Your search keyword '"P. Hatzigiannis"' showing total 8 results

1. P981Lvot area measurement using gated ct data reclassifies aortic stenosis severity as graded by echocardiographyP982Paradoxical low-flow low-gradient aortic stenosis: an intermediate state between moderate and severe aortic stenosis?P983Can rheumatic significant mitral stenosis be a cause of paradoxical low gradient, low flow, in patients with severe aortic stenosis? an echocardiographic and outcome studyP984Clinical and hemodynamic comparison of isolated versus combined aortic and mitral stenosisP985Echocardiographic end-diastolic velocity in the proximal descending aorta should be interpreted with caution when the ascending aorta is dilated: insights from cardiovascular magnetic resonanceP987Prevalence of atrial mitral regurgitation in patients with severe mitral regurgitationP988Role of 2D/3D echocardiography in the risk stratification of endocardial lead-related tricuspid regurgitation: a single-centre study among?241 patientsP989When TEE is needed in patients with staphylococcus aureus bacteremia for the assessment of risk profile of infective endocarditis?P990Appropriateness criteria to echocardiograms for suspected infective endocarditis: experience of a tertiary referral centerP991Independent predictors of outcome in infective endocarditisP992The role of transesophageal cardiography in clinical course and prognosis of complicated infective endocarditis in critically ill patients: our 15 years experienceP993Left bundle branch block atypical pattern as a prognostic determinant in patients taken to TAVIP994Efficacy of long-term ivabradine therapy in severe systolic chronic heart failure patients with and without type 2 diabetes mellitusP995Relations between left ventricular reverse remodeling and serum markers of extracellular matrix fibrosis in dilated cardiomyopathyP996The healthy left ventricle accommodates an increasing vortex formation time for volume transfer in diastolic filling :Implications for heart failureP997Evolutionary changes of pulmonary artery pressure after left ventricular assist device implantP998Functional correlates and prognostic value of coronary flow velocity reserve by vasodilator stress echocardiography in hypertrophic cardiomyopathyP999Quantification of myocardial performance in patients with non-obstructive versus latent-obstructive hypertrophic cardiomyopathyP1000Lifelong arrhythmic risk stratification in arrhythmogenic right ventricular cardiomyopathy: distribution of events and impact of periodical reassessmentP1001Impact of fibrosis visualized by CMR in vectorcardiogram recordings of patients with suspected arrhythmogenic cardiomyopathyP1002Determinants of the beneficial effect of aldosterone antagonism on exercise capacity in heart failure with reduced ejection fractionP1003Myocardial strain values in patients with acute myocarditis and preserved ejection fraction. A magnetic resonance feature tracking studyP1004Detection of subclinical left ventricular dysfunction by speckle tracking echocardiography in patients with myocarditis without prominent wall motion abnormalitiesP1005Aborted sudden cardiac death patients aged <50 years show only mild alterations on cardiac magnetic resonance imagingP1006Relationships between subepicardial and subendocardial longitudinal strain with late gadolinium enhancement in uncomplicated hypertensive patients

Author

C. Contaldi, T. Zaremba, P. Kostakou, A M G Almeida, W. Kosmala, B. Igual Munoz, C. Cappelletto, J. Wang, Q. Ciampi, MV. Di Ruocco, GJ. King, S. Wisniowska-Smialek, LR. Tumasyan, B. Parra Laca, F. Ahmad, R. Ilhao Moreira, F. Casadei, L. Longobardo, A. Hamadanchi, K. Johnson, O. Bech-Hanssen, A. Soufiani, C. Di Nora, L. Moderato, A. Palumbo, S. Coli, D. Orlandini, G. Russo, N. Gaibazzi, S. Poli, O. Vriz, C. Zito, S. Carerj, D. Pavan, F. Antonini-Canterin, H. Ougnou, FZ. Elhattab, N. Bendagha, M. Tribak, FZ. Lahchab, L. Mahfoudi, B. Fadel, S. Moughil, D. Mohty, FZ. El Hattab, V. Aboyans, CL. Polte, F. Svensson, ÅA Johnsson, KM. Lagerstrand, SA. Gao, ST. Abdel-Rahman, L. Dobson, K. Gatenby, A. Kidambi, D. Schlosshan, B. Moradi, Y. Asadi, TC. Poerner, T. Doenst, PC. Schulze, B. Goebel, O. Trio, M. Cusma'-Piccione, G. Di Bella, BK. Khandheria, B. De Chiara, F. Spano', D. Bokor, S. Quattrocchi, M. Varrenti, E. Vigano', I. Rinaldi, C. Giannattasio, A. Moreo, M. Coutinho Cruz, L. Moura Branco, A. Galrinho, L. Coutinho Miranda, A. Viveiros Monteiro, S. Aguiar Rosa, I. Rodrigues, J. Fragata, R. Cruz Ferreira, S. Cox, ST. Chan, E. Abdul Rahman, I. Zainal Abidin, MA. Sadiq, F. Islas, A. De Agustin, L. Nombela, P. Marcos-Alberca, C. Macaya, L. Perez De Isla, C. Olmos, KG. Adamyan, P. Rubis, L. Khachatryan, A. Karabinowska, P. Faltyn, E. Dziewiecka, B. Biernacka-Fialkowska, M. Hlawaty, M. Kostkiewicz, P. Podolec, K. Coen, M. Serseniuc, PG. Nolan, JG. Clarke, PL. Temporelli, M. Pistono, A. Imparato, E. Eleuteri, P. Giannuzzi, L. Cortigiani, M. Tesic, B. Beleslin, F. Rigo, A. Djorkievic-Dikic, E. Picano, L. Zuo, SJ. Ta, N. Kang, MY. Zhou, RQ. Guo, L. Liu, D. Stolfo, A. De Luca, B. Pinamonti, G. Barbati, G. Gobbo, A. Pivetta, F. Brun, M. Merlo, G. Sinagra, JS. Sanz, PMA Molina-Aguilar, FCR Castells Ramon, JGB Giner Blasco, SG. Santiago Jimenez, AMG Maceira-Gonzalez, AMR Monserrat Reina, LTS Tuset Sanchez, EZG Zorio-Grima, W. Sacharczuk, T. Kotwica, R. Dankowski, M. Przewlocka-Kosmala, M. Kobusiak-Prokopowicz, A. Mysiak, A. Szyszka, MN. Menezes, G. Lima Silva, T. Guimaraes, AR. Francisco, R. Placido, C. David, FJ. Pinto, N. Kouris, E. Trifou, V. Kostopoulos, P. Hatzigiannis, CD. Olympios, AK. Broendberg, HK. Jensen, WY. Kim, M. Imbriaco, G. Alcidi, A. Ponsiglione, C. Santoro, M. Puglia, L. Barbuto, A. Cuocolo, B. Trimarco, and M. Galderisi

