Multi-Jurisdictional Contractor Advisory Committee (CAC) Coronary Intravascular Lithotripsy (IVL) - Bibliography

  1. FDA. SUMMARY OF SAFETY AND EFFECTIVENESS DATA (SSED). https://www.accessdata.fda.gov/cdrh_docs/pdf20/P200039B.pdf. Published 2021. Updated 2/12/21. Accessed 2/27/25.
  2. Saito S, Yamazaki S, Takahashi A, et al. Intravascular Lithotripsy for Vessel Preparation in Calcified Coronary Arteries Prior to Stent Placement - Japanese Disrupt CAD IV Study 2-Year Results. Circ Rep. 2023;5(12):437-441.
  3. Saito S, Yamazaki S, Takahashi A, et al. Intravascular Lithotripsy for Vessel Preparation in Severely Calcified Coronary Arteries Prior to Stent Placement-Primary Outcomes From the Japanese Disrupt CAD IV Study-. Circulation Journal. 2021;85(6):826-833.
  4. Kereiakes DJ, Di Mario C, Riley RF, et al. Intravascular Lithotripsy for Treatment of Calcified Coronary Lesions: Patient-Level Pooled Analysis of the Disrupt CAD Studies. JACC Cardiovasc Interv. 2021;14(12):1337-1348.
  5. Kereiakes DJ, Ali ZA, Riley RF, Smith TD, Shlofmitz RA. Intravascular Lithotripsy for Treatment of Calcified Coronary Artery Disease. Interv Cardiol Clin. 2022;11(4):393-404.
  6. Kereiakes DJ, Hill JM, Shlofmitz RA, et al. A-54 | The Disrupt CAD III Post-Approval Study: Real-World Safety and Effectiveness of Coronary Intravascular Lithotripsy from the ACC NCDR CathPCI Registry. Journal of the Society for Cardiovascular Angiography & Interventions. 2023;2(3).
  7. Hill JM, Kereiakes DJ, Shlofmitz RA, et al. Intravascular Lithotripsy for Treatment of Severely Calcified Coronary Artery Disease. J Am Coll Cardiol. 2020;76(22):2635-2646.
  8. Ali ZA, Nef H, Escaned J, et al. Safety and Effectiveness of Coronary Intravascular Lithotripsy for Treatment of Severely Calcified Coronary Stenoses: The Disrupt CAD II Study. Circ Cardiovasc Interv. 2019;12(10):e008434.
  9. Brinton TJ, Ali ZA, Hill JM, et al. Feasibility of shockwave coronary intravascular lithotripsy for the treatment of calcified coronary stenoses: first description. Circulation. 2019;139(6):834-836.
  10. Sattar Y, Ullah W, Mir T, et al. Safety and efficacy of coronary intravascular lithotripsy for calcified coronary arteries– a systematic review and meta-analysis. Expert Review of Cardiovascular Therapy. 2021;19(1):89-98.
  11. Mousa MAA, Bingen BO, Al Amri I, et al. Efficacy and Safety of Intravascular Lithotripsy Versus Rotational Atherectomy in Balloon-Crossable Heavily Calcified Coronary Lesions. Cardiovasc Revasc Med. 2023;48:1-6.
  12. Carvalho PEP, Strepkos D, Alexandrou M, et al. Intravascular Lithotripsy Versus Rotational Atherectomy in Coronary Chronic Total Occlusions: Analysis from the Prospective Global Registry for the Study of Chronic Total Occlusion Intervention Registry. Am J Cardiol. 2025;235:37-43.
  13. Aksoy A, Tiyerili V, Jansen N, et al. Propensity-score-matched comparison of safety, efficacy, and outcome of intravascular lithotripsy versus high-pressure PTCA in coronary calcified lesions. Int J Cardiol Heart Vasc. 2021;37:100900.
  14. Gallinoro E, Monizzi G, Sonck J, et al. Physiological and angiographic outcomes of PCI in calcified lesions after rotational atherectomy or intravascular lithotripsy. Int J Cardiol. 2022;352:27-32.
  15. Wong B, Kam KK, So CY, et al. Synergistic Coronary Artery Calcium Modification With Combined Atherectomy and Intravascular Lithotripsy. J Invasive Cardiol. 2023;35(3):E128-E135.
  16. Hesse K, Shahid F, Ahmed R, et al. Early experience of intravascular lithotripsy in unprotected calcified left main coronary artery disease. Cardiovasc Revasc Med. 2023;55:33-41.
