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Percutaneous transluminal rotational atherectomy for coronary artery disease - PubMed

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Review

Percutaneous transluminal rotational atherectomy for coronary artery disease

Jason Wasiak et al. Cochrane Database Syst Rev. 2012.

Abstract

Background: This is an update of the review on 'Percutaneous transluminal rotational atherectomy for coronary artery disease' first published in The Cochrane Library Issue 4, 2003. Percutaneous transluminal coronary rotational atherectomy (PTCRA) debulks atherosclerotic plaque from coronary arteries using an abrasive burr. On rotation, the burr selectively removes hard tissue. PTCRA has been used both as an alternative to and in conjunction with balloon angioplasty to open up blocked coronary arteries. Its ongoing effectiveness and safety compared with other modes of removing atherosclerotic plaques is reviewed.

Objectives: To assess the effects of PTCRA for coronary artery disease in patients with non-complex and complex lesions (e.g. ostial, long or diffuse lesions or those arising from in-stent re-stenosis) of the coronary arteries.

Search methods: For the original review, we searched the Heart Group Specialised Register; The Cochrane Library to Issue 2, 2001; and MEDLINE, CINAHL, EMBASE and Current Contents to December 2002 and reviewed reference lists for relevant articles. For the current review, we searched the same registries from 2002 to 2012 and reviewed reference lists for relevant articles.

Selection criteria: We included randomised and quasi-randomised controlled trials of PTCRA compared with placebo, no treatment or another intervention and excluded cross-over trials.

Data collection and analysis: Two review authors independently extracted data and assessed the risk of bias of the studies identified. Data were extracted independently by two review authors. We asked authors of trials to provide information when missing data were encountered. Statistical summaries used risk ratios (RR) and weighted mean differences.

Main results: We included 12 trials enrolling 3474 patients. The overall risk of bias was unclear for the majority of articles due to a lack of reported data; however, the authors determined that this would be unlikely to impact negatively as most data outcomes were objective (e.g. death vs. no death). There was no evidence of the effectiveness in improving patient outcomes of PTCRA in non-complex lesions. In complex lesions, there were no statistically significant differences in re-stenosis rates at six months (RR 1.05; 95% confidence interval (CI) 0.83 to 1.33) and at one year (RR 1.21; 95% CI 0.95 to 1.55) in those receiving PTCRA with adjunctive balloon angioplasty (PTCA) (PTCRA/PTCA) compared to those receiving PTCA alone. Morphological characteristics distinguishing complex lesions have not been examined in parallel-arm randomised controlled trials. The evidence for the effectiveness of PTCRA in in-stent re-stenosis is unclearCompared to angioplasty alone, PTCRA/PTCA did not result in a statistically significant increase in the risk of major adverse cardiac events (myocardial infarction (MI), emergency cardiac surgery or death) during the in-hospital period (RR 1.27; 95% CI 0.86 to 1.90). Compared to angioplasty, PTCRA was associated with nine times the risk of an angiographically detectable vascular spasm (RR 9.23; 95% CI 4.61 to 18.47), four times the risk of perforation (RR 4.28; 95% CI 0.92 to 19.83) and about twice the risk of transient vessel occlusions (RR 2.49; 95% CI 1.25 to 4.99) while angiographic dissections (RR 0.48; 95% CI 0.34 to 0.68) and stents used as a bailout procedure (RR 0.29; 95% CI 0.09 to 0.87) were less common.

Authors' conclusions: When conventional PTCA is feasible, PTCRA appears to confer no additional benefits. There is limited published evidence and no long-term data to support the routine use of PTCRA in in-stent re-stenosis. Compared to angioplasty alone, PTCRA/PTCA did not result in a higher incidence of major adverse cardiac events, but patients were more likely to experience vascular spasm, perforation and transient vessel occlusion. In certain circumstances (e.g. patients ineligible for cardiac surgery, those with architecturally complex lesions, or those with lesions that fail PTCA), PTCRA may achieve satisfactory re-vascularisation in subsequent procedures.

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Conflict of interest statement

None known.