Subjects

Aortic valve, Reproducibility, business.industry, General Medicine, 030204 cardiovascular system & hematology, medicine.disease, Spearman's rank correlation coefficient, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Stenosis, 0302 clinical medicine, Aortic valve area, medicine.anatomical_structure, Aortic valve stenosis, Medicine, Ventricular outflow tract, Radiology, Nuclear Medicine and imaging, Tomography, Cardiology and Cardiovascular Medicine, business, Nuclear medicine

Abstract

Background Measurement of left ventricular outflow tract (LVOT) diameter and area for estimation of aortic valve area (AVA) using transthoracic echocardiography (TTE) and the continuity equation assumes circular LVOT. The use of direct planimetric measurement of LVOT area by gated-CT can theoretically improve accuracy of AVA calculation. Purpose We aim to assess reproducibility of LVOT echo measurement and its correlation and agreement with Gated CT measurements. In the subgroup with aortic stenosis (AS) we secondarily assessed the potential change in AS severity using LVOT area by CT instead of TTE in the continuity equation. Methods We retrospectively studied 93 patients, 43 of whom with severe AS. LVOT Area was measured with 2D TTE by 2 expert echocardiographers and gated-CT by 2 expert radiologists; inter-reader agreement and inter-method (Echo vs gated CT) agreement and correlation were measured. Finally we used the measurement of CT scan in the continuity equation instead of TTE measurement to assess potential reclassification of AS severity. Results Mean age was 78±11. Table shows inter-reader and inter-method agreement and correlation. The correlation between 2 echocardiophers for LVOT measurements was good (rho = 0,77) although not perfect. Out of 43 severe AS, defined as AVA

