Your search keyword '"C. Rickers"' showing total 9 results

1. Kongenital korrigierte Transposition der großen Arterien (cc-TGA) (S2) 1 1Beschlossen vom Vorstand der Deutschen Gesellschaft für Pädiatrische Kardiologie am 3.12.2014

Author

V. Hraska, I. Dähnert, T. Paul, and C. Rickers

Subjects

business.industry, Medicine, business

Published

2015

2. D-Transposition der großen Arterien (d-TGA) 1 1Beschlossen vom Vorstand der Deutschen Gesellschaft für Pädiatrische Kardiologie am 30.1.2013. (S2k)

Author

C. Rickers, T. Paul, and A. Horke

Published

2015

3. Autorenverzeichnis

Author

L. Graul-Neumann, D. Horn, C. Hübner, P. Huppke, R. König, F. Majewski, P. Meinecke, R. Pankau, T. Rosenbaum, D. Schnabel, M. Schuelke, J. Spranger, U. Theile, S. Tinschert, E. Wilichowski, H.A. Wollmann, M. Zenker, P. Bartmann, D. Bassler, C. Bührer, A.W. Flemmer, J. Forster, A. Franz, M. Gonser, L. Gortner, P. Groneck, R. Hentschel, E. Herting, U.B. Hoyme, H. Hummler, C. Jandeck, G. Jorch, R. Korinthenberg, J. Liese, R.F. Maier, J. Martius, A. Merkenschlager, C.F. Poets, F. Pohlandt, C. Roll, R. Roos, B. Roth, K.T.M. Schneider, Ch. Speer, H. Stopfkuchen, A. Teichmann, W. Thomas, K. Vetter, A. von der Wense, S. Zielen, B. Assmann, G.F. Hoffmann, S. Kölker, M. Lindner, E. Mönch, R. Santer, U. Spiekerkötter, J. Zschocke, K. Bauer, H.-J. Böhles, Jack Sinclair, K.W. Jauch, F. Jochum, Thomas Kauth, B. Koletzko, M. Krawinkel, K. Krohn, Walter Mihatsch, A. Moß, S. Mühlebach, S. Verwied-Jorky, M. Wabitsch, K.-P. Zimmer, N. Albers, D. L'Allemand, G. Binder, J.H. Brämswig, H.G. Dörr, A. Grüters-Kieslich, B.P. Hauffa, S. Heger, O. Hiort, R. Holl, P.M. Holterhus, B. Köhler, Eckhard Korsch, J. Kratzsch, H. Krude, K. Mohnike, A. Neu, R. Pfäffle, A. Richter-Unruh, F.G. Riepe, G. Simic-Schleicher, E. Schönau, G. Sinnecker, W. Sippell, H. Willgerodt, J. Wölfle, S.A. Wudy, E. Aygören-Pürsün, M. Bas, U. Baumann, T. Biedermann, J. Blume, B. Buchholz, G. Dückers, D. Dunsch, M. Edelhäuser, S. Ehl, C. Feiterna-Sperling, M. Funk, K. Hartmann, C. Königs, W. Kreuz, J. Krudewig, H.-J. Laws, R. Linde, I. Martinez-Saguer, M. Maurer, David Nadal, T. Niehues, G. Notheis, H. Ott, I. Schulze, B. Wedi, U. Wintergerst, G. Bürk, I. Foeldvari, M. Frosch, H. Girschick, K. Gerhold, N. Guellac, J.P. Haas, R. Häfner, W. Häuser, A. Heiligenhaus, T. Hospach, G. Horneff, H.-I. Huppertz, A. Illhardt, A.F. Jansson, T. Kallinich, H. Michels, K. Mönkemöller, U. Neudorf, M. Richter, E. Schnöbel-Müller, A. Thon, B. Zernikow, W. Behnisch, H. Cario, R. Dickerhoff, S. Eber, M. Führer, E. Kohne, A.E. Kulozik, J. Kunz, M. Muckenthaler, W. Eberl, G. Gaedicke, W. Muntean, W. Streif, J.D. Beck, F. Berthold, S. Bielack, G. Calaminus, A. Claviez, U. Creutzig, U. Dirksen, M. Dworzak, U. Göbel, N. Graf, B. Grießmeier, G. Henze, B. Hero, H. Jürgens, U. Kaiser, T. Klingebiel, E. Koscielniak, C. Kramm, T. Langer, B. Lawrenz, T. Lehrnbecher, U. Leiss, H.-J. Mentzel, M. Minkov, J. Peitz, R. Placzek, D. Reinhardt, A. Reiter, S. Rutkowski, P. Schmittenbecher, D.T. Schneider, B.M. Schreiber-Gollwitzer, M. Schrappe, H. Schroten, H.M. Schröder, V. Schuster, D. von Schweinitz, N. Sörensen, G. Tallen, B. Timmermann, M. Warmuth-Metz, M. Weckesser, L. Wessel, T. Wirth, J.E.A. Wolff, W. Wößmann, A. am Zehnhoff-Dinnesen, C. Apitz, R. Arnold, H. Baumgartner, G. Bennink, H. Bertram, M. Blankenburg, G. Bönner, J. von der Breek, J. Breuer, R. Buchhorn, J. Bürsch, R. Cesnjevar, I. Dähnert, I. Deisenhofer, G.-P. Diller, T. Doenst, K.-O. Dubowy, A. Eicken, P. Ewert, C. Fink, J. Franke, R. Gebauer, M. Gorenflo, null Grabitz, N.A. Haas, H.