Figures

1
Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

2
Risk of bias summary: review authors' judgements about each risk of bias item for each included study.

**1.1. Analysis**
Comparison 1: 'Non‐complex' coronary lesions, Outcome 1: Procedural success

**2.1. Analysis**
Comparison 2: Complex coronary lesions, Outcome 1: Re‐stenosis rates

**3.1. Analysis**
Comparison 3: In‐stent re‐stenosis, Outcome 1: Re‐stenosis rates

**3.2. Analysis**
Comparison 3: In‐stent re‐stenosis, Outcome 2: Minimum luminal diameter

**4.1. Analysis**
Comparison 4: Major adverse cardiac events, Outcome 1: MACE as a composite event

**4.2. Analysis**
Comparison 4: Major adverse cardiac events, Outcome 2: Myocardial infarction

**4.3. Analysis**
Comparison 4: Major adverse cardiac events, Outcome 3: Emergency CABG

**4.4. Analysis**
Comparison 4: Major adverse cardiac events, Outcome 4: Death

**5.1. Analysis**
Comparison 5: Adverse events, Outcome 1: Perforation

**5.2. Analysis**
Comparison 5: Adverse events, Outcome 2: Angiographic dissection

**5.3. Analysis**
Comparison 5: Adverse events, Outcome 3: Bailout stenting

**5.4. Analysis**
Comparison 5: Adverse events, Outcome 4: Spasm

**5.5. Analysis**
Comparison 5: Adverse events, Outcome 5: Transient vessel occlusion

**5.6. Analysis**
Comparison 5: Adverse events, Outcome 6: 'Slow flow'

Update of

Percutaneous transluminal rotational atherectomy for coronary artery disease.

Villanueva EV, Wasiak J, Petherick ES. Villanueva EV, et al. Cochrane Database Syst Rev. 2003;(4):CD003334. doi: 10.1002/14651858.CD003334. Cochrane Database Syst Rev. 2003. PMID: 14583968 Updated. Review.

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References

References to studies included in this review

ARTIST 2001 {published data only}

1. vom Dahl J, Dietz U, Haager PK, Silber S, Niccoli E, Buettner HJ, et al. Rotational atherectomy does not reduce in-stent restenosis: results of the angioplasty versus rotational atherectomy for treatment of diffuse in-stent restenosis trial (ARTIST). Circulation 2002;105:583-8. - PubMed
1. vom Dahl J, Dietz U, Silber S, Niccoli E, Buettner H, Schiele F, et al. Angioplasty versus rotational atherectomy for treatment of diffuse in-stent restenosis: clinical and angiographic results from a randomized multicenter trial (ARTIST Study). Journal of the American College of Cardiology 2000;35:7A-8A.
1. vom Dahl J, Silber S, Buettner H, Gaul G, Niccoli G, Schiele F, et al. Rotational atherectomy versus balloon angioplasty for diffuse in-stent restenosis: preliminary results of a randomized multicenter trial (ARTIST Trial). American Journal of Cardiology 1999;84:88P.

COBRA 2000 {published data only}

1. Dill T, Dietz U, Hamm CW, Kuchler R, Rupprecht HJ, Haude M, et al. A randomized comparison of balloon angioplasty versus rotational atherectomy in complex coronary lesions (COBRA study). European Heart Journal 2000;21:1759-66. - PubMed
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DART 1997 {published data only}

1. Mauri L, Reisman M, Buchbinder M, Popma J, Sharma S, Cutlip D, et al. Comparison of rotational atherectomy with conventional balloon angioplasty in the prevention of restenosis of small coronary arteries: results of the Dilatation vs Ablation Revascularization Trial Targeting Restenosis (DART). American Hearth Journal 2003;145:847-54. - PubMed
1. Reisman M, Buchbinder M, Sharma SK, Bailey SR, Applegate RJ, Ho KK, et al. A multicentre randomized trial of rotational atherectomy vs PTCA: DART. Circulation 1997;96 (Suppl):I-467.

EDRES 1997 {published data only}

1. Niazi K, Patel A, Nohza F, Alburaiki J, Fawzy M, Bakhshi M, et al. A prospective randomized study of the effects of debulking on restenosis (EDRES Trial). Circulation 1997;98:I-709.