Published

2016

2. Saturday, 25 August 2012

Author

A. Welz, B. V. Antwerp, A Di Cori, A. Hager, P. Hatzigiannis, R. De Lucia, C. Yu, A. Apor, M. Niemann, R. Sampognaro, M. Fiuza, M. G. Charlot, N. Cortez Dias, A. Nagae, A. Maciag, T. Sato, M. Valgimigli, D. Levorato, S. Herrmann, T. Kimura, M. Luedde, V. Tzamou, M. Iwabuchi, C. Rickers, J. Sobierajski, J. Vecera, C. Vlachopoulos, K. Goscinska-Bis, S. Goldsmith, H. Ueno, J. Sosna, G. Malerba, W. Li, H. W. Lee, K. Bogaard, K. Yamada, A. Mateo-Martinez, J. Navarova, M. Zeman, K. Dimopoulos, M. P. Lopez Lereu, E. Pelissero, B. Gersak, J. M. Tolosana, S Manzano Fernandez, P. Mertens, J. J. M. Takkenberg, J. W. Kim, R.T. van Domburg, G. P. Diller, H. M. Yang, F. Gustafsson, P. G. Golzio, G. S. Hwang, J. Brugada, S. Stoerk, J. Hess, Y. Cavusoglu, L. Segreti, M. E. Trucco, C. Jacoby, I. Bafakis, T. Isshiuki, L. Pulpon, S. Pires, L. Paperini, A. Cremonesi, H. Baumgartner, C. Tsioufis, M. Valdes-Chavarri, S. Schaefer, M. Totzeck, A. Bochenek, F. Saia, P. Carrilho-Ferreira, M. Khatib, E. M. W. J. Utens, G. Zucchelli, R. Jenni, E. Gencer, N. Carter, A. Kovacs, C. Linde, V. Monivas, A. Marzocchi, L. Baerfacker, L. Mont, R. Weber, F. J. Enguita, T. L. Bergemann, M. Chudzik, A. Chernyavskiy, D. Dragulescu, S. Orwat, B. J. Choi, P. Opic, C. Torp-Pedersen, F. Gaita, V. A. W. M. Umans, A. Lopez-Cuenca, S. B. Christensen, E. C. Bertolino, D. Tousoulis, F. Weidemann, H. H. Kramer, J. Greenslade, J Cosin Sales, M. Gonzalez Estecha, W. Grosso Marra, T. Katsimichas, J. Hoerer, S. Mingo, M. Hochadel, M. A. Castel, M. S. Lattarulo, E. Y. Yun, K. Fattouch, H. S. Lim, A. Uebing, T. Ulus, J. Radosinska, A. Castro Beiras, J. Peteiro, M. Koren, C. Prados, A. Nunes, C. Rammos, C. Thomopoulos, T. Kameyama, F. Borgia, I. Voges, J. L. Looi, L. Cullen, C. Campo, J. Bis, S. Shiva, H. Kato, N. Frey, E. Andrikou, G. H. Gislason, J. Ruvira, A. Kasiakogias, S. Robalo Martins, A. M. Zimmer, M. H. Yacoub, M. Nobuyoshi, U. Zeymer, K. Hanazawa, F. J. Broullon, B. Petracci, K. Hu, A. Petrescu, A. M. Maceira Gonzalez, K. Harada, L. Swan, C. Felix, H. Inoue, T. Haraguchi, N. Cortez-Dias, S. Bisetti, P. Mitkowski, C. Daubert, H. J. Heuvelman, M. R. Gold, G. P. Kimman, O. Gaemperli, H. C. Lee, Y. Takasawa, V. Monivas Palomero, A. C. Andrade, S. Maddock, W. Budts, M. Penicka, F. J. Ten Cate, M. Czajkowski, C. D. Nguyen, K. Kaitani, K. Kintis, S. Castrovinci, D. Liu, T. Benova, K. W. Seo, B. A. Herzog, A. Ionac, C. Jorge, M. Iacoviello, S. Kuramitsu, Y. Nakagawa, K. U. Mert, A. Manari, S. Brili, R. Alonso-Gonzalez, A. J. Six, J. S. Mcghie, A. Goedecke, M. Kelm, F. C. Tanner, F. Marin, C. I. Santos De Sousa, L. Kober, M. Frigerio, D. Adam, B. E. Backus, U. Hendgen-Cotta, A. Belo, D. Couto Mallon, M. Dewor, M. Madsen, J. H. Shin, M. H. Yoon, L. Maiz, P. Lancellotti, A. Nunes Diogo, G. Ertl, R. Pietura, A. Mornos, M. Than, C. Andersson, C. Izumi, E. Liodakis, N. van Boven, Y. Y. Lam, T. Hansen, W. Roell, T. J. Hong, P. Luedicke, M. Sanchez-Martinez, L. Ruiz Bautista, E. N. Oechslin, T. Klaas, M. T. Martinez, W. A. Helbing, J. L. Januzzi, S. Parra-Pallares, A. Romanov, B. Sax, D. Prokhorova, P. Guastaroba, D. Silva, A. Karaskov, P. Kolkhof, B. Bouzas Zubeldia, T. Rassaf, M. Costa, C. Viczenczova, V. Antoncecchi, A. Kempny, J. Bartunek, I. Kardys, J. H. Ahn, C. Hart, A. Berruezo, C. Vittori, W. Vletter, M. Shigekiyo, S. Knob, V. Marangelli, R. Borras, A E Van Den Bosch, S. Y. Choi, E. Arbelo, G. Lazaros, T. Arita, G. Suchan, T. Nakadate, D. Van Der Linde, E. Pokushalov, K. Ando, J. Neutel, P. Biaggi, C. Mornos, R. Corti, M. Landolina, B. Merkely, B. Malecka, H. J. Hippe, S. J. Tahk, J. Aguilar, G. Piovaccari, M. Lutz, D. Rizopoulos, N. Alvarez Garcia, M. Cipriani, T. Kumamoto, S. Kubota, M. Sitges, B. K. Fleischmann, G. Caccamo, D. Tsiachris, M. A. Russ, F. Mutlu, A. Menozzi, J. C. Choi, J. V. Monmeneu, J. C. Yanez Wonenburger, N. Tribulova, C. Forleo, M. Vinci, J. W. Roos-Hesselink, O. Bodea, T. Domei, P. W. Lee, A. Puzzovivo, M. Heikenwaelder, F. Ferraris, C. Stefanadis, M. Kempa, M. Vanderheyden, A. Birdane, J. A. A. E. Cuypers, I. Andrikou, G. Casella, P. Stock, S. Favale, B. Bijnens, A. Kretschmer, J. Bernhagen, M. A. Cavero Gibanel, S. Datta, M. E. Menting, S. Viani, T. Heuft, M. Cikes, A. J. J. C. Bogers, J. Estornell, M. Pham, A. Nadir, F. J. Pinto, M. Hyodo, D. Flessas, C. Chrysohoou, O. Dewald, B. Ren, K. Wustmann, J. C. Burnett, T. Noto, G. Ruvolo, M. Witsenburg, E. Soldati, G. D. Duerr, L. Alonso Pulpon, J. H. Oh, A. Zabek, B. Albrecht-Kuepper, V. Antonakis, M. B. Nielsen, T. Huttl, B. Bacova, A. Piorkowski, I. Z. Cabrita, A. Fanelli, M. A. Weber, J. Segovia, A. I. Romero-Aniorte, J. H. Choi, V. Dosenko, C. Wackerl, J. H. Ruiter, H. Yokoi, S. Ghio, V. Knezl, F. Monitillo, M. Morello, M. Jerosch-Herold, M. L. Geleijnse, A. Bouzas Mosquera, R. Fabregas Casal, H. Mudra, J. Gruenenfelder, U. Floegel, L. Petrescu, M. A. Gatzoulis, S. Shizuta, J. Brachmann, M. G. Bongiorni, M. Pringsheim, J. Mueller, A. Nagy, R. Giron, W. T. Abraham, Y. Takabatake, F. Toyota, D. Martinez Ruiz, M. Lunati, S. Vargiu, L E De Groot De Laat, V. Shabanov, L. Lioni, R. Kast, D. Bettex, K. S. Cha, J. L. Diago, D. Cozma, H. Lieu, M. Giakoumis, E. Orenes-Pinero, G. Murana, A. Kutarski, A.P.J. van Dijk, G. Speziale, A. Boem, L. M. Belotti, B. Igual, A. M. S. Olsen, and H. Lue

