Boineau JP et al. Demonstration of a widely distributed atrial pacemaker complex in the human heart. Circulation, 1988. 77. 6: 1221-1237.

Brody DA et al. Application of computer techniques to the detection and analysis of spontaneous P-wave variations. Circulation, 1967. 36. 3: 359-371.

Hiss RG, Averill KH, Lamb LE. Electrocardiographic findings in 67,375 asymptomatic subjects: III. Ventricular rhythms. The American journal of cardiology, 1960. 6. 1: 96-107,

Hiss RG et al. Electrocardiographic findings in 122,043 individuals. Circulation, 1962. 25. 6: 947961.

Monfredi O et al. The anatomy and physiology of the sinoatrial node-a contemporary review. Pacing and clinical electrophysiology, 2010. 33. 11: 1392-1406.

Packard JM, Graettinger JS, Graybiel A. Analysis of the electrocardiograms obtained from 1000 young healthy aviators; ten year follow-up. Circulation, 1954. 10: 384-400.

Медведев М.М. и др. Роль холтеровского мони-торирования электрокардиограммы в комплексной оценке функции синусового узла. Сообщение 2. Вестник аритмологии, 2001. 24: 39-44.

Полякова Е.Б. Прогностическое значение синусовой брадикардии при различных вариантах течения синдрома слабости синусового узла у детей. М., 2007.

Бурлуцкая А.В. К вопросу о синдроме слабости синусового узла у детей. Анналы аритмологии. 2008. 5. 4.

Белоконь Н.А., Кубергер М.Б. Болезни сердца и сосудов у детей. М.: Медицина. 1987. 1. 448.

Макаров Л.М. ЭКГ в педиатрии. 2006.

Кушаковский М.С. Аритмии сердца. Нарушения сердечного ритма и проводимости: Руководство для врачей. СПб.: Фолиант, 2004.

Мурашко В.В., Струтынский А.В. Электрокардиография: Учеб. пособие. 3-е изд., перераб. и доп. М.: ООО «Медпресс», 2001. 313.

Ferrer MI. The sick sinus syndrome. Circulation, 1973. 47. 3: 635-641.

Чернышова Т.В. Клинико-электрокардиографические варианты и дифференцированная тактика лечения синдрома слабости синусового узла у детей: дис. М.: ТВ Чернышова, 1992.

Медведев М.М. Холтеровское мониторирова-ние в комплексной диагностике синдрома слабости синусового узла. Вестник аритмологии, 2003. 32: 24-30.

Школьникова М.А., Миклашевич И.М., Калинина Л.А. Нормативные параметры ЭКГ у детей и подростков. М.: Ассоциация детских кардиологов России, 2010. 232 с.

Озеров М.В. Интерпретация возрастных особенностей электрокардиографии у детей. Казанский медицинский журнал. 2010. 91. 6.

Макаров Л.М. Холтеровское мониторирование. 2-е изд. М.: Медпрактика-М, 2003. 340.

Boineau JP et al. Multicentric origin of the atrial depolarization wave: the pacemaker complex. Relation to dynamics of atrial conduction, P-wave changes and heart rate control. Circulation, 1978. 58. 6: 1036-1048.

Boineau JP et al. Widespread distribution and rate differentiation of the atrial pacemaker complex. American Journal of Physiology-Heart and Circulatory Physiology, 1980. 239. 3: H406-H415.

Colman Ma et al. Elucidating the body surface P-wave using a detailed computer model of atrial activation. Computing in Cardiology (CinC), 2012. IEEE, 2012. 129-132.

Fedorov VV et al. Optical mapping of the isolated coronary-perfused human sinus node. Journal of the American College of Cardiology, 2010. 56. 17: 1386-1394.

Holmqvist F et al. Interatrial conduction can be accurately determined using standard 12-lead electrocardiography: validation of P-wave morphology using electroanatomic mapping in man. Heart Rhythm., 2008. 5. 3: 413-418.

Irisawa H, Seyama I. The configuration of the P wave during mild exercise. American heart journal, 1966. 71. 4: 467-472.

Lemery R et al. Normal atrial activation and voltage during sinus rhythm in the human heart: an endocardial and epicardial mapping study in patients with a history of atrial fibrillation. Journal of cardiovascular electrophysiology, 2007. 18. 4: 402-408.

