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7. Contributors

Author

Abecassis, Isaac Josh, Agbeko, Rachel S., Adelson, P. David, Alder, Matthew N., Al Ibrahim, Omar, Almodovar, Melvin C., Aminoff, Alexandra R., Amlie-LeFond, Catherine, Angus, Derek C., Arvedson, Joan C., Aspesberro, Francois, Baatz, John E., Baden, Harris P., Badugu, Srinivasarao, Bakar, Adnan M., Banker, Katherine, Bass, John L., Bayir, Hülya, Beaulieu, Pierre, Becker, Lance B., Bell, Michael J., Bender, M.A., Benton, Wade W., Berg, Robert A., Biagas, Katherine V., Bishop, Naomi B., Blatt, Julie, Blowey, Douglas L., Blumer, Jeffrey L., Bonow, Robert H., Brandom, Barbara W., Brilli, Richard J., Brogan, Thomas V., Bronicki, Ronald A., Browd, Samuel R., Bunchman, Timothy E., Burns, Jeffrey P., Caglar, Derya, Campbell, Sally, Carcillo, Joseph A., Carrillo-Lopez, Hector, Cashen, Katherine, Cassara, Antonio, Charpie, John R., Chavez, Adrian, Chun, Robert H., Clark, Jonna Derbenwick, Clark, Robert S.B., Clement, Katherine C., Conlon, Thomas, Conway, Edward E., Jr., Coopersmith, Craig M., Corey, Seth J., Cox, Peter N., Curley, Martha A.Q., Czosnyka, Marek, Dalton, Heidi J., Damian, Mihaela, Davis, Peter J., de Prost, Nicolas, Deutschman, Clifford S., Dezfulian, Cameron, Diekema, Douglas S., Doctor, Allan, Doherty, Meaghan, Dorfman, Molly V., Downes, John J., Dreyfuss, Didier, Duncan, Christine, Dupree, Phylicia D., Eigen, Howard, El-Hassan, Nahed, Eriksson, Carl O., Felmet, Kate, Fineman, Jeffrey R., Fink, Ericka L., Fish, Frank A., Fitzgerald, Tamara N., Flynn, Joseph T., Pérez Fontán, J. Julio, Forbes, Michael J., Forbess, Joseph M., Franzon, Deborah E., Frazier, W. Joshua, Fricker, F. Jay, Fuhrman, Bradley P., Garcia-Casal, Xiomara, Gardner, Rebecca, Gilad, Eli, Ginther, Richard M., Jr., Glaser, Nicole, Goodman, Denise M., Graciano, Ana Lía, Greathouse, Kristin C., Greenwald, Bruce M., Gunnarsson, Björn, Gupta, Punkaj, Hall, Mark W., Han, Yong Y., Harding, Cary O., Hartman, Mary E., Hartmann, Silvia M., Heard, Christopher M.B., Hernan, Lynn J., Heulitt, Mark J., Hoffman, Julien I., Horslen, Simon, Hunyady, Agnes I., Ibsen, Laura Marie, IJsselstijn, Hanneke, Inglis, Andrew, Jr., Irby, Gretchen A. Linggi, Irby, Olivia K., Ishak, Gisele E., Jackson, Travis C., Jacob, Susan, Jamal, Shelina M., Jardine, David, Jarillo, Alberto, Jeziorski, Alison M., Joashi, Umesh, Joshi, Prashant, Kagan, Richard J., Kannankeril, Prince J., Kanter, Robert K., Karam, Oliver, Kaspar, Cristin D.W., Khemani, Robinder G., King, Mary A., Kirk, Christa C. Jefferis, Kissoon, Niranjan (Tex), Kochanek, Patrick M., Kocis, Keith C., Kocoshis, Samuel A., Koh, Tsingyi, Kong, Ada, Koves, Ildiko H., Kulik, Thomas J., Kumar, Vasanth H., Lacroix, Jacques, Lakshminrusimha, Satyan, Lee, Thomas J., Leiner, Marie, Levin, Daniel L., Lewis-Newby, Mithya, Lieh-Lai, Mary W., Litalien, Catherine, Lopez-Magallon, Alejandro, Lynch, Robert, Lyons, John D., Maiyegun, Sitratullah, Makley, Amy T., Maldonado, Alfredo, Markovitz, Barry, Mazur, Paula M., McArthur, Jennifer, McLaughlin, Gwenn E., McLean, Susan F., Mehta, Nilesh M., Mehta, Renuka, Melvin, Ann J., Mian, Ayesa N., Mittal, Rohit, Moloney-Harmon, Patricia A., Monagle, Paul, Moorthy, Chet, Morrison, Wynne, Munoz, Ricardo, Munshi, Raj, Murthy, Srinivas, Muszynski, Jennifer A., Nadkarni, Vinay M., Nakagawa, Thomas A., Naran, Navyn, Neumayr, Tara M., Nishisaki, Akira, Norwood, Victoria F., Notterman, Daniel A., Nugent, Alan W., Oishi, Peter, Ojemann, Jeffrey, Orr, Richard A., Ouellette, Yves, Parakininkas, Daiva, Parker, Robert I., Pasala, Sanjiv, Pearson-Shaver, Tony, Peinado, Jesus, Peters, Mark J., Pfeiffer, Brent J., Phillipi, Carrie A., Pinsk, Maury N., Pollack, Murray M., Pon, Steven, Preston, Tom, Rajapreyar, Prakad, Ray, Samiran, Reade, Erin P., Remy, Kenneth E., Rhee, Eileen, Ricard, Jean-Damien, Richardson, Nicole L., Roberts, Joan S., Rogers, Stephen, Roth, Kimberly R., Rotta, Alexandre T., Rowin, Mark E., Rubin, Lewis P., Ruppel, Randall, Ryan, Rita M., Said, Ahmed, Sainte-Thomas, Nagela, Salonia, Rosanne, Sambalingam, Devaraj, Nelson Sanchez-Pinto, L., Sandquist, Mary, Sarnaik, Ajit A., Sarnaik, Ashok P., Saumon, Georges, Sawin, Robert, Scanlon, Matthew C., Schenkman, Kenneth A., Schexnayder, Stephen M., Schleien, Charles L., Schwartz, George J., Schwartz, Steven M., Schwenk, Hayden T., Seibel, Gabrielle Douthitt, Shaw, Dennis W.W., Shein, Steven L., Shepard, Charles W., Shoykhet, Michael, Simon, Dennis W., Sivarajan, V. Ben, Skippen, Peter, Smith, Lincoln S., Spaeder, Michael C., Speicher, Richard H., Spinella, Philip C., Standage, Stephen, Steinhorn, David M., Stewart, Claire, Storm, Elizabeth A., Stroud, Michael H., Su, Erik, Sutton, Robert M., Symons, Jordan M., Talano, Julie-An, Tamburro, Robert T., Jr., Tasker, Robert C., Thompson, Ann E., Tilton, Ann H., Tobias, Joseph D., Todres, I. David, Torgerson, Troy, Traube, Chani, Tucci, Marisa, Turner, David A., Tyroch, Alan H., Cleave, Alisa Van, van der Velden, Meredith G., Vaughan, David J., Vazquez, Erika, Venkataraman, Shekhar T., Visoiu, Mihaela, von Saint André-von Arnim, Amélie, Vora, Surabhi B., Waghmare, Alpana, Wainwright, Mark S., Wakeham, Martin, Wallace, Carol A., Wallisch, Jessica S., Watson, R. Scott, Webb, Ashley N., Weiss, Scott L., Wenger, Jesse, Wheeler, Derek S., Wilson, Harry, Wong, Hector R., Wood, Ellen Glenn, Woolf, Alan D., Yaghmai, Beryl F., Yanay, Ofer, Zerr, Danielle M., Zheng, Hengqi (Betty), and Zimmerman, Jerry J.

