Guedeney P, Claessen BE, Mehran R, Mintz GS, Liu M, Sorrentino S, Giustino G, Farhan S, Leon MB, Serruys PW, Smits PC, von Birgelen C, Ali ZA, Généreux P, Redfors B, Madhavan MV, Ben-Yehuda O, Stone GW (2020) Coronary calcification and long-term outcomes according to drug-eluting stent generation. JACC Cardiovasc Interv 13(12):1417–1428
Kuramitsu S, Ohya M, Shinozaki T, Otake H, Horie K, Kawamoto H, Yamanaka F, Natsuaki M, Shiomi H, Nakazawa G, Ando K, Kadota K, Saito S, Kimura T (2019) Risk factors and long-term clinical outcomes of second-generation drug-eluting stent thrombosis. Circ Cardiovasc Interv 12(6):e007822
Article CAS PubMed Google Scholar
Madhavan MV, Tarigopula M, Mintz GS, Maehara A, Stone GW, Généreux P (2014) Coronary artery calcification: pathogenesis and prognostic implications. J Am Coll Cardiol 63(17):1703–1714
Article CAS PubMed Google Scholar
Fujino A, Mintz GS, Lee T, Hoshino M, Usui E, Kanaji Y, Murai T, Yonetsu T, Matsumura M, Ali ZA, Jeremias A, Moses JW, Shlofmitz RA, Kakuta T, Maehara A (2018) Predictors of calcium fracture derived from balloon angioplasty and its effect on stent expansion assessed by optical coherence tomography. JACC Cardiovasc Interv 11(10):1015–1017
Kubo T, Shimamura K, Ino Y, Yamaguchi T, Matsuo Y, Shiono Y, Taruya A, Nishiguchi T, Shimokado A, Teraguchi I, Orii M, Yamano T, Tanimoto T, Kitabata H, Hirata K, Tanaka A, Akasaka T (2015) Superficial calcium fracture after PCI as assessed by OCT. JACC Cardiovasc Imaging 8(10):1228–1229
Maejima N, Hibi K, Saka K, Akiyama E, Konishi M, Endo M, Iwahashi N, Tsukahara K, Kosuge M, Ebina T, Umemura S, Kimura K (2016) Relationship between thickness of calcium on optical coherence tomography and crack formation after balloon dilatation in calcified plaque requiring rotational atherectomy. Circ J 80(6):1413–1419
Angsubhakorn N, Kang N, Fearon C, Techorueangwiwat C, Swamy P, Brilakis ES, Bharadwaj AS (2022) Contemporary management of severely calcified coronary lesions. J Pers Med 12(10):1638
Article PubMed PubMed Central Google Scholar
Hennessey B, Pareek N, Macaya F, Yeoh J, Shlofmitz E, Gonzalo N, Hill J, Escaned J (2023) Contemporary percutaneous management of coronary calcification: current status and future directions. Open Heart 10(1):e002182
Article PubMed PubMed Central Google Scholar
Ikari Y, Saito S, Nakamura S, Shibata Y, Yamazaki S, Tanaka Y, Ako J, Yokoi H, Kobayashi Y, Kozuma K (2023) Device indication for calcified coronary lesions based on coronary imaging findings. Cardiovasc Interv Ther 38(2):163–165
Article PubMed PubMed Central Google Scholar
Mody R, Dash D, Mody B, Maligireddy AR, Agrawal A, Rastogi L, Monga IS (2023) Can most calcified coronary stenosis be optimized with coronary intravascular lithotripsy? JACC Asia 3(2):185–197
Article PubMed PubMed Central Google Scholar
Sakakura K, Jinnouchi H, Taniguchi Y, Yamamoto K, Fujita H (2023) Lifetime management of severely calcified coronary lesions: the treatment algorithm focused on the shape of calcification. Cardiovasc Interv Ther 38(4):375–380
Garcia-Garcia HM, McFadden EP, Farb A, Mehran R, Stone GW, Spertus J, Onuma Y, Morel MA, van Es GA, Zuckerman B, Fearon WF, Taggart D, Kappetein AP, Krucoff MW, Vranckx P, Windecker S, Cutlip D, Serruys PW, Consortium AR (2018) Standardized end point definitions for coronary intervention trials: the academic research consortium-2 consensus document. Circulation 137(24):2635–2650