Subjects

business.industry, Medicine, Ancient history, Cardiology and Cardiovascular Medicine, business

Published

2012

3. Attachment of periosteal grafts to articular cartilage with fibrin sealant

Author

A. M. Patel, Myron Spector, T. Minas, Tracy E. Orr, G. P. Hatzigiannis, and B. Wong

Subjects

Materials science, biology, Sealant, Cartilage, Biomedical Engineering, Adhesion (medicine), Biomaterial, medicine.disease, Fibrinogen, Fibrin, Biomaterials, medicine.anatomical_structure, medicine, biology.protein, Shear strength, Adhesive, medicine.drug, Biomedical engineering

Abstract

Favorable results using fibrin sealants in vascular surgery and soft tissue reconstruction have prompted investigation of these biologic adhesives for orthopedic applications. One important recent application was as a sealant for periosteal grafts applied to defects in articular surfaces, a procedure that contained injected chondrocytes cultured in vitro. The low and variable adhesive strength of autologous fibrin substances prompted our investigation of allogeneic fibrin. An in vitro test method was developed to investigate the use of a fibrin sealant for attaching periosteal (bovine) patches to articular cartilage (bovine). Dermis-dermis (porcine) adhesion also was evaluated. In tests of the periosteum-to-cartilage bond performed in a physiological environment, we determined the effects of the following variables on the adhesive shear strength: set time, source of fibrinogen (bovine versus human), and fibrinogen concentration. A specially designed test rig was developed to avoid nonshear force components. Adhesive shear strength increased with fibrin set time for both fibrinogen concentrations and sources (p

Published

1999

4. Attachment of periosteal grafts to articular cartilage with fibrin sealant

Author

T E, Orr, A M, Patel, B, Wong, G P, Hatzigiannis, T, Minas, and M, Spector

Subjects

Cartilage, Articular, Time Factors, Swine, Periosteum, Materials Testing, Animals, Humans, Cattle, Fibrin Tissue Adhesive, Stress, Mechanical

Abstract

Favorable results using fibrin sealants in vascular surgery and soft tissue reconstruction have prompted investigation of these biologic adhesives for orthopedic applications. One important recent application was as a sealant for periosteal grafts applied to defects in articular surfaces, a procedure that contained injected chondrocytes cultured in vitro. The low and variable adhesive strength of autologous fibrin substances prompted our investigation of allogeneic fibrin. An in vitro test method was developed to investigate the use of a fibrin sealant for attaching periosteal (bovine) patches to articular cartilage (bovine). Dermis-dermis (porcine) adhesion also was evaluated. In tests of the periosteum-to-cartilage bond performed in a physiological environment, we determined the effects of the following variables on the adhesive shear strength: set time, source of fibrinogen (bovine versus human), and fibrinogen concentration. A specially designed test rig was developed to avoid nonshear force components. Adhesive shear strength increased with fibrin set time for both fibrinogen concentrations and sources (p.03). The 30-min set time yielded data with less variance than the 5-min set time in all cases except with the higher human fibrinogen concentration (50-80 mg/mL). While there was a trend at each set time towards greater shear strength with increased protein concentration (50-80 mg/mL versus 25-40 mg/mL), only the 5-min trial of the bovine product provided a significant advantage (p.006). There was no significant difference in adhesive strength between the fibrin products produced with human and bovine fibrinogen. The periosteum-cartilage adhesive strengths obtained in our model were comparable to values recorded for the dermis-dermis bonding. The greater strength at the 30-min set time suggests that a certain time period of joint immobilization might be beneficial in procedures in which grafts are glued to articular cartilage. This study has shown that adhesive strengths achieved with fibrin glues in treating skin wounds also can be achieved in the attachment of periosteal grafts to articular cartilage.