Published
2017
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8. Cardiovascular Magnetic Resonance Findings Late After the Arterial Switch Operation.

Author

Shepard, Charles W., Germanakis, Ioannis, White, Matthew T., Powell, Andrew J., Co-Vu, Jennifer, and Geva, Tal

Abstract

Background--Despite its robust diagnostic capabilities in adolescents and adult patients after the arterial switch operation, little information is available on the cardiovascular magnetic resonance findings in this population. Methods and Results--The cardiovascular magnetic resonance findings of 220 consecutive patients evaluated in our center were retrospectively reviewed (median age at cardiovascular magnetic resonance, 15.4 years; 66.8% male sex). Compared with published normal values, left and right ventricular end-diastolic volume z scores were mildly enlarged (0.48±1.76 and 0.33±1.5; P=0.0003 and 0.0038, respectively), with 26% of patients having left ventricular dilatation and 20% having right ventricular dilatation. Left ventricular dysfunction was present in 21.5% of patients (mild in most), and only 5.1% of patients had mild right ventricular dysfunction. Myocardial scar was found in 1.8% of patients. Dilatation of the neoaortic root was common (76%), and root z score increased at an average rate of 0.03 points per year. By multivariable analysis, neoaortic root dilatation was associated with worse neoaortic valve regurgitation (OR, 5.29; P=0.0016). The diameters of the thoracic aorta distal to the root were near-normal in most patients, whereas the neomain pulmonary artery was typically oval shaped with decreased anteroposterior and normal lateral diameters. Conclusions--Although the majority of arterial switch operation patients have normal ventricular size and function and myocardial scar is rare, an important minority exhibits ventricular enlargement or dysfunction. Neoaortic root dilatation, which is present in most patients and progresses over time, is strongly associated with significant neoaortic valve regurgitation. The findings of this study provide reference values against which arterial switch operation patients can be compared with their peers. [ABSTRACT FROM AUTHOR]

Published
2016
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9. Global left ventricular relaxation: A novel tissue Doppler index of acute rejection in pediatric heart transplantation.

