AIMS: This study evaluated whether optical frequency domain imaging (OFDI) could identify various coronary calcifications and accurately measure calcification thickness in comparison with histopathology. METHODS AND RESULTS: A total of 902 pathological cross-sections from 44 coronary artery specimens of human cadavers were examined to compare OFDI and histological images. Histological coronary calcification was classified into four different types: (i) superficial dense calcified plates, (ii) deep intimal calcification, (iii) scattered microcalcification, and (iv) calcified nodule. The thickness of calcification was measured when both the leading and trailing edges of calcification were visible on OFDI. Of the 902 histological cross-sections, 158 (18%) had calcification: 105 (66%) were classified as superficial dense calcified plates, 20 (13%) as deep intimal calcifications, 30 (19%) as scattered microcalcifications, and 3 (2%) as calcified nodules. Superficial dense calcified plates appeared as well-delineated heterogeneous signal-poor regions with sharp borders on OFDI. Deep intimal calcifications could not be identified on OFDI. Scattered microcalcification appeared as homogeneous low intensity areas with indiscriminant borders. Calcified nodule, a high-backscattering protruding mass with an irregular surface, also appeared as a low intensity area with a diffuse border. The ROC analysis identified calcium thicknesses <893 µm as cut points for the prediction of measurable calcification (72% sensitivity and 91% specificity, area under the curve = 0.893, P < 0.001). CONCLUSION: Our study demonstrated the potential capability of OFDI to characterize various types of coronary calcifications, which may contribute to the understanding of the pathogenesis of coronary atherosclerosis. Published on behalf of the European Society of Cardiology. All rights reserved.
AIMS: This study evaluated whether optical frequency domain imaging (OFDI) could identify various coronary calcifications and accurately measure calcification thickness in comparison with histopathology. METHODS AND RESULTS: A total of 902 pathological cross-sections from 44 coronary artery specimens of human cadavers were examined to compare OFDI and histological images. Histological coronary calcification was classified into four different types: (i) superficial dense calcified plates, (ii) deep intimal calcification, (iii) scattered microcalcification, and (iv) calcified nodule. The thickness of calcification was measured when both the leading and trailing edges of calcification were visible on OFDI. Of the 902 histological cross-sections, 158 (18%) had calcification: 105 (66%) were classified as superficial dense calcified plates, 20 (13%) as deep intimal calcifications, 30 (19%) as scattered microcalcifications, and 3 (2%) as calcified nodules. Superficial dense calcified plates appeared as well-delineated heterogeneous signal-poor regions with sharp borders on OFDI. Deep intimal calcifications could not be identified on OFDI. Scattered microcalcification appeared as homogeneous low intensity areas with indiscriminant borders. Calcified nodule, a high-backscattering protruding mass with an irregular surface, also appeared as a low intensity area with a diffuse border. The ROC analysis identified calcium thicknesses <893 µm as cut points for the prediction of measurable calcification (72% sensitivity and 91% specificity, area under the curve = 0.893, P < 0.001). CONCLUSION: Our study demonstrated the potential capability of OFDI to characterize various types of coronary calcifications, which may contribute to the understanding of the pathogenesis of coronary atherosclerosis. Published on behalf of the European Society of Cardiology. All rights reserved.
Authors: Makoto Araki; Seung-Jung Park; Harold L Dauerman; Shiro Uemura; Jung-Sun Kim; Carlo Di Mario; Thomas W Johnson; Giulio Guagliumi; Adnan Kastrati; Michael Joner; Niels Ramsing Holm; Fernando Alfonso; William Wijns; Tom Adriaenssens; Holger Nef; Gilles Rioufol; Nicolas Amabile; Geraud Souteyrand; Nicolas Meneveau; Edouard Gerbaud; Maksymilian P Opolski; Nieves Gonzalo; Guillermo J Tearney; Brett Bouma; Aaron D Aguirre; Gary S Mintz; Gregg W Stone; Christos V Bourantas; Lorenz Räber; Sebastiano Gili; Kyoichi Mizuno; Shigeki Kimura; Toshiro Shinke; Myeong-Ki Hong; Yangsoo Jang; Jin Man Cho; Bryan P Yan; Italo Porto; Giampaolo Niccoli; Rocco A Montone; Vikas Thondapu; Michail I Papafaklis; Lampros K Michalis; Harmony Reynolds; Jacqueline Saw; Peter Libby; Giora Weisz; Mario Iannaccone; Tommaso Gori; Konstantinos Toutouzas; Taishi Yonetsu; Yoshiyasu Minami; Masamichi Takano; O Christopher Raffel; Osamu Kurihara; Tsunenari Soeda; Tomoyo Sugiyama; Hyung Oh Kim; Tetsumin Lee; Takumi Higuma; Akihiro Nakajima; Erika Yamamoto; Krzysztof L Bryniarski; Luca Di Vito; Rocco Vergallo; Francesco Fracassi; Michele Russo; Lena M Seegers; Iris McNulty; Sangjoon Park; Marc Feldman; Javier Escaned; Francesco Prati; Eloisa Arbustini; Fausto J Pinto; Ron Waksman; Hector M Garcia-Garcia; Akiko Maehara; Ziad Ali; Aloke V Finn; Renu Virmani; Annapoorna S Kini; Joost Daemen; Teruyoshi Kume; Kiyoshi Hibi; Atsushi Tanaka; Takashi Akasaka; Takashi Kubo; Satoshi Yasuda; Kevin Croce; Juan F Granada; Amir Lerman; Abhiram Prasad; Evelyn Regar; Yoshihiko Saito; Mullasari Ajit Sankardas; Vijayakumar Subban; Neil J Weissman; Yundai Chen; Bo Yu; Stephen J Nicholls; Peter Barlis; Nick E J West; Armin Arbab-Zadeh; Jong Chul Ye; Jouke Dijkstra; Hang Lee; Jagat Narula; Filippo Crea; Sunao Nakamura; Tsunekazu Kakuta; James Fujimoto; Valentin Fuster; Ik-Kyung Jang Journal: Nat Rev Cardiol Date: 2022-04-21 Impact factor: 49.421
Authors: Joseph R Weber; Brendan Martin; Nicholas Kassis; Kunal Shah; Tomas Kovarnik; Holly Mattix-Kramer; John J Lopez Journal: Diab Vasc Dis Res Date: 2020 May-Jun Impact factor: 3.291