Published

1999

5. Undifferentiated Cardiac Sarcoma Metastatic to the Maxilla: Report of a Case.

Author

Eisenberg, Ellen, Natarajan, Easwar, Yamase, Harold, and Hatzigiannis, George

Published

2007

6. Attachment of periosteal grafts to articular cartilage with fibrin sealant

Author

Orr, T. E., Patel, A. M., Wong, B., Hatzigiannis, G. P., Minas, T., and Spector, M.

Abstract

Favorable results using fibrin sealants in vascular surgery and soft tissue reconstruction have prompted investigation of these biologic adhesives for orthopedic applications. One important recent application was as a sealant for periosteal grafts applied to defects in articular surfaces, a procedure that contained injected chondrocytes cultured in vitro. The low and variable adhesive strength of autologous fibrin substances prompted our investigation of allogeneic fibrin. An in vitrotest method was developed to investigate the use of a fibrin sealant for attaching periosteal bovine patches to articular cartilage bovine. Dermis–dermis porcine adhesion also was evaluated. In tests of the periosteumtocartilage bond performed in a physiological environment, we determined the effects of the following variables on the adhesive shear strength: set time, source of fibrinogen bovine versus human, and fibrinogen concentration. A specially designed test rig was developed to avoid nonshear force components. Adhesive shear strength increased with fibrin set time for both fibrinogen concentrations and sources p< .03. The 30min set time yielded data with less variance than the 5min set time in all cases except with the higher human fibrinogen concentration 50–80 mgmL. While there was a trend at each set time towards greater shear strength with increased protein concentration 50–80 mgmL versus 25–40 mgmL, only the 5min trial of the bovine product provided a significant advantage p< .006. There was no significant difference in adhesive strength between the fibrin products produced with human and bovine fibrinogen. The periosteum–cartilage adhesive strengths obtained in our model were comparable to values recorded for the dermis–dermis bonding. The greater strength at the 30min set time suggests that a certain time period of joint immobilization might be beneficial in procedures in which grafts are glued to articular cartilage. This study has shown that adhesive strengths achieved with fibrin glues in treating skin wounds also can be achieved in the attachment of periosteal grafts to articular cartilage. © 1999 John Wiley & Sons, Inc. J Biomed Mater Res, 44, 308–313, 1999.

Published

1999

7. Solid Electrolyte Aided Study of the Oxidation of Hydrogen on Copper and Copper Oxide Catalysts

Author

Balian, A., Hatzigiannis, G., Eng, D., and Stoukides, M.

Abstract

The catalytic oxidation of hydrogen on copper and copper oxide surfaces was studied in a solid electrolyte cell at 250-365°C and 1 atm. The technique of solid electrolyte potentiometry (SEP) was used to monitor the thermodynamic activity of oxygen adsorbed on the catalyst surface during reaction. The oxygen activity value resulted from a steady-state mass balance of oxygen on the catalyst surface and under specific conditions, was several orders of magnitude lower than the gas-phase oxygen partial pressure. The stable phase of the solid was usually CuO and less frequently Cu₂O or metallic Cu. The reaction on reduced (Cu metal) surface exhibited much higher rates than on either oxide, while between the latter two, CuO was the least active surface. The rate-determining step on CuO was the surface reaction between atomically adsorbed hydrogen and oxygen. A kinetic model that quantitatively explains both kinetic and potentiometric measurements in the CuO regime is presented.Copyright 1994, 1999 Academic Press