-J. Häusler, A. Hager, J. Hebebrand, W. Henschel, M. Hirt, M.M. Hoeper, J. Hörer, M. Hofbeck, A. Horke, V. Hraska, M. Hulpke-Wette, J. Janou šek, C. Jux, L. Kändler, R. Kandolf, R. Kaulitz, W. Kienast, S. Klaassen, W. Knirsch, H.H. Kramer, J.G. Kreuder, T. Kriebel, S. Läer, K.T. Laser, T.-P. Lê, M.A.G. Lewin, A. Lindinger, C.R. Mackenzie, S. Mebus, S.H. van der Mei, O. Miera, S. Ovroutski, T. Paul, J. Photiadis, R. Dalla Pozza, C. Rickers, W. Rosendahl, W. Ruschewski, J.S. Sachweh, H.-J. Schäfers, J. Scheewe, K.-R. Schirmer, C. Schlensak, M. Schlez, A.A. Schmaltz, K. Schmitt, H. Schneider, M.B. Schneider, D. Schranz, C. Schreiber, I. Schulze-Neick, L.F.J. Sieverding, H. Singer, J. Stieh, N. Sreeram, W.-R. Thies, J. Thul, R. Trauzeddel, C. Tschöpe, A. Uebing, H.E. Ulmer, M. Vogel, M. Vogt, J. Weil, A. Wessel, J.C. Will, E. Wühl, M. Ballmann, J. Barben, C.P. Bauer, J. Bend, D. Berdel, O. Blankenstein, W. Bremer, F. Brunsmann, T. Buchholz, A. Bufe, N. Derichs, E. Eber, F. Friedrichs, T. Frischer, U. Gembruch, U. Gieler, M. Götz, W.H. Haas, E. Hamelmann, J. Hammer, M. Hellermann, J. Jacobeit, A. Jung, V. Keim, R. Kitz, A. Kleinheinz, S. Koletzko, I. Kopp, M. Kopp, S. Lau, R. Lauener, null Loff, K. Magdorf, C. Muche-Borowski, F.-M. Müller, H. Müsken, L. Naehrlich, T. Nicolai, Th. Nüßlein, E. Paditz, Frau B. Palm, K. Paul, S. Pfeiffer-Auler, Frau D. Pfeiffer-Kascha, H.-G. Posselt, B. Przybilla, H.-C. Räwer, F. Ratjen, I. Reese, J. Riedler, E. Rietschel, M. Rose, R. Rossi, F. Ruëff, T. Schäfer, S. Schmidt, S. Schmitt-Grohé, J. Schulze, A. Schuster, J. Seidenberg, H. Sitter, C. Smaczny, T. Spindler, D. Staab, M. Stern, C.P. Strassburg, K. Strömer, M. Stuhrmann-Spangenberg, R. Szczepanski, A. Tacke, M. Tiedgen, M.S. Urschitz, J. Vagts, C. Vogelberg, U. Wahn, A. Walker, T. Werfel, J.H. Wildhaber, M. Zach, Th. Zimmermann, A. Ballauff, N. Bannert, I. Böhn, S. Buderus, P. Bufler, M. Burdelski, P. Gerner, K.-P. Grosse, J. Henker, P. Henneke, W. Huber, T. Lang, M.J. Lentze, M. Melter, T. Müller, E.-D. Pfister, B. Rodeck, A. Schmidt-Choudhury, H. Skopnik, S. Wirth, H. Witt, H. Bachmann, J. Dötsch, J.H. Ehrich, Arno Fuchshuber, B. Hoppe, P.F. Hoyer, M.J. Kemper, D. Michalk, D. Müller, D.E. Müller-Wiefel, M. Pohl, B. Tönshoff, K. Zerres, T. Bast, F.A.M. Baumeister, R. Berner, H. Bode, H.J. Christen, H. Collmann, F. Ebinger, H. Eiffert, S. Evers, R. Gold, S. Groß, F. Hanefeld, F. Heinen, H. Holthausen, A. Hübner, G. Jacobi, D. Karch, C. Kauschke, G. Kerkhoff, C. Kiese-Himmel, J. Klepper, A. Kohlschütter, E. Korn-Merker, I. Krägeloh-Mann, P. Kropp, G. Kurlemann, U. de Langen-Müller, H.G. Lenard, Th. Michael, A. von Moers, U. Felderhoff-Müser, R. Nau, B.A. Neubauer, G. Neuhäuser, K. Neumann, M. Noterdaeme, R. Pothmann, D. Rating, B. Reitter, E. Rickels, A.M. Ritz, H. Rosenkötter, B. Schmitt, U. Stephani, B. Stöver, D. Tibussek, R. Trollmann, G. Trommer, I. Tuxhorn, G. Wohlrab, K.P. Boergen, S. Brosch, W. Delb, R. Frank, B. Herrmann, N. von Hofacker, O. Kraus de Camargo, R.v. Kries, R. Michaelis, M. Papousek, H.G. Schlack, J. Schriever, K. Skrodzki, H.-M. Straßburg, U. Thyen, K. Becker, T. Fels, G. Fitze, S. Grasshoff-Derr, P. Göbel, P. Illing, J. Lieber, A. Schmidt, L.M. Wessel, L.D. Berthold, G. Hahn, W. Hirsch, J.D. Moritz, C. Schröder, R. Schumacher, J. Stegmann, M. Steinborn, R. Tietze, R. Wunsch, W. Deppe, T. Hermann, D. Kiosz, E. Leidig, H. Mayer, J. Oepen, R. Stachow, F. Ahrens, G. Frey, I. Huttegger, M.-L. Preil, P.P. Schmittenbecher, H. Traupe, O. Eberhardt, C. Hasler, R. Krauspe, N.M. Meenen, A. Meurer, R. Rödl, R. Stücker, and C. Zilkens

