Chen S, Nie H, Ayers-Glassey B (2008) Lognormal sum approximation with a variant of type IV Pearson distribution. IEEE Commun Lett 12:630–632
Chorro FJ, Kirchhof CJHJ, Brugada J, Allessie MA (1990) Ventricular response during irregular atrial-pacing and atrial-fibrillation. Am J Physiol Heart Circ Physiol 259:H1015–H1021
Chorro FJ, Sanchis J, Lopez-Merino V, Such L, Avellana JA, Valentin V (1991) Effects of atrial impulse timing on AV concealed conduction in the rabbit heart. Pacing Clin Electrophysiol 14(5 Pt 1):842–853
[+]
Chen S, Nie H, Ayers-Glassey B (2008) Lognormal sum approximation with a variant of type IV Pearson distribution. IEEE Commun Lett 12:630–632
Chorro FJ, Kirchhof CJHJ, Brugada J, Allessie MA (1990) Ventricular response during irregular atrial-pacing and atrial-fibrillation. Am J Physiol Heart Circ Physiol 259:H1015–H1021
Chorro FJ, Sanchis J, Lopez-Merino V, Such L, Avellana JA, Valentin V (1991) Effects of atrial impulse timing on AV concealed conduction in the rabbit heart. Pacing Clin Electrophysiol 14(5 Pt 1):842–853
Climent AM, Guillem MS, Husser D, Castells F, Millet J, Bollmann A (2009) Poincare surface profiles of RR intervals. A novel noninvasive method for the evaluation of preferential AV nodal conduction during atrial fibrillation. IEEE Trans Biomed Eng 56(2):433–442
Climent AM, Guillem MS, Husser D, Castells F, Millet J, Bollmann A (2010) Role of the atrial rate as a factor modulating ventricular response during atrial fibrillation. Pacing Clin Electrophysiol 33:1510–1517
Climent AM, Guillem MS, Zhang Y, Millet J, Mazgalev T (2011) Functional mathematical model of dual pathway AV nodal conductions. Am J Physiol Heart Circ Physiol 300(4):H1393–H1401
Cohen RJ, Berger RD (1983) A quantitative model for the ventricular response during atrial-fibrillation. IEEE Trans Biomed Eng 30:769–781
Cover TM, Thomas JA (2006) Elements of information theory. Wiley, New York
Devroye L (1989) On random variate generation when only moments or Fourier coefficients are known. Math Comput Simul 31:71–89
Faes L, Nollo G, Antolini R, Gaita F, Ravelli F (2002) A method for quantifying atrial fibrillation organization based on wave-morphology similarity. IEEE Trans Biomed Eng 49:1504–1513
Fuster V, Ryden LE, Cannom DS, Crijns HJ, Curtis AB, Ellenbogen KA, Halperin JL, Le Heuzey JY, Kay GN, Lowe JE, Olsson SB, Prystowsky EN, Tamargo JL, Wann S (2006) ACC/AHA/ESC 2006 guidelines for the management of patients with atrial fibrillation. Europace 8:651–745
Garrigue S, Mowrey KA, Fahy G, Tchou PJ, Mazgalev TN (1999) Atrioventricular nodal conduction during atrial fibrillation: role of atrial input modification. Circulation 99:2323–2333
Garrigue S, Tchou PJ, Mazgalev TN (1999) Role of the differential bombardment of atrial inputs to the atrioventricular node as a factor influencing ventricular rate during high atrial rate. Cardiovasc Res 44:344–355
Gerstenfeld EP, Sahakian AV, Swiryn S (1992) Evidence for transient linking of atrial excitation during atrial fibrillation in humans. Circulation 86:375–382
Heethaar RM, Denier van der Gon JJ, Meijler FL (1973) Mathematical model of A-V conduction in the rat heart. Cardiovasc Res 7:105–114
Heethaar RM, van der Gon JJ, Meijler FL (1973) Interpretation of some properties of A-V conduction with the help of analog simulation. Eur J Cardiol 1:87–93
Heinrich J (2004) A guide to the Pearson type IV distribution. http://www-cdf.fnal.gov
Inada S, Hancox JC, Zhang H, Boyett MR (2009) One-dimensional mathematical model of the atrioventricular node including atrio-nodal, nodal, and nodal-his cells. Biophys J 97:2117–2127
Izrailev FM, Krokhin AA, Makarov NM, Usatenko OV (2007) Generation of correlated binary sequences from white noise. Phys Rev E 76:1–4
