{"title":"心动过速依赖性右束支阻滞间歇正常传导的积分曲线和变分原理。","authors":"K Izumi","doi":"","DOIUrl":null,"url":null,"abstract":"<p><p>Electrocardiographic (ECG) tracings of atrial fibrillation with the tachycardia-dependent right bundle branch block (RBBB) in a patient under digitalis therapy are presented, in which supernormal phase of intraventricular conduction was well-documented. The development of long intervals terminated by a normally conducted beat was attributed to the occurrence of concealed atrio-ventricular (A-V) conduction of atrial fibrillation impulse during the supernormal phase. The ventricular interval caused by a normally conducted beat (x seconds) in the interval of 1.01-1.50 seconds (s) was transformable into from of In(x + a) + l, where parameter a = 0, 0.04, 8.08 and 0.16. The vector differential equation dy/dx = ln (x + a) + 1l which is piecewise continuous and integrable, was assumed to describe the process of optimal control. This is equivalent to the problem of finding Green's function of the region, i.e. to solving, the Dirichlet problem for the region. The solution curves given by y = (x + a) ln(x + a) + l can be interpreted as distributions. This is the first study to apply integral curves and the variational principle to mathematical modelling of normal A-V conduction in tachycardia-dependent RBBB with atrial fibrillation. Furthermore, this is the first topological study to derive some definite properties of states of the phase space of a dynamical system. There are structurally stable vector field points so-called attractors on a differential manifold or surface. The optimal control is characterized by the fixed point property. In general, mathematical modelling may be applicable to the tachycardia-dependent RBBB when the cycle lengths caused by normally conducted beats range from 1.00 to 1.50 s as a feasible region. A solution of Dirichlet problem in the region was found. It was derived from this study that the normally conducted beats appeared as period doubling of 0.38-0.59 s, i.e. the interval of supernormal phase.</p>","PeriodicalId":76124,"journal":{"name":"Materia medica Polona. Polish journal of medicine and pharmacy","volume":"28 2","pages":"57-63"},"PeriodicalIF":0.0000,"publicationDate":"1996-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Integral curves and the variational principle of intermittent normal conduction in the tachycardia-dependent right bundle branch block.\",\"authors\":\"K Izumi\",\"doi\":\"\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Electrocardiographic (ECG) tracings of atrial fibrillation with the tachycardia-dependent right bundle branch block (RBBB) in a patient under digitalis therapy are presented, in which supernormal phase of intraventricular conduction was well-documented. The development of long intervals terminated by a normally conducted beat was attributed to the occurrence of concealed atrio-ventricular (A-V) conduction of atrial fibrillation impulse during the supernormal phase. The ventricular interval caused by a normally conducted beat (x seconds) in the interval of 1.01-1.50 seconds (s) was transformable into from of In(x + a) + l, where parameter a = 0, 0.04, 8.08 and 0.16. The vector differential equation dy/dx = ln (x + a) + 1l which is piecewise continuous and integrable, was assumed to describe the process of optimal control. This is equivalent to the problem of finding Green's function of the region, i.e. to solving, the Dirichlet problem for the region. The solution curves given by y = (x + a) ln(x + a) + l can be interpreted as distributions. This is the first study to apply integral curves and the variational principle to mathematical modelling of normal A-V conduction in tachycardia-dependent RBBB with atrial fibrillation. Furthermore, this is the first topological study to derive some definite properties of states of the phase space of a dynamical system. There are structurally stable vector field points so-called attractors on a differential manifold or surface. The optimal control is characterized by the fixed point property. In general, mathematical modelling may be applicable to the tachycardia-dependent RBBB when the cycle lengths caused by normally conducted beats range from 1.00 to 1.50 s as a feasible region. A solution of Dirichlet problem in the region was found. It was derived from this study that the normally conducted beats appeared as period doubling of 0.38-0.59 s, i.e. the interval of supernormal phase.</p>\",\"PeriodicalId\":76124,\"journal\":{\"name\":\"Materia medica Polona. 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引用次数: 0
摘要
心电图(ECG)示踪心房颤动与心动过速依赖性右束支传导阻滞(RBBB)的病人在洋地黄治疗,其中心室传导的超常期是充分记录。以正常传导的心跳终止的长间隔的发展是由于在超常期发生隐蔽的房室(a -v)心房颤动脉冲传导。在1.01-1.50秒(s)的时间间隔内,一次正常传导的心跳(x秒)所引起的心室间隔可转化为in (x + a) + l,其中参数a = 0、0.04、8.08、0.16。采用分段连续可积的矢量微分方程dy/dx = ln (x + a) + 1l来描述最优控制过程。这等价于求区域的格林函数的问题,即求解区域的狄利克雷问题。由y = (x + a) ln(x + a) + l给出的解曲线可以解释为分布。这是首次将积分曲线和变分原理应用于心动过速依赖性RBBB心房颤动正常A-V传导的数学建模。此外,这是第一次在拓扑研究中推导出动力系统相空间状态的一些确定性质。微分流形或曲面上存在结构稳定的矢量场点,即吸引子。最优控制具有不动点特性。一般来说,当正常传导的心跳引起的周期长度在1.00 ~ 1.50 s范围内可行时,数学模型可以适用于心动过速依赖性RBBB。得到了该区域狄利克雷问题的一个解。由本研究得出,正常传导的节拍以0.38 ~ 0.59 s的周期加倍出现,即超常相间隔。
Integral curves and the variational principle of intermittent normal conduction in the tachycardia-dependent right bundle branch block.
Electrocardiographic (ECG) tracings of atrial fibrillation with the tachycardia-dependent right bundle branch block (RBBB) in a patient under digitalis therapy are presented, in which supernormal phase of intraventricular conduction was well-documented. The development of long intervals terminated by a normally conducted beat was attributed to the occurrence of concealed atrio-ventricular (A-V) conduction of atrial fibrillation impulse during the supernormal phase. The ventricular interval caused by a normally conducted beat (x seconds) in the interval of 1.01-1.50 seconds (s) was transformable into from of In(x + a) + l, where parameter a = 0, 0.04, 8.08 and 0.16. The vector differential equation dy/dx = ln (x + a) + 1l which is piecewise continuous and integrable, was assumed to describe the process of optimal control. This is equivalent to the problem of finding Green's function of the region, i.e. to solving, the Dirichlet problem for the region. The solution curves given by y = (x + a) ln(x + a) + l can be interpreted as distributions. This is the first study to apply integral curves and the variational principle to mathematical modelling of normal A-V conduction in tachycardia-dependent RBBB with atrial fibrillation. Furthermore, this is the first topological study to derive some definite properties of states of the phase space of a dynamical system. There are structurally stable vector field points so-called attractors on a differential manifold or surface. The optimal control is characterized by the fixed point property. In general, mathematical modelling may be applicable to the tachycardia-dependent RBBB when the cycle lengths caused by normally conducted beats range from 1.00 to 1.50 s as a feasible region. A solution of Dirichlet problem in the region was found. It was derived from this study that the normally conducted beats appeared as period doubling of 0.38-0.59 s, i.e. the interval of supernormal phase.
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