Annals of Pediatric Cardiology: Table of Contents

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The role of stents in the treatment of congenital heart disease: Current status and future perspectives

Peters Bjoern, Ewert Peter, Berger Felix

Year : 2009| Volume: 2| Issue : 1 | Page no: 3-23

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2	A review on design characteristics and fabrication methods of metallic cardiovascular stents

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	Materials Today Communications. 2022; : 103467

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3	Anatomical variation of the aorta in the West of Scotland – A population with high cardiovascular disease burden. Implications for stent design and deployment

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	Journal of Anatomy. 2022;

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4	Transcatheter Device Therapy and the Integration of Advanced Imaging in Congenital Heart Disease

	Abhay A. Divekar, Yousef M. Arar, Stephen Clark, Animesh Tandon, Thomas M. Zellers, Surendranath R. Veeram Reddy

	Children. 2022; 9(4): 497

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5	A NEW RING STENT WITH GRADED GEOMETRY FOR TREATING COARCTATION OF CURVED AORTA ARTERIES

	XIAOWEN YIN, XIAOMIN HU, TONG LI, JIAYAO MA

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6	Interventions in Congenital Heart Disease: A Review of Recent Developments: Part II

	Sok-Leng Kang, Lee Benson

	Structural Heart. 2021;

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7	Cheatham-Platinum 10-zig stents for transcatheter treatment of congenital heart diseases: A new tool to widen the spectrum of treatable conditions

	Oliver Bates, Matthew I. Jones, Shakeel A. Qureshi, Eric Rosenthal, Gianfranco Butera

	International Journal of Cardiology Congenital Heart Disease. 2021; 2: 100089

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8	The arterial duct and the right aortic arch: telescope into the prenatal defective heart

	James Ker

	The International Journal of Cardiovascular Imaging. 2021; 37(12): 3397

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9	A New Solution for Stenting Large Right Ventricular Outflow Tracts Before Transcatheter Pulmonary Valve Replacement

	Raymond N. Haddad, Damien Bonnet, Ibrahim A. Abu Zahira, Mathilde Meot, Laurence Iserin, Sophie Malekzadeh-Milani

	Canadian Journal of Cardiology. 2021;

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10	Mechanical properties of low-diameter balloon expandable covered stents

	Benjamin Blais, Karen Carr, Sanjay P Sinha, Morris M Salem, Daniel S Levi

	Catheterization and Cardiovascular Interventions. 2021; 97(3): 451

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11	Can a self-expanding pediatric stent expand with an artery? Relationship of stent design to vascular biology

	Nima V. Nia, Gregory A. Fishbein, Daniel S. Levi

	Catheterization and Cardiovascular Interventions. 2021; 98(1): 139

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12	Using 3D printing and femtosecond laser micromachining to fabricate biodegradable peripheral vascular stents with high structural uniformity and dimensional precision

	Fuh-Yu Chang, Te-Hsien Liang, Tsung-Jung Wu, Chien-Hsing Wu

	The International Journal of Advanced Manufacturing Technology. 2021; 116(5-6): 1523

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13	Biodegradation evaluation of poly (lactic acid) for stent application: Role of mechanical tension and temperature

	Sasan Khalaj Amnieh, Peiman Mosaddegh, Mohammad Mashayekhi, Mahshid Kharaziha

	Journal of Applied Polymer Science. 2021; 138(19): 50389

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14	First in man study of a new semi-open cell design Zephyr cobalt–chromium stent in large vessels and conduits

	Kothandam Sivakumar, Avinash Anantharaj, Palaparti Raghuram, Raman Krishna Kumar, Preeti Vani, Malte Neuss

	Catheterization and Cardiovascular Interventions. 2020; 96(2): 367

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15	Hot topics in interventional cardiology: Proceedings from the society for cardiovascular angiography and interventions 2020 think tank

	Srihari S. Naidu, Megan Coylewright, Beau M. Hawkins, Perwaiz Meraj, Brian H. Morray, Chandan Devireddy, Frank Ing, Andrew J. Klein, Arnold H. Seto, Cindy L. Grines, Timothy D. Henry, Sunil V. Rao, Peter L. Duffy, Zahid Amin, Herbert D. Aronow, Lyndon C. Box, Ronald P. Caputo, Joaquin E. Cigarroa, David A. Cox, Matthew J. Daniels, Sammy Elmariah, Thomas E. Fagan, Dmitriy N. Feldman, Thomas J. Forbes, James B. Hermiller, Howard C. Herrmann, Ziyad M. Hijazi, Allen Jeremias, Clifford J. Kavinsky, Faisal Latif, Sahil A. Parikh, John Reilly, Kenneth Rosenfield, Rajesh V. Swaminathan, Molly Szerlip, Steve J. Yakubov, Evan M. Zahn, Ehtisham Mahmud, Sonya S. Bhavsar, Tico Blumenthal, Ellie Boutin, Callie A. Camp, Ashlie E. Cromer, Declan Dineen, Dustin Dunham, Susan Emanuele, Robert Ferguson, Devi Govender, Joel Haaf, Denise Hite, Thomas Hughes, John Laschinger, Scotti-Marie Leigh, Lois Lombardi, Patrick McCoy, Frankie McLean, Joie Meikle, Mary Nicolosi, James O'Brien, Ryan J. Palmer, Roberto