  17. Oomens T, Vos NS, van der Schaaf RJ, et al. EXpansion of stents after intravascular lithoTripsy versus conventional predilatation in CALCified coronary arteries. Int J Cardiol. 2023;386:24-29.
  18. Sandesara PB, Elhage Hassan M, Shekiladze N, et al. Intravascular lithotripsy compared to rotational atherectomy for the treatment of calcified distal left main coronary artery disease: A single center experience. Catheterization and Cardiovascular Interventions. 2023;102(6):997-1003.
  19. Sukul D, Seth M, Madder RD, et al. Contemporary Trends and Outcomes of Intravascular Lithotripsy in Percutaneous Coronary Intervention: Insights From BMC2. JACC Cardiovasc Interv. 2024;17(15):1811-1821.
  20. Grines CL, Box LC, Mamas MA, et al. SCAI Expert Consensus Statement on Percutaneous Coronary Intervention Without On-Site Surgical Backup. Journal of the Society for Cardiovascular Angiography & Interventions. 2023;2(2).
  21. Oliveri F, van Oort MJH, Phagu AAS, et al. Intravascular lithotripsy in calcified left main coronary artery: Procedural success and 1-year clinical outcomes. Int J Cardiol. 2025;423:132996.
  22. Gibbs S, Wiens EJ, Minhas K. One-year outcomes in patients who underwent coronary intravascular shockwave lithotripsy for highly-calcified coronary lesions. Indian Heart J. 2022;74(6):524-526.
  23. Mhanna M, Beran A, Nazir S, et al. Efficacy and Safety of Intravascular Lithotripsy in Calcified Coronary Lesions: A Systematic Review and Meta-Analysis. Cardiovascular Revascularization Medicine. 2022;36:73-82.
  24. Wong JJ, Umapathy S, Keh YS, et al. Coronary Intravascular Lithotripsy Versus Rotational Atherectomy in an Asian Population: Clinical Outcomes in Real-World Patients. Korean Circ J. 2022;52(4):288-300.
  25. Blachutzik F, Meier S, Weissner M, et al. Comparison of Coronary Intravascular Lithotripsy and Rotational Atherectomy in the Modification of Severely Calcified Stenoses. Am J Cardiol. 2023;197:93-100.
  26. Gupta A, Shrivastava A, Chhikara S, et al. Safety, efficacy, and optical coherence tomography insights into intravascular lithotripsy for the modification of non-eruptive calcified nodules: A prospective observational study. Catheter Cardiovasc Interv. 2024;104(4):688-696.
  27. Frizzell J, Kereiakes DJ. Calcified plaque modification during percutaneous coronary revascularization. Prog Cardiovasc Dis. 2024.
  28. Blachutzik F, Meier S, Weissner M, et al. Coronary intravascular lithotripsy and rotational atherectomy for severely calcified stenosis: Results from the ROTA.shock trial. Catheter Cardiovasc Interv. 2023;102(5):823-833.
  29. van Oort MJH, Al Amri I, Bingen BO, et al. Procedural and clinical impact of intravascular lithotripsy for the treatment of peri-stent calcification. Cardiovasc Revasc Med. 2024;61:16-23.
  30. van Oort MJH, Al Amri I, Bingen BO, et al. Evolving use and clinical outcomes of coronary intravascular lithotripsy: insights from an international, multicentre registry. Heart. 2024;111(2):62-68.
  31. McInerney A, Travieso A, Jeronimo Baza A, et al. Impact of coronary calcium morphology on intravascular lithotripsy. EuroIntervention. 2024;20(10):e656-e668.
  32. Rola P, Furtan L, Wlodarczak S, et al. Safety and efficacy of a novel calcified plaque modification technique - Shockwave Intravascular Lithotripsy - in patients with coronary artery disease: Mid-term outcomes. Kardiol Pol. 2023;81(9):878-885.
  33. Huisman J, van der Heijden LC, Kok MM, et al. Two-year outcome after treatment of severely calcified lesions with newer-generation drug-eluting stents in acute coronary syndromes: A patient-level pooled analysis from TWENTE and DUTCH PEERS. Journal of Cardiology. 2017;69(4):660-665.
  34. Rola P, Furtan L, Wlodarczak S, et al. Rota-Lithotripsy as a Novel Bail-Out Strategy for Highly Calcified Coronary Lesions in Acute Coronary Syndrome. Biomedicines. 2022;10(11).
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