Author

Hernandez, Lazaro E., Shepard, Charles W., Menk, Jeremiah, Lilliam, Valdes-Cruz, and Ameduri, Rebecca K.

Subjects
*LEFT heart ventricle, *HEART physiology, *GRAFT rejection, *HEART transplantation, *NONINVASIVE diagnostic tests, *CARDIAC catheterization, *HEART failure in children
Abstract

Background Serial invasive cardiac catheterization with endomyocardial biopsies (EMBs) is the current standard of reference for evaluation after orthotopic heart transplant (OHTx). We developed a novel, non-invasive echocardiographic index of global left ventricular relaxation (LVRI) and assessed its sensitivity, specificity and predictive value for detecting rejection compared with EMB results in a prospective study conducted from September 2012 through May 2014. Methods LVRI was calculated as the sum of diastolic tissue Doppler imaging (TDI) velocities (E′) of the left ventricular lateral, septal and posterior walls divided by the percentage of left ventricular posterior wall (LVPW) thinning by M-mode. LVRI was measured in 47 OHTx patients and 50 patients with normal hearts. Of the 33 patients who underwent clinically indicated EMB, 22 patients had Grade 0R EMB, 6 had Grade 1R and 5 had Grade 2R to 3R biopsy results. Sensitivity, specificity and predictive value of LVRI for discriminating Grade 1R to 3R EMB were calculated. The LVRI was compared before and after OHTx rejection treatment and during the early and late post-transplant period. To characterize LVRI, 1-way analysis of variance was used to compare all groups, including non-OHTx patients. Results LVRI was lower in patients with Grade 0R EMBs compared with non-OHTx patients. Patients with Grade 1R to 3R EMBs had lower LVRI than those with Grade 0R EMBs. LVRI recovered after treatment for rejection. LVRI appeared to normalize between 40 and 90 days post-transplantation. After 90 days, sensitivity was 100% and specificity was 90.9% for detecting patients with Grade 1R to 3R EMBs using an LVRI of 0.8. Conclusion LVRI, a novel, non-invasive TDI index of global left ventricular diastolic dysfunction, appears to be useful for detecting rejection in children beyond 3 months post-OHTx. [ABSTRACT FROM AUTHOR]

Published
2015
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12. Letters.

Author

Keats, Mark, Hubbell, Ann, Shepard, Charles W., Edason, Stanley, Cohen, Ethel, Adlerstein, Hersh L., and Bernstein, Melvin H.

Subjects
LETTERS to the editor, PEACE, INTERNATIONAL relations, DISARMAMENT
Abstract

Presents several letters relating to article on peace by Professor C. Wright Mills. Readers response to the article "Program for Peace." Comments by a reader on the denouncement of arms by C. Wright Mills. Consensus by a reader on C. Wright Mills fourteen point program for peace.

Published
1958

13. Nomenclature for Pediatric and Congenital Cardiac Care: Unification of Clinical and Administrative Nomenclature - The 2021 International Paediatric and Congenital Cardiac Code (IPCCC) and the Eleventh Revision of the International Classification of Diseases (ICD-11).

Author

Jacobs JP, Franklin RCG, Béland MJ, Spicer DE, Colan SD, Walters HL 3rd, Bailliard F, Houyel L, St Louis JD, Lopez L, Aiello VD, Gaynor JW, Krogmann ON, Kurosawa H, Maruszewski BJ, Stellin G, Weinberg PM, Jacobs ML, Boris JR, Cohen MS, Everett AD, Giroud JM, Guleserian KJ, Hughes ML, Juraszek AL, Seslar SP, Shepard CW, Srivastava S, Cook AC, Crucean A, Hernandez LE, Loomba RS, Rogers LS, Sanders SP, Savla JJ, Tierney ESS, Tretter JT, Wang L, Elliott MJ, Mavroudis C, and Tchervenkov CI

Subjects
Child, Female, Humans, Registries, Societies, Medical, Heart Defects, Congenital, International Classification of Diseases
Abstract