Published

2007

4. Diagnostic and prognostic significance of cardiovascular vortex formation.

Author

Kheradvar A, Rickers C, Morisawa D, Kim M, Hong GR, and Pedrizzetti G

Subjects

Blood Flow Velocity, Diastole, Female, Heart diagnostic imaging, Heart physiopathology, Heart Failure physiopathology, Heart Ventricles physiopathology, Hemorheology, Humans, Hydrodynamics, Male, Prognosis, Systole, Ventricular Dysfunction, Left physiopathology, Heart Failure diagnostic imaging, Models, Cardiovascular, Ventricular Dysfunction, Left diagnostic imaging

Abstract

Various forms of vortex formation in the cardiovascular system convey valuable information regarding the function of heart and great vessels. The vortex ring that forms during systole in the aortic sinus is the first that was recognized and the asymmetric transmitral vortex ring that forms in the left ventricle during diastole has been most commonly used for diagnosis and follow up of heart failure patients. Adverse vortex interaction in the heart can also occur due to valvular regurgitation and may have energetic consequences to the heart. Furthermore, vortices do exist in other chambers such as the right ventricle and may even arise in the great arteries and veins due to congenital heart disease. Here, we summarize diagnostic and prognostic significance of vortices and vortex imaging in the heart, their applications in clinical medicine, and discuss how these flow features can be used to assess functional status of the heart., (Copyright © 2019 Japanese College of Cardiology. Published by Elsevier Ltd. All rights reserved.)

