Periodic Breathing in Heart Failure Explained by Dynamic and Static Properties of Respiratory Control | Zendy

Tadayoshi Miyamoto | Zendy; Hidehiro Nakahara | Zendy; Shin-ya Ueda | Zendy; Kou Manabe | Zendy; Eriko Kawai | Zendy; Masashi Inagaki | