon is a non-stent technology in which the effective homogenous delivery of anti-proliferative drugs is processed by the vessel wall through an inflated balloon. This is done to restore luminal vascularity in order to treat atherosclerosis, in-stent restenosis and reduce the risk of late thrombosis without implanting a permanent foreign object. The balloon technology relies on the concept of targeted drug delivery, which helps in the rapid healing of the vessel wall and prevents the proliferation of smooth muscle cells. Several drug eluting devices in the form of coated balloons are currently in clinical use, namely DIOR^®, PACCOCATH^®, SeQuent^®Please and IN.PACT™. The device varies in terms of the material used for making the balloon, the coating techniques, the choice of coated drug and the release pattern of the drug at the site. This review gives an insight into the evolution, rationale and comparison of the marketed drug-eluting balloons. Here, different coating techniques have been analysed for the application and critical analysis of available DEB technologies, and a technical comparison has been done.

Paclitaxel-Coated Balloons: Investigation of Drug Transfer in Healthy and Atherosclerotic Arteries - First Experimental Results in Rabbits at Low Inflation Pressure

Purpose

Beyond antiproliferative properties, paclitaxel exhibits anti-inflammatory activity, which might be beneficial in the local treatment of nonocclusive coronary artery disease. Paclitaxel release and tissue concentrations after paclitaxel-coated balloon treatment using different pressures have not been investigated so far. The aim of the study was to investigate in an atherosclerotic rabbit model whether drug transfer from paclitaxel-coated balloons into the vessel wall is affected by the presence of atherosclerotic lesions and to which extent it depends on the inflation pressure used.

Methods

Paclitaxel-coated balloons (3.5 μg/mm² paclitaxel) were inflated with pressures of 1, 2, or 6 atm (60s) in healthy (n = 39) and atherosclerotic (n = 22) arteries of New Zealand White Rabbits. Paclitaxel content in arterial walls (10 min after interventions) and paclitaxel remaining on balloons after treatment were analyzed using high-performance liquid chromatography.

Results

Median paclitaxel tissue concentrations were 829.3 μg/g (IQR 636.5–1487 μg/g) in healthy and 375.7 μg/g (IQR 169.8–771.6 μg/g) in atherosclerotic arteries (p = 0.0002). The paclitaxel tissue concentration was dependent on inflation pressure (1 atm vs. 2 atm vs. 6 atm) in atherosclerotic arteries (p = 0.0106) but not in healthy arteries (p ≥ 0.05).

Conclusions

Atherosclerotic lesions impede the transfer of paclitaxel into arterial walls. Higher inflation pressures resulted in an increased paclitaxel transfer in atherosclerotic but not in healthy arteries. However, it is assumed that the tissue concentrations achieved with an inflation pressure of 2 atm are potentially effective in this model.

A multicenter randomized comparison of paclitaxel-coated balloon with plain balloon angioplasty in patients with small vessel disease

AIM

We investigated the efficacy and safety of using paclitaxel-coated balloon (PCB) to treat small vessel disease.

METHODS AND RESULTS

In this multicenter, prospective, randomized controlled trial, one-hundred and thirty-five patients with native coronary lesions in small vessels were randomized into a PCB group and plain balloon angioplasty (POBA) group at a ratio of 2:1. There were no differences in target vessel failure (TVF) that was defined as cardiac death or target vessel-related myocardial infarction or target lesion revascularization (TLR), between the two groups (3.4 vs. 10.3%; P = 0.20), and TLR was slightly lower in the PCB group (2.3%) than that in the POBA group (10.3%) during 24 weeks follow-up. The late lumen loss (LLL) was significantly lower in the PCB group (0.01 ± 0.31 vs. 0.32 ± 0.34 mm; P < 0.01) and late lumen enlargement (LLE) was more frequently observed in the PCB group (48 vs. 15%; P < 0.01) by angiographic follow-up after 24 weeks. There were no cases of death, myocardial infarction, thrombosis and reocclusion in either group.

CONCLUSIONS

This study was not able to demonstrate superiority of PCB compared with POBA.