Published

2019

5. Improved Lung Perfusion After Left Pulmonary Artery Patch Enlargement During the Norwood Operation.

Author

Salehi Ravesh M, Scheewe J, Attmann T, Al Bulushi A, Jussli-Melchers MJ, Jerosch-Herold M, Gabbert DD, Wegner P, Kramer HH, and Rickers C

Subjects

Child, Preschool, Female, Humans, Hypoplastic Left Heart Syndrome diagnostic imaging, Hypoplastic Left Heart Syndrome physiopathology, Infant, Magnetic Resonance Imaging, Male, Retrospective Studies, Treatment Outcome, Hypoplastic Left Heart Syndrome surgery, Norwood Procedures methods, Pulmonary Artery surgery, Pulmonary Circulation physiology

Abstract

Background: Optimal pulmonary perfusion is crucial for a well-functioning Fontan circulation in patients with hypoplastic left heart syndrome (HLHS). To obtain an adequate size of the left pulmonary artery (LPA), patch enlargement is a routine part of the hemi-Fontan procedure in our center. However, LPA patch enlargement at the time of the modified Norwood procedure may have surgical advantages. Therefore, the aim of this study was to evaluate whether anatomic and functional effects of the new approach are superior., Methods: A total of 51 consecutive HLHS patients underwent a cardiovascular magnetic resonance imaging study including assessment of LPA anatomy and lung perfusion. The LPA of 20 patients was enlarged during the modified Norwood procedure (group N) and of 31 patients during the hemi-Fontan procedure (group HF)., Results: The median indexed cross-sectional area of the LPA in group N was significantly higher than in group HF (49.5 versus 27.9 mm 2 /m 2 , p < 0.0001). The regional pulmonary perfusion as measured by first-pass, contrast-enhanced signal intensity upslope was significantly improved in group N (left side 0.67 s -1 versus 0.40 s -1 , p = 0.002; right side 0.84 s -1 versus 0.52 s -1 , p = 0.01). The total hemi-Fontan bypass and procedure times were significantly shorter in group N (both p < 0.001)., Conclusions: These first magnetic resonance imaging data show that HLHS patients after LPA patch enlargement during the modified Norwood procedure have significantly higher LPA cross-sectional areas and show improved lung perfusion and shorter overall procedure time as compared with LPA patching during second stage (hemi-Fontan). Therefore, this promising surgical technique may improve blood flow dynamics of the Fontan circulation in the long run., (Copyright © 2018 The Society of Thoracic Surgeons. Published by Elsevier Inc. All rights reserved.)

Published

2018

6. Aortic stiffening and its impact on left atrial volumes and function in patients after successful coarctation repair: a multiparametric cardiovascular magnetic resonance study.

Author

Voges I, Kees J, Jerosch-Herold M, Gottschalk H, Trentmann J, Hart C, Gabbert DD, Pardun E, Pham M, Andrade AC, Wegner P, Kristo I, Jansen O, Kramer HH, and Rickers C

Subjects

Adolescent, Adult, Age Factors, Aorta, Thoracic physiopathology, Aortic Coarctation diagnostic imaging, Aortic Coarctation physiopathology, Carotid Artery, Common physiopathology, Case-Control Studies, Child, Child, Preschool, Female, Humans, Image Interpretation, Computer-Assisted, Infant, Male, Predictive Value of Tests, Pulse Wave Analysis, Stroke Volume, Time Factors, Treatment Outcome, Vascular Remodeling, Ventricular Function, Left, Young Adult, Aorta, Thoracic diagnostic imaging, Aortic Coarctation surgery, Atrial Function, Left, Cardiac Surgical Procedures adverse effects, Carotid Artery, Common diagnostic imaging, Magnetic Resonance Imaging, Cine, Vascular Stiffness