Eltchaninoff 1997 {published data only}

1. Eltchaninoff H, Cribier A, Koning R, Chan C, Sicard V, Tan A, et al. Angioscopic evaluation of rotational atherectomy followed by additional balloon angioplasty versus balloon angioplasty alone in coronary artery disease: a prospective, randomized study. Journal of the American College of Cardiology 1997;30:888-93. - PubMed

ERBAC 1997 {published data only}

1. Reifart N, Vandormael M, Krajcar M, Gohring S, Preusler W, Schwarz F, et al. Randomized comparison of angioplasty of complex coronary lesions at a single center. Excimer Laser, Rotational Atherectomy, and Balloon Angioplasty Comparison (ERBAC) Study. Circulation 1997;96 (Suppl):91-8. - PubMed

Guerin 1996 {published data only}

1. Guerin Y, Spaulding C, Desnos M, Funck F, Rahal S, Py A, et al. Rotational atherectomy with adjunctive balloon angioplasty versus conventional percutaneous transluminal coronary angioplasty in type B2 lesions: results of a randomized study. American Heart Journal 1996;131:879-83. - PubMed

Kwon 2003 {published data only}

1. Kwon K, Choi D, Choi SH, Koo BK, Jang Y, Shim WH, et al. Coronary stenting after rotational atherectomy in diffuse lesions of the small coronary artery: comparison with balloon angioplasty before stenting. Angiology 2003;54(4):9. - PubMed

Lee 2005 {published data only}

1. Lee SW, Park SW, Hong MK, Kim YH, Han KH, Moon DH, et al. Comparison of angiographic and clinical outcomes between rotational atherectomy and cutting balloon angioplasty followed by radiation therapy with a rhenium 188-mercaptoacetyltriglycine-filled balloon in the treatment of diffuse in-stent restenosis. American Heart Journal 2005;150(3):6. - PubMed

Mehran 2000 {published data only}

1. Mehran R, Dangas G, Mintz G, Waksman R, Abizaid A, Satler L, et al. Treatment of in-stent restenosis with excimer laser coronary angioplasty versus rotational atherectomy: comparative mechanisms and results. Circulation 2000;101:2584. - PubMed

ROSTER 2000 {published data only}

1. Sharma SK, Kini A, King T, Reich D, Marmur JD. Randomized trial of rotational atherectomy versus balloon angioplasty for diffuse in-stent restenosis (ROSTER): final results. Circulation 2000;102:II-730. - PubMed
1. Sharma SK, Kini A, Shalouh E, King T, Garapati A, Santiago M, et al. Rotational atherectomy achieves a higher acute luminal gain vs. PTCA in the treatment of diffuse in-stent restenosis: insight from the randomized ROSTER trial. Journal of the American College of Cardiology 1999;33:49A-50A.

SPORT 2000 {published data only}

1. Buchbinder M, Fortuna R, Sharma SK, Bass T, Kipperman R, Greenberg J, et al. Debulking prior to stenting improves acute outcomes: early results from the SPORT trial. Journal of the American College of Cardiology 2000;35:8A.

References to studies excluded from this review

Aboufakher 2009 {published data only}

1. Aboufakher R, Torey J, Szpunar S, Davis T. Peripheral plaque volume changes pre- and post-rotational atherectomy followed by directional plaque excision: assessment by intravascular ultrasound and virtual histology. Journal of Invasive Cardiology 2009;22(12):206-8. - PubMed

BAROCCO 1995 {published data only}

1. Danchin N, Cassagnes J, Juilliere Y, Machecourt J, Bassand JP, LaBlanche JM, et al. Balloon angioplasty versus rotational angioplasty in chronic coronary occlusions (the BAROCCO study). American Journal of Cardiology 1995;75:330-4. - PubMed

Ben‐Dor 2011 {published data only}

1. Ben-Dor I, Maluenda G, Pichard AD, Satler LF, Gallino R, Lindsay J, et al. The use of excimer laser for complex coronary artery lesions. Cardiovascular Revascularization Medicine 2011;12(1):61-8. - PubMed

CARAT 2001 {published data only}

1. Safian RD, Feldman T, Muller DW, Mason D, Schreiber T, Haik B, et al. Coronary angioplasty and Rotablator atherectomy trial (CARAT): immediate and late results of a prospective multicenter randomized trial. Catheterization and Cardiovascular Interventions 2001;53:213-20. - PubMed

Egred 2008 {published data only}

1. Egred M, Andron M, Alahmar A, Albouaini K. High-speed rotational atherectomy during transradial percutaneous coronary intervention. Journal of Invasive Cardiology 2008;20(5):219-21. - PubMed

Fang 2010 {published data only}

1. Fang HY, Fang CY, Hussein H, Hsueh SK, Yang CH, Chen CJ, et al. Can a penetration catheter (Tornus) substitute traditional rotational atherectomy for recanalizing chronic total occlusions? International Heart Journal 2010;51(3):144-52. - PubMed

Feldman 2009 {published data only}

1. Feldma, DN, Minutello RM, Bergman G, Moussa I, Wong SC. Short- and long-term outcomes in patients undergoing rotational atherectomy for complex coronary lesions in the current era of drug-eluting stents. Journal of the American College of Cardiology 2009;53(10):65.