Substantial progress has been made in the standardization of nomenclature for paediatric and congenital cardiac care. In 1936, Maude Abbott published her Atlas of Congenital Cardiac Disease, which was the first formal attempt to classify congenital heart disease. The International Paediatric and Congenital Cardiac Code ( IPCCC ) is now utilized worldwide and has most recently become the paediatric and congenital cardiac component of the Eleventh Revision of the International Classification of Diseases (ICD-11). The most recent publication of the IPCCC was in 2017. This manuscript provides an updated 2021 version of the IPCCC . The International Society for Nomenclature of Paediatric and Congenital Heart Disease (ISNPCHD) , in collaboration with the World Health Organization (WHO), developed the paediatric and congenital cardiac nomenclature that is now within the eleventh version of the International Classification of Diseases (ICD-11). This unification of IPCCC and ICD-11 is the IPCCC ICD-11 Nomenclature and is the first time that the clinical nomenclature for paediatric and congenital cardiac care and the administrative nomenclature for paediatric and congenital cardiac care are harmonized. The resultant congenital cardiac component of ICD-11 was increased from 29 congenital cardiac codes in ICD-9 and 73 congenital cardiac codes in ICD-10 to 318 codes submitted by ISNPCHD through 2018 for incorporation into ICD-11. After these 318 terms were incorporated into ICD-11 in 2018, the WHO ICD-11 team added an additional 49 terms, some of which are acceptable legacy terms from ICD-10, while others provide greater granularity than the ISNPCHD thought was originally acceptable. Thus, the total number of paediatric and congenital cardiac terms in ICD-11 is 367. In this manuscript, we describe and review the terminology, hierarchy, and definitions of the IPCCC ICD-11 Nomenclature . This article, therefore, presents a global system of nomenclature for paediatric and congenital cardiac care that unifies clinical and administrative nomenclature.The members of ISNPCHD realize that the nomenclature published in this manuscript will continue to evolve. The version of the IPCCC that was published in 2017 has evolved and changed, and it is now replaced by this 2021 version. In the future, ISNPCHD will again publish updated versions of IPCCC , as IPCCC continues to evolve.

Published
2021
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14. The Right Subclavian Artery Arising as the First Branch of a Left-Sided Aortic Arch.

Author

Hernandez LE, Shepard CW, Bamforth SD, and Anderson RH

Subjects
Aorta, Thoracic diagnostic imaging, Aorta, Thoracic surgery, Computed Tomography Angiography, Echocardiography, Female, Humans, Imaging, Three-Dimensional, Infant, Subclavian Artery diagnostic imaging, Subclavian Artery surgery, Vascular Malformations surgery, Aorta, Thoracic abnormalities, Subclavian Artery abnormalities, Vascular Malformations diagnosis, Vascular Surgical Procedures methods
Abstract

We describe an unusual pattern of branching of a left-sided aortic arch in which the first branch is the right subclavian artery, followed by the common carotid arteries arising from a common trunk. The patient was born with transposition (concordant atrioventricular and discordant ventriculoarterial connections) and had 18q23 deletion. We discuss the implication of these anatomic findings in the light of inferences currently made by echocardiographers when the first branch of the aortic arch fails to bifurcate. We also relate the findings to the concepts of cardiac development and draw comparisons with previous descriptions, and interpretations of the morphogenesis, of the patterns of branching from the aortic arch., (© The Author(s) 2014.)

Published
2014
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15. Surgical Placement of Permanent Epicardial Pacing Systems in Very Low-Birth Weight Premature Neonates: A Review of Data From the Pediatric Cardiac Care Consortium (PCCC).

Author

Shepard CW, Kochilas L, Vinocur JM, Bryant R, Harvey BA, Bradley S, Decampli W, and Louis JD

Abstract

Unlabelled: Few studies have characterized the surgical outcomes following epicardial pacemaker placement in very low-birth weight infants with congenital complete heart block. This study was undertaken to review the surgical experience with this patient population based on data from a large multi-institutional registry., Methods: The Pediatric Cardiac Care Consortium (PCCC) multi-institutional database was retrospectively reviewed to identify premature, low-birth weight neonates that underwent surgical placement of an epicardial pacing system for heart block. We reviewed 179 patients with birth weights less than 1.5 kg that underwent a major operative procedure. Of these, 10 patients underwent surgical placement of an epicardial pacing system for heart block. Patients had heart block in otherwise structurally normal hearts (n = 6) or heart block associated with complex structural congenital cardiac anomalies (n = 4)., Results: There were no deaths directly related to the surgical placement of the epicardial pacing system. There were no immediate complications with either lead or generator placement. One generator pocket was revised three months following placement. Survival to discharge was 60%. The four deaths occurred at a mean of 11 days (range 1-45 days) following the procedure., Conclusions: Neonates born with prematurity and congenital heart block represent a challenging subset of patients with significant mortality. Generator pocket breakdown and infection have been considered barriers to optimal short- and long-term outcomes. Among cases in the PCCC, there were no deaths or major complications that could be attributed to permanent epicardial pacemaker placement. These data suggest that an aggressive surgical strategy may be justified.

Published
2012
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