Published

1994

8. Poster session 5: Friday 5 December 2014, 14:00-18:00 * Location: Poster area

Author

Turco, A, Duchenne, J, Nuyts, J, Gheysens, O, Voigt, J-U, Claus, P, Vunckx, K, Muhtarov, K, Ozer, N, Turk, G, Sunman, H, Karakulak, U, Sahiner, L, Kaya, B, Yorgun, H, Hazirolan, T, Aytemir, K, Warita, S, Kawasaki, M, Tanaka, R, Houle, H, Yagasaki, H, Nagaya, M, Ono, K, Noda, T, Watanabe, S, Minatoguchi, S, Kyle, AS, Dauphin, C, Lusson, J R, Dragoi Galrinho, R, Rimbas, RC, Ciobanu, AO, Marinescu, B, Cinteza, M, Vinereanu, D, 28343/04.11.2013, number, Medicine, Funding Authority: University of, Davila, Pharmacy Carol, "Young Researchers" Projects – 2013, Buchar, Dragoi Galrinho, R, Ciobanu, AO, Rimbas, RC, Marinescu, B, Cinteza, M, Vinereanu, D, 159/1.5/S/138907, Grant POSDRU, Aparina, O, Stukalova, O, Butorova, E, Makeev, M, Bolotova, M, Parkhomenko, D, Golitsyn, SP, Zengin, E, Hoffmann, B A, Ramuschkat, M, Ojeda, F, Weiss, C, Willems, S, Blankenberg, S, Schnabel, R B, Sinning, C R, Schubert, U, Suhai, F I, Toth, A, Kecskes, K, Czimbalmos, CS, Csecs, I, Maurovich-Horvat, P, Simor, T, Merkely, B, Vago, H, Slawek, D, Chrzanowski, L, Krecki, R, Binkowska, A, Kasprzak, J D, Palombo, C, Morizzo, C, Kozakova, M, Biering-Sorensen, T, Mogelvang, R, Jensen, JS, Charisopoulou, DC, Koulaouzidis, GK, Rydberg, AR, Henein, MH, Kovacs, A, Olah, A, Lux, A, Matyas, C, Nemeth, BT, Kellermayer, D, Ruppert, M, Birtalan, E, Merkely, B, Radovits, T, Sengelov, M, Biering-Sorensen, T, Jorgensen, PG, Bruun, NE, Fritz-Hansen, T, Bech, J, Olsen, FJ, Sivertsen, J, Jensen, JS, Henri, C, Dulgheru, R, Magne, J, Kou, S, Davin, L, Nchimi, A, Oury, C, Pierard, L, Lancellotti, P, Sahin, S T, Cengiz, B, Yurdakul, S, Altuntas, E, Aytekin, V, Aytekin, S, Bajraktari, G, Ibrahimi, P, Bytyci, I, Ahmeti, A, Batalli, A, Elezi, S, Henein, MY, Pavlyukova, EN, Tereshenkova, EK, Karpov, RS, Barbier, P, Mirea, O, Guglielmo, M, Savioli, G, Cefalu, C, Maltagliati, MC, Tumasyan, LR, Adamyan, KG, Chilingaryan, AL, Tunyan, LG, Kowalik, E, Klisiewicz, A, Biernacka, EK, Hoffman, P, Park, CS, Yi, JEY, Cho, JSC, Ihm, SHI, Kim, HYK, Cho, EJC, Jeon, HKJ, Jung, HOJ, Youn, HJY, Mcghie, JS, Menting, ME, Vletter, WB, Roos-Hesselink, JW, Geleijnse, ML, Van Der Zwaan, H, Van Den Bosch, A, Spethmann, S, Baldenhofer, G, Stangl, V, Baumann, G, Stangl, K, Laule, M, Dreger, H, Knebel, F, Erdei, T, Edwards, J, Braim, D, Yousef, Z, Fraser, AG, Cardiff, Investigators, MEDIA, Keramida, K, Kouris, N, Kostopoulos, V, Kostakou, P, Petrogiannos, CH, Olympios, CD, Bajraktari, G, Berisha, G, Bytyci, I, Ibrahimi, P, Rexhepaj, N, Henein, MY, Wdowiak-Okrojek, K, Shim, A, Wejner-Mik, P, Szymczyk, E, Michalski, B, Kasprzak, JD, Lipiec, P, Tarr, A, Stoebe, S, Pfeiffer, D, Hagendorff, A, Haykal, M, Ryu, SK, Park, JY, Kim, SH, Choi, JW, Goh, CW, Byun, YS, Choi, JH, Sonoko, M, Onishi, T, Fujimoto, W, Yamada, S, Taniguchi, Y, Yasaka, Y, Kawai, H, Okura, H, Sakamoto, Y, Murata, E, Kanai, M, Kataoka, T, Kimura, T, Watanabe, N, Kuriyama, N, Nakama, T, Furugen, M, Sagara, S, Koiwaya, H, Ashikaga, K, Matsuyama, A, Shibata, Y, Meimoun, P, Abouth, S, Martis, S, Boulanger, J, Elmkies, F, Zemir, H, Tzvetkov, B, Luycx-Bore, A, Clerc, J, Galli, E, Oger, E, Guirette, Y, Daudin, M, Fournet, M, Donal, E, Galli, E, Guirette, Y, Mabo, P, Donal, E, Keramida, K, Kouris, N, Kostopoulos, V, Psarrou, G, Petrogiannos, CH, Hatzigiannis, P, Olympios, CD, Igual Munoz, B, Erdociain Perales, MEP, Maceira Gonzalez Alicia, AMG, Vazquez Sanchez, ALEJAN, Miro Palau, VMP, Alonso Fernandez, PAF, Donate Bertolin, LDB, Estornell Erill, JEE, Cervera, AC, Montero Argudo Anastasio, AMA, Okura, H, Koyama, T, Maehama, T, Imai, K, Yamada, R, Kume, T, Neishi, Y, Caballero