Mintz GS, Nissen SE, Anderson WD, Bailey SR, Erbel R, Fitzgerald PJ, Pinto FJ, Rosenfield K, Siegel RJ, Tuzcu EM, Yock PG (2001) American college of cardiology clinical expert consensus document on standards for acquisition, measurement and reporting of intravascular ultrasound studies (IVUS): a report of the american college of cardiology task force on clinical expert consensus documents. J Am Coll Cardiol 37(5):1478–1492
Article CAS PubMed Google Scholar
Lee JB, Mintz GS, Lisauskas JB, Biro SG, Pu J, Sum ST, Madden SP, Burke AP, Goldstein J, Stone GW, Virmani R, Muller JE, Maehara A (2011) Histopathologic validation of the intravascular ultrasound diagnosis of calcified coronary artery nodules. Am J Cardiol 108(11):1547–1551
Brugaletta S, Gomez-Lara J, Diletti R, Farooq V, van Geuns RJ, de Bruyne B, Dudek D, Garcia-Garcia HM, Ormiston JA, Serruys PW (2012) Comparison of in vivo eccentricity and symmetry indices between metallic stents and bioresorbable vascular scaffolds: insights from the ABSORB and SPIRIT trials. Catheter Cardiovasc Interv 79(2):219–228
Räber L, Mintz GS, Koskinas KC, Johnson TW, Holm NR, Onuma Y, Radu MD, Joner M, Yu B, Jia H, Meneveau N, de la Torre Hernandez JM, Escaned J, Hill J, Prati F, Colombo A, di Mario C, Regar E, Capodanno D, Group ESD (2018) Clinical use of intracoronary imaging part 1: guidance and optimization of coronary interventions an expert consensus document of the European association of percutaneous cardiovascular interventions. Eur Heart J 39(35):3281–3300
Ali ZA, Kereiakes DJ, Hill JM, Saito S, Di Mario C, Honton B, Gonzalo N, Riley RF, Maehara A, Matsumura M, Shin D, Stone GW, Shlofmitz RA (2023) Impact of calcium eccentricity on the safety and effectiveness of coronary intravascular lithotripsy: pooled analysis from the disrupt CAD studies. Circ Cardiovasc Interv 16(10):e012898
Article CAS PubMed PubMed Central Google Scholar
Xu Y, Mintz GS, Tam A, McPherson JA, Iñiguez A, Fajadet J, Fahy M, Weisz G, De Bruyne B, Serruys PW, Stone GW, Maehara A (2012) Prevalence, distribution, predictors, and outcomes of patients with calcified nodules in native coronary arteries: a 3-vessel intravascular ultrasound analysis from providing regional observations to study predictors of events in the coronary tree (PROSPECT). Circulation 126(5):537–545
Jinnouchi H, Sakakura K, Taniguchi Y, Tsukui T, Watanabe Y, Yamamoto K, Seguchi M, Wada H, Fujita H (2023) Clinical outcomes and unique restenosis of calcified nodule in heavily calcified coronary artery. J Atheroscler Thromb 30(6):649–662
Morofuji T, Kuramitsu S, Shinozaki T, Jinnouchi H, Sonoda S, Domei T, Hyodo M, Shirai S, Ando K (2021) Clinical impact of calcified nodule in patients with heavily calcified lesions requiring rotational atherectomy. Catheter Cardiovasc Interv 97(1):10–19
Nozoe M, Nishioka S, Oi K, Suematsu N, Kubota T (2021) Effects of patient background and treatment strategy on clinical outcomes after coronary intervention for calcified nodule lesions. Circ Rep 3(12):699–706
Article PubMed PubMed Central Google Scholar
Kaihara T, Higuma T, Kotoku N, Kuwata S, Mitarai T, Koga M, Kamijima R, Izumo M, Ishibashi Y, Tanabe Y, Akashi YJ (2020) Calcified nodule protruding into the lumen through stent struts: an in vivo OCT analysis. Cardiovasc Revasc Med 21(11S):116–118
留言 (0)