Abstract

Background: The increased cardiovascular morbidity of adults with late repair of aortic coarctation (CoA) has been well documented. In contrast, successful CoA repair in early childhood has a generally good prognosis, though adverse vascular and ventricular characteristics may be abnormal, which could increase long-term risk. This study sought to perform a comprehensive analysis of aortic elasticity and left ventricular (LV) function in patients with aortic coarctation (CoA) using cardiovascular magnetic resonance (CMR). In a subgroup of patients, we assessed structure and function of the common carotid arteries to probe for signs of systemic vascular remodeling., Methods: Fifty-one patients (median age 17.3 years), 13.9 ± 7.5 years after CoA repair, and 54 controls (median age 19.8 years) underwent CMR. We determined distensibility and pulse wave velocity (PWV) at different aortic locations. In a subgroup, common carotid artery distensibility, PWV, wall thickness and wall area were measured. LV ejection fraction (EF), volumes, and mass were measured from short axis views. Left atrial (LA) volumes and functional parameters (LAEFPassive, LAEFContractile, LAEFReservoir) were assessed from axial cine images., Results: In patients distensibility of the whole thoracic aorta was reduced (p < 0.05) while PWV was only significantly higher in the aortic arch (p < 0.01). Distensibility of the descending aorta at the level of the pulmonary arteries and PWV in the descending aorta, both correlated negatively with age at CoA repair. LA volume before atrial contraction and minimal LA volume were higher in patients (p < 0.05). LAEFPassive and LAEFReservoir were reduced (p < 0.05), and LAEFReservoir correlated negatively with aortic arch PWV (p < 0.05). LVEF, volumes and mass were not different from controls. Carotid wall thickness and PWV were higher in patients compared to controls (p < 0.05)., Conclusions: Patients after CoA repair have impaired bioelastic properties of the thoracic aorta with impact on LV diastolic function. Reduced descending aortic elasticity is associated with older age at time of CoA repair. The remodeling of the common carotid artery in our sub-study suggests systemic vessel wall changes.

Published

2016

7. Arterial elastance and its impact on intrinsic right ventricular function in palliated hypoplastic left heart syndrome.

Author

Schlangen J, Fischer G, Petko C, Hansen JH, Voges I, Rickers C, Kramer HH, and Uebing A

Subjects

Adolescent, Aorta physiology, Aorta surgery, Aortic Coarctation surgery, Blood Pressure physiology, Child, Child, Preschool, Elasticity, Female, Fontan Procedure, Humans, Hypoplastic Left Heart Syndrome surgery, Male, Stroke Volume physiology, Systole physiology, Vascular Resistance physiology, Aortic Coarctation physiopathology, Elasticity Imaging Techniques, Hypoplastic Left Heart Syndrome physiopathology, Vascular Stiffness physiology, Ventricular Function, Right physiology

Abstract

Background: Systemic right ventricular (RV) function is a major determinant of long-term outcome in patients with palliated hypoplastic left heart syndrome (HLHS). Abnormal elastic properties of the reconstructed aorta may negatively impact on ventricular function. We therefore aimed to assess arterial elastance and its relationship to systemic RV function in these patients., Methods: Fifty-six HLHS patients (median age 5.4 years; range 2.9-14.2 years) were studied at a median of 2.6 years (range 0.8-12.7 years) after completion of the Fontan circulation with the pressure-volume conductance system., Results: Arterial elastance (Ea) was abnormally high and correlated inversely with RV ejection fraction (r=-0.42, P=0.001). However, end systolic elastance (Ees) - a load independent measure of intrinsic systolic ventricular function - and more so end diastolic stiffness (Eed) were positively correlated with Ea (Ees vs. Ea: r=0.44, P=0.001: Eed vs. Ea: r=0.62, P<0.0001). Patients who were treated for significant aortic arch obstruction after surgical palliation showed higher Ea and Eed even four years after successful treatment compared to the remainder of the group (Ea: 3.4 ± 1.2 vs. 2.8 ± 1.0 mmHg/ml, P=0.04 and Eed: 0.67 ± 0.44 vs. 0.45 ± 0.3 mmHg/ml, P=0.04)., Conclusions: Arterial elastance is abnormally high in palliated HLHS patients and negatively impacts on ejection fraction but not on intrinsic systolic RV function early after completion of the Fontan circulation. Increased arterial elastance, however, is associated with increased RV diastolic stiffness with potential adverse effects on long-term outcome. Furthermore, arterial elastance and diastolic stiffness are particularly high in patients who needed treatment for aortic arch obstruction., (© 2013.)

