open access

Vol 81, No 1 (2023)
Short communication
Published online: 2022-12-08
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Use of orbital atherectomy in coronary artery disease with severe calcification: A preliminary study

Paweł Kralisz1, Jacek Legutko23, Mateusz Tajstra4, Paweł Kleczyński23, Krzysztof Wilczek4, Wojciech Zajdel5, Mikołaj Derewońko5, Konrad Nowak1, Łukasz Kuźma1, Mariusz Gąsior4, Sławomir Dobrzycki1
DOI: 10.33963/KP.a2022.0289
·
Pubmed: 36573609
·
Kardiol Pol 2023;81(1):61-63.
Affiliations
  1. Department of Invasive Cardiology, Medical University of Bialystok, Białystok, Poland
  2. Department of Interventional Cardiology, Institute of Cardiology, Jagiellonian University Medical College, Kraków, Poland
  3. Clinical Department of Interventional Cardiology, John Paul II Hospital, Kraków, Poland
  4. 3rd Department of Cardiology, School of Medicine with the Division of Dentistry in Zabrze, Silesian Center for Heart Diseases, Medical University of Silesia, Katowice, Poland
  5. Student Scientific Group of Modern Cardiac Therapy at the Department of Interventional Cardiology, Institute of Cardiology, Jagiellonian University Medical College, Kraków, Poland

open access

Vol 81, No 1 (2023)
Short communication
Published online: 2022-12-08

Abstract

Not available

Abstract

Not available
Get Citation
About this article
Title

Use of orbital atherectomy in coronary artery disease with severe calcification: A preliminary study

Journal

Kardiologia Polska (Polish Heart Journal)

Issue

Vol 81, No 1 (2023)

Article type

Short communication

Pages

61-63

Published online

2022-12-08

Page views

232

Article views/downloads

94

DOI

10.33963/KP.a2022.0289

Pubmed

36573609

Bibliographic record

Kardiol Pol 2023;81(1):61-63.

Authors

Paweł Kralisz
Jacek Legutko
Mateusz Tajstra
Paweł Kleczyński
Krzysztof Wilczek
Wojciech Zajdel
Mikołaj Derewońko
Konrad Nowak
Łukasz Kuźma
Mariusz Gąsior
Sławomir Dobrzycki

References (15)
  1. Copeland-Halperin RS, Baber U, Aquino M, et al. Prevalence, correlates, and impact of coronary calcification on adverse events following PCI with newer-generation DES: Findings from a large multiethnic registry. Catheter Cardiovasc Interv. 2018; 91(5): 859–866.
  2. Gassett AJ, Sheppard L, McClelland RL, et al. Risk factors for long-term coronary artery calcium progression in the multi-ethnic study of atherosclerosis. J Am Heart Assoc. 2015; 4(8): e001726.
  3. Mori H, Torii S, Kutyna M, et al. Coronary artery calcification and its progression: What does it really mean? JACC Cardiovasc Imaging. 2018; 11(1): 127–142.
  4. Guedeney P, Claessen BE, Mehran R, et al. Coronary calcification and long-term outcomes according to drug-eluting stent generation. JACC Cardiovasc Interv. 2020; 13(12): 1417–1428.
  5. Kobayashi Y, Okura H, Kume T, et al. Impact of target lesion coronary calcification on stent expansion. Circ J. 2014; 78(9): 2209–2214.
  6. Généreux P, Madhavan MV, Mintz GS, et al. Relation between coronary calcium and major bleeding after percutaneous coronary intervention in acute coronary syndromes (from the Acute Catheterization and Urgent Intervention Triage Strategy and Harmonizing Outcomes With Revascularization and Stents in Acute Myocardial Infarction Trials). J Am Coll Cardiol . 2014; 63(18): 1845–1854.
  7. Abdel-Wahab M, Richardt G, Joachim Büttner H, et al. High-speed rotational atherectomy before paclitaxel-eluting stent implantation in complex calcified coronary lesions: the randomized ROTAXUS (Rotational Atherectomy Prior to Taxus Stent Treatment for Complex Native Coronary Artery Disease) trial. JACC Cardiovasc Interv. 2013; 6(1): 10–19.
  8. Kawamoto H, Latib A, Ruparelia N, et al. In-hospital and midterm clinical outcomes of rotational atherectomy followed by stent implantation: the ROTATE multicentre registry. EuroIntervention. 2016; 12(12): 1448–1456.
  9. Bouisset F, Barbato E, Reczuch K, et al. Clinical outcomes of PCI with rotational atherectomy: the European multicentre Euro4C registry. EuroIntervention. 2020; 16(4): e305–e312.
  10. Lee M, Généreux P, Shlofmitz R, et al. Pivotal trial to evaluate the safety and efficacy of the orbital atherectomy system in treating de novo, severely calcified coronary lesions (ORBIT II). JACC Cardiovasc Interv. 2014; 7(5): 510–518.
  11. Aggarwal D, Seth M, Perdoncin E, et al. Trends in utilization, and comparative safety and effectiveness of orbital and rotational atherectomy. JACC Cardiovasc Interv. 2020; 13(1): 146–148.
  12. Karimi Galougahi K, Shlofmitz E, Jeremias A, et al. Therapeutic approach to calcified coronary lesions: disruptive technologies. Curr Cardiol Rep. 2021; 23(4): 33.
  13. Dobrzycki S, Reczuch K, Legutko J, et al. Rotational atherectomy in everyday clinical practice. Association of Cardiovascular Interventions of the Polish Society of Cardiology. Expert opinion. Kardiol Pol. 2018; 76(11): 1576–1584.
  14. Sotomi Y, Shlofmitz RA, Colombo A, et al. Patient selection and procedural considerations for coronary orbital atherectomy system. Interv Cardiol. 2016; 11(1): 33–38.
  15. Généreux P, Kirtane AJ, Kandzari DE, et al. Randomized evaluation of vessel preparation with orbital atherectomy prior to drug-eluting stent implantation in severely calcified coronary artery lesions: Design and rationale of the ECLIPSE trial. Am Heart J. 2022; 249: 1–11.

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