Jimenez, L, Garcia-Navarro, M, Saura, D, Oliva, MJ, Gonzalez-Carrillo, J, Espinosa, MD, Valdes, M, De La Morena, G, Venkateshvaran, A, Sola, S, Dash, P K, Annappa, C, Manouras, A, Winter, R, Brodin, LA, Govind, S C, Laufer-Perl, LM, Topilsky, Y, Stugaard, M, Koriyama, H, Katsuki, K, Masuda, K, Asanuma, T, Takeda, Y, Sakata, Y, Nakatani, S, Marta, L, Abecasis, J, Reis, C, Dores, H, Cafe, H, Ribeiras, R, Andrade, MJ, Mendes, M, Goebel, B, Hamadanchi, A, Schmidt-Winter, C, Otto, S, Jung, C, Figulla, HR, Poerner, TC, Kim, D-H, Sun, BJ, Jang, JY, Choi, HN, Song, J-M, Kang, D-H, Song, J-K, Zakhama, L, Slama, I, Boussabah, E, Antit, S, Herbegue, B, Annabi, MS, Jalled, A, Ben Ameur, W, Thameur, M, Ben Youssef, S, O' Grady, H, Gilmore, M, Delassus, P, Sturmberger, T, Ebner, C, Aichinger, J, Tkalec, W, Eder, V, Nesser, HJ, Caggegi, A M, Scandura, S, Capranzano, P, Grasso, C, Mangiafico, S, Ronsivalle, G, Dipasqua, F, Arcidiacono, A, Cannata, S, Tamburino, C, Chapman, M, Henthorn, RENEE, Surikow, S, Zoontjens, J, Stocker, B, Mclean, T, Zeitz, C J, Fabregat Andres, O, Estornell-Erill, J, Ridocci-Soriano, F, De La Espriella, R, Albiach-Montanana, C, Trejo-Velasco, B, Perdomo-Londono, D, Facila, L, Morell, S, Cortijo-Gimeno, J, Kouris, N, Keramida, K, Kostopoulos, V, Psarrou, G, Kostakou, P, Olympios, CD, Kuperstein, R, Blechman, I, Freimatk, D, Arad, M, Ochoa, J P, Fernandez, A, Vaisbuj, F, Salmo, F, Fava, AM, Casabe, H, Guevara, EG, Fernandes, A, Cateano, F, Almeida, I, Silva, J, Trigo, J, Botelho, A, Sanches, C, Venancio, M, Goncalves, L, Schnell, F, Daudin, M, Oger, E, Bouillet, P, Mabo, P, Carre, F, Donal, E, Petrella, L, Fabiani, D, Paparoni, S, De Remigis, F, Tomassoni, G, Prosperi, F, Napoletano, C, Marchel, M, Serafin, A, Kochanowski, J, Steckiewicz, R, Madej-Pilarczyk, A, Filipiak, KJ, Opolski, G, Abid, L, Ben Kahla, S, Charfeddine, S, Kammoun, S, Monivas Palomero, V, Mingo Santos, S, Goirigoizarri Artaza, J, Rodriguez Gonzalez, E, Restrepo Cordoba, A, Rivero Arribas, B, Garcia Lunar, I, Gomez Bueno, M, Sayago Silva, I, Segovia Cubero, J, Zengin, E, Radunski, U K, Klusmeier, M, Ojeda, F, Rybczynski, M, Barten, M, Muellerleile, K, Reichenspurner, H, Blankenberg, S, Sinning, C R, Romano, G, Licata, P, Tuzzolino, F, Clemenza, F, Di Gesaro, G, Hernandez Baravoglia, C, Scardulla, C, Pilato, M, Hashimoto, G, Suzuki, M, Yoshikawa, H, Otsuka, T, Isekame, Y, Iijima, R, Hara, H, Nakamura, M, Sugi, K, Melnikova, MA, Krestjyaninov, MV, Ruzov, VI, Magnino, C, Omede', P, Avenatti, E, Presutti, D, Moretti, C, Ravera, A, Sabia, L, Gaita, F, Veglio, F, Milan, A, Magda, SL, Mincu, RI, Soare, A, Mihai, CM, Florescu, M, Mihalcea, D, Cinteza, M, Vinereanu, D, POSDRU/159/1.5/S/141531, Grant, 112/2011, grant CNCSIS, Chatzistamatiou, E, Mpampatseva Vagena, I, Manakos, K, Moustakas, G, Konstantinidis, D, Memo, G, Mitsakis, O, Kasakogias, A, Syros, P, Kallikazaros, I, Petroni, R, Acitelli, A, Cicconetti, M, Di Mauro, M, Altorio, SF, Romano, S, Petroni, A, Penco, M, Apostolovic, S, Stanojevic, D, Jankovic-Tomasevic, R, Salinger-Martinovic, S, Pavlovic, M, Djordjevic-Radojkovic, D, Tahirovic, E, Dungen, HD, ELD, CIBIS, Jung, I H, Byun, Y S, Goh, C W, Kim, B O, Rhee, K J, Lee, D S, Kim, M J, Seo, H S, Kim, H Y, Tsverava, M, Tsverava, D, Zaletova, T, Shamsheva, D, Parkhomenko, O, Bogdanov, A, Derbeneva, S, Leotescu, A, Tudor, I, Gurghean, A, Bruckner, I, Plaskota, KJ, Trojnarska, O, Bartczak, A, Grajek, S, Sharma, P, Sharma, D, Garg, S, Vazquez Lopez-Ibor, J, Monivas Palomero, V, Solano-Lopez, JM, Zegri Reiriz, I, Dominguez Rodriguez, F, Gonzalez Mirelis, J, Mingo Santos, S, Sayago, I, Garcia Pavia, P, Segovia Cubero, J, Konecny, T, Noseworthy, P, Kapa, S, Cooper, LT, Mulpuru, SK, Asirvatham, S, Florescu, M, Mihalcea, D, Magda, S, Radu, E, Chirca, A, Acasandrei, AM, Jinga, D, Mincu, R, Enescu, OA, Vinereanu, D, 