A paradigm shift in cardiac pacing therapy?

Circulation

Volumn 114, Issue 10, 2006, Pages 986-988

  Cowan, Douglas B ^a   McGowan Jr , Francis X ^a  

^a BOSTON CHILDREN S HOSPITAL   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ACETYLCHOLINE; BETA ADRENERGIC RECEPTOR; BIOMATERIAL; MUSCARINIC AGENT;

ARTIFICIAL HEART PACEMAKER; AUTONOMIC NERVOUS SYSTEM; CELL TRANSPORT; CONGESTIVE HEART FAILURE; EDITORIAL; GENE TRANSFER; HEART ATRIUM FIBRILLATION; HEART AUTOMATICITY; HEART DEPOLARIZATION; HEART MUSCLE CELL; HEART RATE; HEART VENTRICLE TACHYCARDIA; HYPERTROPHIC CARDIOMYOPATHY; IMPLANTATION; NONHUMAN; PLASMID; PRIORITY JOURNAL; RECOMBINANT GENE; TREATMENT INDICATION;

ANIMALS; BUNDLE-BRANCH BLOCK; DISEASE MODELS, ANIMAL; HUMANS; ION CHANNELS; PACEMAKER, ARTIFICIAL;

EID: 33748486913     PISSN: 00097322     EISSN: None     Source Type: Journal    
DOI: 10.1161/CIRCULATIONAHA.106.644799     Document Type: Editorial

References (23)

1. Callaghan JC, Bigelow WG. An electrical artificial pacemaker for standstill of the heart. Ann Surg. 1951;134:8-17.
2. Mond HG, Sloman JG, Edwards RH. The first pacemaker. Pacing Clin Electrophysiol. 1982;5:278-282.
3. Nelson GD. A brief history of cardiac pacing. Tex Heart Inst J. 1993;20:12-18.
4. Senning A. Cardiac pacing in retrospect. Am J Surg. 1983;145:733-739.
5. Jeffrey K, Parsonnet V. Cardiac pacing, 1960-1985: a quarter century of medical and industrial innovation. Circulation. 1998;97:1978-1991.
6. Hayes DL, Furman S. Cardiac pacing: how it started, where we are, where we are going. J Cardiovasc Electrophysiol. 2004;15:619-627.
7. Trohman RG, Kim MH, Pinski SL. Cardiac pacing: the state of the art. Lancet. 2004;364:1701-1719.
8. Edelberg JM, Aird WC, Rosenberg RD. Enhancement of murine cardiac chronotropy by the molecular transfer of the human beta2 adrenergic receptor cDNA. J Clin Invest. 1998;101:337-343.
9. Edelberg JM, Huang DT, Josephson ME, Rosenberg RD. Molecular enhancement of porcine cardiac chronotropy. Heart. 2001;86:559-562.
10. Lin G, Cai J, Jiang H, Shen H, Jiang X, Yu Q, Song J. Biological pacemaker created by fetal cardiomyocyte transplantation. J Biomed Sci. 2005;12:513-519.
11. Ruhparwar A, Tebbenjohanns J, Niehaus M, Mengel M, Irtel T, Kofidis T, Pichlmaier AM, Haverich A. Transplanted fetal cardiomyocytes as cardiac pacemaker. Eur J Cardiothorac Surg. 2002;21:853-857.
12. Cai J, Lin G, Jiang H, Yang B, Jiang X, Yu Q, Song J. Transplanted neonatal cardiomyocytes as a potential biological pacemaker in pigs with complete atrioventricular block. Transplantation. 2006;81:1022-1026.
13. Kehat I, Khimovich L, Caspi O, Gepstein A, Shofti R, Arbel G, Huber I, Satin J, Itskovitz-Eldor J, Gepstein L. Electromechanical integration of cardiomyocytes derived from human embryonic stem cells. Nat Biotechnol. 2004;22:1282-1289.
14. Xue T, Cho HC, Akar FG, Tsang SY, Jones SP, Marban E, Tomaselli GF, Li RA. Functional integration of electrically active cardiac derivatives from genetically engineered human embryonic stem cells with quiescent recipient ventricular cardiomyocytes: insights into the development of cell-based pacemakers. Circulation. 2005;111:11-20.
15. Miake J, Marban E, Nuss HB. Biological pacemaker created by gene transfer. Nature. 2002;419:132-133.
16. Plotnikov AN, Sosunov EA, Qu J, Shlapakova IN, Anyukhovsky EP, Liu L, Janse MJ, Brink PR, Cohen IS, Robinson RB, Danilo P Jr, Rosen MR. Biological pacemaker implanted in canine left bundle branch provides ventricular escape rhythms that have physiologically acceptable rates. Circulation. 2004;109:506-512.
17. Qu J, Plotnikov AN, Danilo P Jr, Shlapakova I, Cohen IS, Robinson RB, Rosen MR. Expression and function of a biological pacemaker in canine heart. Circulation. 2003;107:1106-1109.
18. Potapova I, Plotnikov A, Lu Z, Danilo P Jr, Valiunas V, Qu J, Doronin S, Zuckerman J, Shlapakova IN, Gao J, Pan Z, Herron AJ, Robinson RB, Brink PR, Rosen MR, Cohen IS. Human mesenchymal stem cells as a gene delivery system to create cardiac pacemakers. Circ Res. 2004;94:952-959.
19. Choi YH, Stamm C, Hammer PE, Kwaku KF, Marler JJ, Friehs I, Jones M, Rader CM, Roy N, Eddy MT, Triedman JK, Walsh EP, McGowan FX, del Nido PJ, Cowan DB. Cardiac conduction through engineered tissue. Am J Pathol. 2006;169:72-85.
20. Bucchi A, Plotnikov A, Shlapakova I, Danilo P Jr, Kryukova Y, Qu J, Lu Z, Liu H, Pan Z, Potapova I, KenKnight B, Girouard S, Cohen IS, Brink PR, Robinson RB, Rosen MR. Wild-type and mutant HCN channels in a tandem biological-electronic cardiac pacemaker. Circulation. 2006;114:992-999.
21. Tse H-F, Xue T, Lau C-P, Siu C-W, Wang K, Zhang Q-Y, Tomaselli GF, Akar FG, Li RA. Bioartificial sinus node constructed via in vivo gene transfer of an engineered pacemaker HCN channel reduces the dependence on electronic pacemaker in a sick-sinus syndrome model. Circulation. 2006;114:1000-1011.
22. Robinson RB, Brink PR, Cohen IS, Rosen MR. I(f) and the biological pacemaker. Pharmacol Res. 2006;53:407-415.
23. Accili EA, Proenza C, Baruscotti M, DiFrancesco D. From funny current to HCN channels: 20 years of excitation. News Physiol Sci. 2002;17:32-37.