	Catheterization and Cardiovascular Interventions. 2020; 96(6): 1258

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16	Serum Sirolimus Levels After Implantation of Third Generation Drug Eluting Cobalt Chromium Coronary Stent in Ductus Arteriosus in Neonates with Duct-Dependent Pulmonary Circulation

	Kothandam Sivakumar, Sreeja Pavithran, Bhushan Sonawane, Monica Rajendran, Rajeshkumar Ramasamy

	Pediatric Cardiology. 2020; 41(7): 1354

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17	Current Status of Ductal-Stenting as the First-Stage Palliative Strategy for Congenital Heart Disease with Duct-Dependent Pulmonary Circulation

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	Pediatric Cardiology and Cardiac Surgery. 2020; 36(4): 294

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18	The metamorphosis of vascular stents: passive structures to smart devices

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	RSC Adv.. 2016; 6(4): 2835

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19	The Valeo stent: a pre-mounted, open-cell, large stent for use in small children with CHD

	Frances C. Travelli,Patrick M. Sullivan,Cheryl Takao,Frank F. Ing

	Cardiology in the Young. 2015; : 1

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20	Bioresorbable stents for pediatric practice: where are we now?

	Damien Kenny,Ziyad M Hijazi

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21	Metallic zinc exhibits optimal biocompatibility for bioabsorbable endovascular stents

	Patrick K. Bowen,Roger J. Guillory,Emily R. Shearier,Jan-Marten Seitz,Jaroslaw Drelich,Martin Bocks,Feng Zhao,Jeremy Goldman

	Materials Science and Engineering: C. 2015; 56: 467

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22	Initial experience with the cook formula balloon expandable stent in congenital heart disease

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23	The role of the new Valeo stent for treating pulmonary artery stenoses in children with complex cardiac malformations

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	American Journal of Case Reports. 2014; 15: 275

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24	Avoiding cardiovascular cul-de-sacs in congenital intervention: keeping our options open

	Gareth J Morgan,Thomas Krasemann

	Interventional Cardiology. 2014; 6(1): 25

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25	Breaking the Limit: Mechanical Characterization of Overexpanded Balloon Expandable Stents Used in Congenital Heart Disease

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26	Editorial Comment: How could right ventricular outflow tract stenting be made into one of the many small steps on the long road to solid evidence of rehabilitation of pulmonary arteries?

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27	Surgery following primary right ventricular outflow tract stenting for Fallotæs Tetralogy and variants: rehabilitation of small pulmonary arteries

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28	Novel Bioresorbable Stent Design and Fabrication: Congenital Heart Disease Applications

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	Cardiovascular Engineering and Technology. 2013; 4(2): 171

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29	Fracture of Cardiovascular Stents in Patients With Congenital Heart Disease

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30	Stenting a Pulmonary Artery Stenosis Through the Pulmonary Native Outflow Tract in a Congenitally Corrected Transposition of the Great Arteries

	Joana Miranda,Maria João Baptista,Jorge Moreira

	Pediatric Cardiology. 2013; 34(4): 1048

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31	Percutaneous Angioplasty of Upstream Right Pulmonary artery stenosis post Tetralogy of Fallot (TOF) repair with use of 3D Multi slice-CT imaging

	Pankaj Jariwala,Saratchandra Koduganti

	Journal of Indian College of Cardiology. 2013;

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32	Intravascular stent implantation for the management of pulmonary artery stenosis

	Charles Krisnanda,Samuel Menahem,Geoffrey K. Lane

	Heart, Lung and Circulation. 2013; 22(1): 56

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33	Stenting Options for Coarctation of the Aorta

	Elchanan Bruckheimer,Carlos Augusto Cardoso Pedra

	Interventional Cardiology Clinics. 2013; 2(1): 115

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34	First experience with andraStent XL implantation in children and adolescents with congenital heart diseases

	Zuzana Venczelova,Peter Tittel,Jozef Masura

	Catheterization and Cardiovascular Interventions. 2013; 81(1): 103

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35	A pressing matter-mediastinal fibrosis with near obliteration of the pulmonary arteries

	John Conleth Murphy,Nicola Johnston,Mark S. Spence

	Catheterization and Cardiovascular Interventions. 2013; 81(6): 1079

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36	Stent angioplasty to relieve left pulmonary artery obstruction caused by patent ductus arteriosus device occlusion

	Peter N. Dean,Michael C. Slack

	Catheterization and Cardiovascular Interventions. 2013; 82(3): 480

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37	A pressing matter - Mediastinal fibrosis with near obliteration of the pulmonary arteries

	Murphy, J.C. and Johnston, N. and Spence, M.S.