112/2011, no., PN-II-ID-PCE-2011-3-0791, Saura Espin, D, Caballero Jimenez, L, Oliva Sandoval, MJ, Gonzalez Carrillo, J, Garcia Navarro, M, Espinosa Garcia, MD, Valdes Chavarri, M, De La Morena Valenzuela, G, Abul Fadl, AAM, Mourad, MM, team, Primary care Echocardiography, Campanale, C M, Di Maria, S, Mega, S, Nusca, A, Marullo, F, Di Sciascio, G, Pardo Gonzalez, L, Delgado, M, Ruiz, M, Rodriguez, S, Hidalgo, F, Ortega, R, Mesa, D, Suarez De Lezo Cruz Conde, J, Bengrid, T M, Zhao, Y, Henein, MY, Kenjaev, S, Alavi, AL, Kenjaev, ML, Mendes, LM, Lima, S, Dantas, C, Melo, I, Madeira, V, Balao, S, Alves, H, Baptista, E, Mendes, P, Santos, JF, Scali, MC, Mandoli, GE, Simioniuc, A, Massaro, F, Di Bello, V, Marzilli, M, Dini, FL, Cifra, B, Dragulescu, A, Friedberg, MK, Mertens, L, Scali, MC, Bayramoglu, A, Tasolar, H, Otlu, YO, Hidayet, S, Kurt, F, Dogan, A, Pekdemir, H, Stefani, L, Galanti, GG, De Luca, ADL, Toncelli, LT, Pedrizzetti, GP, Gopal, A S, Saha, SK, Toole, RS, Kiotsekoglou, A, Cao, JJ, Reichek, N, Ho, S-J, Hung, S-C, Chang, F-Y, Liao, J-N, Niu, D-M, Yu, W-C, Nemes, A, Kalapos, A, Domsik, P, Forster, T, Siarkos, M, Sammut, E, Lee, L, Jackson, T, Carr-White, G, Rajani, R, Kapetanakis, S, Jarvinen, VM, Sipola, P, Madeo, A, Piras, P, Evangelista, A, Giura, G, Dominici, T, Nardinocchi, P, Varano, V, Chialastri, C, Puddu, PE, Torromeo, C, Sanchis Ruiz, L, Montserrat, S, Obach, V, Cervera, A, Bijnens, B, Sitges, M, Charisopoulou, D, Banner, N R, Rahman-Haley, S, Kim, BJ, Kang, JG, Lee, SH, Sung, KC, Kim, BS, Kang, JH, Lee, ES, Imperadore, F, Del Greco, M, Jermendy, AL, Horcsik, DV, Horvath, T, Celeng, C, Nagy, E, Bartykowszki, A, Tarnoki, DL, Merkely, B, Maurovich-Horvat, P, Jermendy, G, Whitaker, J, Demir, OM, Walton, J, Wragg, A, Alfakih, K, Karolyi, M, Szilveszter, B, Raaijmakers, R, Giepmans, W, Horvath, T, Merkely, B, Maurovich-Horvat, P, Koulaouzidis, GK, Charisopoulou, DC, Mcarthur, TM, Jenkins, PJJ, Henein, MH, Silva, T, Ramos, R, Oliveira, M, Marques, H, Cunha, P, Silva, MN, Barbosa, C, Sofia, A, Pimenta, R, Ferreira, RC, Al-Mallah, M, and Alsaileek, A

Abstract

Clinical PET acquisitions of the heart suffer from artefacts and drops in image quality due to the poor spatial resolution of the PET system. Moreover, cardiac PET images are further degraded by the blur caused by the breathing and beating motions, thus hampering diagnosis and evaluation of myocardial pathologies. Anatomy-enhanced PET reconstruction, using a high-resolution CT, has proven useful in brain imaging. In cardiac datasets however, due to the motion artefacts, the application of any restoring technique on datasets affected by motion blur needs to be preceded by the validation of the proposed method on realistic static datasets. In this work, the validation is performed using static cardiac ex vivo datasets obtained from a number of sacrificed sheep, scanned on a clinical PET/CT scanner. The aim of this work is to assess the effectiveness of reconstructions of the acquired datasets with different CT-based anatomical priors, in comparison to reconstructions currently applied in clinical practise. The gold standard to which all reconstructions are compared consists of images of the same hearts scanned on a small-animal PET scanner, whose high spatial resolution allows for almost artefact-free images. Encouraging results were obtained so far, with improvements in volume delineation and uniformity of activity values when anatomical information was used. Fig 1 shows the gold standard image (left) compared to a regular clinical reconstruction (middle) and to a reconstruction using the high-resolution CT as anatomical information (right). Figure

Published

2014