Mirvis DM. Body surface distribution of electrical potential during atrial depolarization and repo-larization. Circulation, 980. 62(1): 167-73.

Petersson R et al. P-Wave Morphology Is Unaffected by Atrial Size: A Study in Healthy Athletes. Annals of Noninvasive Electrocardiology, 2014. 19. 4: 366-373.

Schuessler RB, Boineau JP, Bromberg BI. Origin of the sinus impulse. Journal of cardiovascular electrophysiology, 1996. 7. 3: 263-274.

Baruscotti M, Robinson RB. Electrophysiology and pacemaker function of the developing sinoatrial node. American Journal of Physiology-Heart and Circulatory Physiology, 2007. 293. 5: H2613-H2623.

Boyett MR, Honjo H, Kodama I. The sinoatrial node, a heterogeneous pacemaker structure. Cardiovascular research, 2000. 47. 4: 658-687.

Boyett MR et al. Sophisticated architecture is required for the sinoatrial node to perform its normal pacemaker function. Journal of cardiovascular electrophysiology, 2003. 14. 1: 104-106.

Bukauskas FF et al. Biophysical properties of gap junction channels formed by mouse con-nexin40 in induced pairs of transfected human HeLa cells. Biophysical Journal, 1995. 68. 6: 2289.

Chandler NJ et al. Molecular architecture of the human sinus node insights into the function of the cardiac pacemaker. Circulation, 2009. 119. 12: 1562-1575.

Opthof T. Embryological development of pacemaker hierarchy and membrane currents related to the function of the adult sinus node: implications for autonomic modulation of biopacemak-ers. Biopacemaking. Springer Berlin Heidelberg, 2007. 6-26.

Verheijck EE. et al. Distribution of Atrial and Nodal Cells Within the Rabbit Sinoatrial Node Models of Sinoatrial Transition. Circulation, 1998. 97. 16: 1623-1631.

Sanchez-Ouintana D, Cabrera JA, Farre J, Climent V, Anderson RH, Ho SY Sinus node revisited in the era of electroanatomical mapping and catheter ablation. Heart, 2005. 91: 189-194.

Fedorov VV et al. Structural and functional evidence for discrete exit pathways that connect the canine sinoatrial node and atria. Circulation research, 2009. 104. 7: 915-923.

Bromberg BI et al. Primary negativity does not predict dominant pacemaker location: implications for sinoatrial conduction. American Journal of Physiology-Heart and Circulatory Physiology, 1995. 269. 3: H877-H887.

Fedorov VV et al. Complex interactions between the sinoatrial node and atrium during reentrant arrhythmias in the canine heart. Circulation, 2010. 122. 8: 782-789.

Syunyaev RA, Aliev RR. Computer simulation of 3D electrical activity in the sinoatrial node. Russian Journal of Numerical Analysis and Mathematical Modelling. 2012. 26. 6: 575-588.

Mangoni ME, Nargeot J. Genesis and regulation of the heart automaticity. Physiological reviews, 2008. 88. 3: 919-982.

Boineau JP et al. Ouantitative relation between sites of atrial impulse origin and cycle length. American Journal of Physiology-Heart and Circulatory Physiology, 1983. 245. 5: H781-H789.

Brown HF, DiFrancesco D, Noble SJ. How does adrenaline accelerate the heart? 1979.

Wainger BJ et al. Molecular mechanism of cAMP modulation of HCN pacemaker channels. Nature, 2001. 411. 6839: 805-810.

Roithinger FX et al. Use of electroanatomic mapping to delineate transseptal atrial conduction in humans. Circulation, 1999. 100. 17: 17911797.

Platonov PG et al. Morphology of inter-atrial conduction routes in patients with atrial fibrillation. Europace: European pacing, arrhythmias, and cardiac electrophysiology: journal of the working groups on cardiac pacing, arrhythmias, and cardiac cellular electrophysiology of the European Society of Cardiology, 2002. 4. 2: 183-192.

Kozlowski D et al. Preliminary study of external interatrial muscle fascicles. Folia morphologica, 2002. 61. 2: 97-101.

Chauvin M et al. The anatomic basis of connections between the coronary sinus musculature and the left atrium in humans. Circulation, 2000. 101. 6: 647-652.

Митрофанова Л.Б., Иванов ВА., Платонов П.Г Морфологическая характеристика межпредсердной перегородки и проводящая система сердца. Морфология, 2007. 132. 5: 52-57.