	Catheterization and Cardiovascular Interventions. 2013; 81(6): 1079-1083

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38	Reduction of the postoperative thrombogenic risk in reconstruction on the obstructed superior caval vein with autovenous in situ flap

	Topalov, I. and Marinov, G. and Topalova, M.

	Comptes Rendus de LæAcademie Bulgare des Sciences. 2013; 66(6): 897-904

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39	Novel Bioresorbable Stent Design and Fabrication: Congenital Heart Disease Applications

	Welch, T.R. and Eberhart, R.C. and Reddy, S.V. and Wang, J. and Nugent, A. and Forbess, J.

	Cardiovascular Engineering and Technology. 2013; 4(2): 171-182

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40	Stenting a pulmonary artery stenosis through the pulmonary native outflow tract in a congenitally corrected transposition of the great arteries

	Miranda, J. and Baptista, M.J. and Moreira, J.

	Pediatric Cardiology. 2013; 34(4): 1048-1049

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41	First experience with andraStent XL implantation in children and adolescents with congenital heart diseases

	Venczelova, Z. and Tittel, P. and Masura, J.

	Catheterization and Cardiovascular Interventions. 2013; 81(1): 103-110

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42	Intravascular stent implantation for the management of pulmonary artery stenosis

	Krisnanda, C. and Menahem, S. and Lane, G.K.

	Heart Lung and Circulation. 2013; 22(1): 56-70

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43	Stenting Options for Coarctation of the Aorta

	Bruckheimer, E. and Pedra, C.A.C.

	Interventional Cardiology Clinics. 2013; 2(1): 115-129

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44	The FDA review process for cardiac medical devices in children: A review for the clinician

	Almond, C.S.

	Progress in Pediatric Cardiology. 2012; 33(2): 105-109

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45	The FDA review process for cardiac medical devices in children: A review for the clinician

	Christopher S. Almond

	Progress in Pediatric Cardiology. 2012; 33(2): 105

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46	Complications of aortic stenting in patients below 20 years old: Immediate and intermediate follow-up

	Molaei, A., Merajie, M., Mortezaeian, H., Rad, E.M., Shemirani, R.H.H.

	# # Journal of Tehran University Heart Center. 2011; 6(4): 202-205

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47	Atrial septal stenting to increase interatrial shunting in cyanotic congenital heart diseases: A report of two cases

	Yalçin, Y., Zeybek, C., Önsel, I.Ö., Bilal, M.S.

	Turk Kardiyoloji Dernegi Arsivi. 2011; 39(5): 422-426

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48	Per-operative stent placement in the right pulmonary artery; a hybrid technique for the management of pulmonary artery branch stenosis at the time of pulmonary valve replacement in adult Fallot patients

	F. Windhausen, S. M. Boekholdt, B. J. Bouma, M. Groenink, A. P. C. M. Backx, R. J. Winter, B. J. M. Mulder, M. G. Hazekamp, D. R. Koolbergen

	Netherlands Heart Journal. 2011;

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49	Shape-memory polymers in biomedical applications \| [polimery z pamie{ogonek}cia{ogonek} kształtu w zastosowaniach biomedycznych]

	Kłosek, R., Komacki, J., Orchel, A., Dzierzewicz, Z.

	Farmaceutyczny Przeglad Naukowy. 2010; 7(11): 39-44

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50	Stent graft exclusion of a pseudoaneurysm in a Blalock-Taussig shunt

	Angel Sanchez-Recalde, Gonzalo Garzón, José M. Oliver

	Catheterization and Cardiovascular Interventions. 2010; 76(2): 251

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51	Shape-memory polymers in biomedical applications [polimery z pamie{ogonek

	KÅ‚osek, R. and Komacki, J. and Orchel, A. and Dzierzewicz, Z.

	Farmaceutyczny Przeglad Naukowy. 2010; 7(11): 39-44

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52	Poly(Î±-hydroxyacids) in biomedical applications: Synthesis and properties of lactic acid polymers

	Lipsa, R. and Tudorachi, N. and Vasile, C.

	E-Polymers. 2010; (087)

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53	Emergency balloon dilation or stenting of critical coarctation of aorta in newborns and infants: An effective interim palliation

	Francis, E., Gayathri, S., Vaidyanathan, B., Kannan, B.R.J., Kumar, R.K.

	Annals of Pediatric Cardiology. 2009; 2(2): 111-115

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