Biomedical Engineering Reference
In-Depth Information
36.
Michaels DC, Matyas EP, Jalife J (1987) Mechanisms of sinoatrial pacemaker
synchronization: a new hypothesis. Circ Res 61:704-714
37.
Moorman AFM, De Jong F, Denyn MMFJ, Lamers WH (1998) Development of the
cardiac conduction system. Circ Res 82:629-644
38.
Mummery C, Ward-Van Oostwaard D, Doevendans P, Spijker R, Van Den Brink S,
Hassink R, Van Der Heyden M, Opthof T, Pera M, Brutel De La Riviere A, Passier R,
Tertoolen L (2003) Differentiation of human embryonic stem cells to cardiomyocytes.
Role of coculture with visceral endoderm-like cells. Circulation 107:2733-2740
39.
Opthof T,Bleeker WK, Masson Pevet M, Jongsma HJ, Bouman LN (1983a) Little-
excitable transitional cells in the rabbit sinoatrial node: a statistical, morphological and
electrophysiological study. Experientia 39:1099-1101
40.
Opthof T, Mackaay AJC, Bleeker WK, Jongsma HJ, Bouman LN (1983b) Cycle length
dependence of the chronotropic effects of adrenaline and acetylcholine in the rabbit
sinoatrial node. J Autonom Nerv Syst 8:193-204
41.
Opthof T, Duivenvoorden JJ, VanGinneken ACG, Jongsma HJ, Bouman LN (1986)
Electrophysiological effects of alinidine (St 567) on sinoatrial node fibers in the rabbit
heart. Cardiovasc Res 20:727-739
42.
Opthof T, De Jonge B, Jongsma HJ, Bouman LN (1987a) Functional morphology of the
mammalian sinuatrial node. Eur Heart J 8:1249-1259
43.
Opthof T, Van Ginneken ACG, Bouman LN, Jongsma HJ (1987b) The intrinsic cycle
length in small pieces isolated from the rabbit sinoatrial node. J Mol Cell Cardiol 19:
923-934
44.
Opthof T (1988) The mammalian sinoatrial node. Cardiovasc Drugs Ther 1:573-597
45.
Opthof T (1998) The membrane current (
I
f
) in human atrial cells. Implications for atrial
arrhythmias. Cardiovasc Res 38:537-540
46.
Patten BM, Kramer TC (1933) The initiation of contraction in the embryonic chick heart.
Am J Anat 53:349-375
47.
Plotnikov AN, Sosunov EA, Qu J, Shalpakova IN, Anyukhovsky EP, Liu L, Janse MJ,
Brink PR, Cohen IS, Robinson RB, Danilo P, Rosen MR (2004) Biological pacemaker
implanted in canine left bundle branch provides ventricular escape rhythms that have
physiologically acceptable rates. Circulation 109:506-512
48.
Potapova I, Plotnikov A, Lu Z, Danilo P, Valiunas V, Qu J, Doronin S, Zuckerman J,
Shalapakova IN, Gao J, Pan Z, Herron AJ, Robinson RB, Brink PR, Rosen MR, Cohen IS
(2004) Human mesenchymal stem cells as a gene delivery system to create cardiac
pacemakers. Circ Res 94:952-959
49.
Powell T, Twist VW (1976) A rapid technique for the isolation and purification of adult
cardiac muscle cells having respiratory control and a tolerance to calcium. Biochem
Biophys Res Comm 72:327-333
50.
Qu J, Plotnikov AN, Danilo P, Shlapakova I, Cohen IS, Robinson RB, Rosen MR (2003)
Expression and function of a biological pacemaker in canine heart. Circulation 107:1106-
1109
51.
Ramanathan C, Jia P, Ghanem R, Ryu K, Rudy Y (2006) Activation and repolarization of
the normal human heart under complete physiological conditions. Proc Natl Acad Sci USA
103:6309-6314
52.
Rocchetti M, Malfatto G, Lombardi F, Zaza A (2000). Role of the input/output relation of
sinoatrial myocytes in cholinergic modulation of heart rate variability. J Cardiovasc
Electrophysiol 11:522-530
53.
Rosen MR, Brink PR, Cohen IS, Robinson RB (2007) Biological pacemakers based on
I
f
.
Med Biol Eng Comput (this issue)