Jorgensen P, Schafer C, Guerra PG, Talajic M, Nattel S, Glass L (2002) A mathematical model of human atrioventricular nodal function incorporating concealed conduction. Bull Math Biol 64:1083–1099
Kwan R, Leung C (2007) On the applicability of the Pearson method for approximating distributions in wireless communications. IEEE Trans Commun 55:2065–2069
Lian J, Mussig D, Lang V (2006) Computer modeling of ventricular rhythm during atrial fibrillation and ventricular pacing. IEEE Trans Biomed Eng 53:1512–1520
Makse HA, Havlin S, Schwartz M, Stanley HE (1996) Method for generating long-range correlations for large systems. Phys Rev E 53:5445–5449
Mangin L, Vinet A, Page P, Glass L (2005) Effects of antiarrhythmic drug therapy on atrioventricular nodal function during atrial fibrillation in humans. Europace 7(Suppl 2):71–82
Mazgalev TN, Garrigue S, Mowrey KA, Yamanouchi Y, Tchou PJ (1999) Autonomic modification of the atrioventricular node during atrial fibrillation: role in the slowing of ventricular rate. Circulation 99:2806–2814
Meijler FL, Jalife J, Beaumont J, Vaidya D (1996) AV nodal function during atrial fibrillation: the role of electrotonic modulation of propagation. J Cardiovasc Electrophysiol 7:843–861
Meurling CJ, Waktare JE, Holmqvist F, Hedman A, Camm AJ, Olsson SB, Malik M (2001) Diurnal variations of the dominant cycle length of chronic atrial fibrillation. Am J Physiol Heart Circ Physiol 280:H401–H406
Nagahara Y (2004) A method of simulating multivariate nonnormal distributions by the Pearson distribution system and estimation. Comput Stat Data Anal 47:1–29
Nie H, Chen SH (2007) Lognormal sum approximation with type IV Pearson distribution. IEEE Commun Lett 11:790–792
Pearson K (1895) Contributions to the mathematical theory of evolution. II. Skew variation in homogeneous material. Philos Trans R Soc Lond A 186:343–414
Richter U, Bollmann A, Husser D, Stridh M (2009) Right atrial organization and wavefront analysis in atrial fibrillation. Med Biol Eng Comput 47:1237–1246
Sandberg F, Bollmann A, Husser D, Stridh M, Sornmo L (2010) Circadian variation in dominant atrial fibrillation frequency in persistent atrial fibrillation. Physiol Meas 31:531–542
Schoenwald AT, Sahakian AV, Sih HJ, Swiryn S (1998) Further observations of “linking” of atrial excitation during clinical atrial fibrillation. Pacing Clin Electrophysiol 21:25–34
Tadros R, Billette J (2009) Rate-dependent AV nodal refractoriness: a new functional framework based on concurrent effects of basic and pretest cycle length. Am J Physiol Heart Circ Physiol 297:H2136–H2143
Tadros R, Lavallee M, Billette J (2006) Unified rate-dependent atrioventricular nodal function: consistent recovery and fatigue properties revealed with S1S2S3 protocols and different recovery indexes. Heart Rhythm 3:959–966
Tadros R, Lavallee M, Billette J (2007) Dependence of AV nodal function curves on the selected recovery index: pivotal role of pretest conduction time. J Cardiovasc Electrophysiol 18:978–984
Talajic M, Papadatos D, Villemaire C, Glass L, Nattel S (1991) A unified model of atrioventricular nodal conduction predicts dynamic changes in Wenckebach periodicity. Circ Res 68:1280–1293
Vaya C, Rieta JJ (2009) Time and frequency series combination for non-invasive regularity analysis of atrial fibrillation. Med Biol Eng Comput 47:687–696
Zeng W, Glass L (1996) Statistical properties of heartbeat intervals during atrial fibrillation. Phys Rev E Stat Phys Plasmas Fluids Relat Interdiscip Topics 54:1779–1784
Zhang YH, Mazgalev TN (2004) Ventricular rate control during atrial fibrillation and AV node modifications: past, present, and future. Pacing Clin Electrophysiol 27:382–393
Zhang QT, Song SH (2008) A systematic procedure for accurately approximating lognormal-sum distributions. IEEE Trans Veh Technol 57:663–666
[-]
![[Cerrado]](/themes/UPV/images/candado.png)