Ito 2009 {published data only}

1. Ito H, Piel S, Das P, Chhokar V, Khadim G, Nierzwicki R, et al. Long-term outcomes of plaque debulking with rotational atherectomy in side-branch ostial lesions to treat bifurcation coronary disease. Journal of Invasive Cardiology 2009;28(11):598-601. - PubMed

Mezilis 2010 {published data only}

1. Mezilis N, Dardas P, Ninios V, Tsikaderis D. Rotablation in the drug eluting era: immediate and long-term results from a single center experience. Journal of Interventional Cardiology 2010;23(3):249-53. - PubMed

Okamura 2009 {published data only}

1. Okamura A, Ito H, Fujii K. Rotational atherectomy is useful to treat restenosis lesions due to crushing of a sirolimus-eluting stent implanted in severely calcified lesions: experimental study and initial clinical experience. Journal of Invasive Cardiology 2009;21(10):191-6. - PubMed

Parikh 2009 {published data only}

1. Parikh K, Seth A, Baxi H, Chandarana A, Gupta S, Shah U, et al. First in man assessment of Orbital Atherectomy System in treating de novo calcified coronary lesions (ORBIT I). Journal of the American College of Cardiology 2009;53(10):20.

Parikh 2011 {published data only}

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Rathore 2010 {published data only}

1. Rathore S, Matsuo H, Terashima M, Kinoshita Y, Kimura M, Tsuchikane E, et al. Rotational atherectomy for fibro-calcific coronary artery disease in drug eluting stent era: procedural outcomes and angiographic follow-up results. Catheterization and Cardiovascular Interventions 2010;75(6):919-27. - PubMed

Schwartz 2011 {published data only}

1. Schwartz BG, Mayeda GS, Economides C, Kloner RA, Shavelle DM, Burstein S. Rotational atherectomy in the drug-eluting stent era: a single-center experience. Journal of Invasive Cardiology 2011;23(4):133-9. - PubMed

Shah 2010 {published data only}

1. Shah U, Kurian D, Staniloae JCC. Radial-rota: safe and feasible. Catheterization and Cardiovascular Interventions 2010;75:71-2.

Shenoy 2010 {published data only}

1. Shenoy C, Harjai KJ. Bivalirudin for mechanical rotational atherectomy: the quest for better outcomes. Journal of Interventional Cardiology 2010;23(3):230-2. - PubMed

STRATAS 2001 {published data only}

1. Whitlow PL, Bass TA, Kipperman RM, Sharaf BL, Ho KK, Cutlip DE, et al. Results of the study to determine rotablator and transluminal angioplasty strategy (STRATAS). American Journal of Cardiology 2001;87:699-705. - PubMed

Vaquerizo 2010 {published data only}

1. Vaquerizo B, Serra A, Miranda F, Triano JL, Sierra G, Delgado G, et al. Aggressive plaque modification with rotational atherectomy and/or cutting balloon before drug-eluting stent implantation for the treatment of calcified coronary lesions. Journal of Interventional Cardiology 2010;23(3):240-8. - PubMed

Watt 2009 {published data only}

1. Watt J, Oldroyd KG. Radial versus femoral approach for high-speed rotational atherectomy. Catheterization and Cardiovascular Interventions 2009;74(4):550-4. - PubMed

Wilentz 2011 {published data only}

1. Wilentz JR. Rotational atherectomy in the des era - away go troubles down the drain. Journal of Invasive Cardiology 2011;23(1):33-4. - PubMed

References to studies awaiting assessment

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Tsuchikane 2008 {published data only}

1. Tsuchikane E, Suzuki T, Asakura Y, Oda H, Ueda K, Tanaka T, et al. Debulking of chronic coronary total occlusions with rotational or directional atherectomy before stenting: final results of DOCTORS Study. International Journal of Cardiology 2008;125:397-403. - PubMed

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