Published

2013

8. Does left ventricular size impact on intrinsic right ventricular function in hypoplastic left heart syndrome?

Author

Schlangen J, Fischer G, Steendijk P, Petko C, Scheewe J, Hart C, Hansen JH, Ahrend F, Rickers C, Kramer HH, and Uebing A

Subjects

Adolescent, Cardiac Catheterization methods, Child, Child, Preschool, Cohort Studies, Echocardiography methods, Female, Humans, Male, Heart Ventricles diagnostic imaging, Hypoplastic Left Heart Syndrome diagnostic imaging, Hypoplastic Left Heart Syndrome physiopathology, Ventricular Function, Right physiology

Abstract

Background: The size of the remnant left ventricle (LV) may influence right ventricular function and thus long-term outcome in palliated hypoplastic left heart syndrome (HLHS). We therefore sought to assess the impact of the size of the hypoplastic LV on intrinsic RV function in HLHS patients after Fontan surgery., Methods: Fifty-seven HLHS patients were studied 2.5 (range: 0.8-12.6) years after Fontan-type palliation with the pressure-volume conductance system. The patient cohort was divided into two groups according to the median LV area index (group 1: LV area index ≤ 1.33 cm(2)/m(2), n=29; group 2: LV area index>1.33 cm(2)/m(2), n=28)., Results: The slopes of the end systolic elastance (Ees) and the preload recruitable stroke work relation (Mw) were not different between group 1 and 2 (Ees: 2.70 ± 1.92 vs. 3.68 ± 2.68 mmHg/ml; Mw: 52.75 ± 14.98 vs. 51.09 ± 16.63 mmHg x ml; P=NS for all). Furthermore, the systolic responses to dobutamine were not statistically different between groups. However, the slope of the end diastolic stiffness (Eed) was higher in group 2 and catecholaminergic stimulation resulted in a decrease in Eed in group 2 (group 1: 0.40 ± 0.26 vs. 0.52 ± 0.45; group 2: 0.68 ± 0.44 vs. 0.47 ± 0.38 mmHg/ml, P<0.01). Furthermore Eed was lowest in patients with mitral atresia/aortic atresia, the anatomic subgroup with the smallest LV remnant., Conclusions: Intrinsic systolic RV function is not affected by the size of the hypoplastic LV in survivors of surgical palliation of HLHS. Diastolic stiffness, however, was higher in patients with a larger LV remnant., (Copyright © 2012 Elsevier Ireland Ltd. All rights reserved.)

Published

2013

9. Normal values of aortic dimensions, distensibility, and pulse wave velocity in children and young adults: a cross-sectional study.

Author

Voges I, Jerosch-Herold M, Hedderich J, Pardun E, Hart C, Gabbert DD, Hansen JH, Petko C, Kramer HH, and Rickers C

Subjects

Adolescent, Adult, Age Factors, Aorta, Thoracic anatomy & histology, Blood Flow Velocity, Body Height, Body Surface Area, Body Weight, Child, Child, Preschool, Cross-Sectional Studies, Elasticity, Female, Humans, Male, Predictive Value of Tests, Reference Values, Regional Blood Flow, Young Adult, Aorta, Thoracic physiology, Magnetic Resonance Imaging, Cine, Pulse Wave Analysis methods, Vascular Stiffness

Abstract

Background: Aortic enlargement and impaired bioelasticity are of interest in several cardiac and non-cardiac diseases as they can lead to cardiovascular complications. Cardiovascular magnetic resonance (CMR) is increasingly accepted as a noninvasive tool in cardiovascular evaluation. Assessment of aortic anatomy and bioelasticity, namely aortic distensibility and pulse wave velocity (PWV), by CMR is accurate and reproducible and could help to identify anatomical and bioelastic abnormalities of the aorta. However, normal CMR values for healthy children and young adults are lacking., Methods: Seventy-one heart-healthy subjects (age 16.4 ± 7.6 years, range 2.3-28.3 years) were examined using a 3.0 Tesla CMR scanner. Aortic cross-sectional areas and aortic distensibility were measured at four positions of the ascending and descending thoracic aorta. PWV was assessed from aortic blood flow velocity measurements in a aortic segment between the ascending aorta and the proximal descending aorta. The Lambda-Mu-Sigma (LMS) method was used to obtain percentile curves for aortic cross-sectional areas, aortic distensibility and PWV according to age., Results: Aortic areas, PWV and aortic distensibility (aortic cross-sectional areas: r = 0.8 to 0.9, p < 0.001; PWV: r = 0.25 to 0.32, p = 0.047 to 0.009; aortic distensibility r = -0.43 to -0.62, p < 0.001) correlated with height, weight, body surface area, and age. There were no significant sex differences., Conclusions: This study provides percentile curves for cross-sectional areas, distensibility and pulse wave velocity of the thoracic aorta in children and young adolescents between their 3rd and 29th year of life. These data may serve as a reference for the detection of pathological changes of the aorta in cardiovascular disease.

Published

2012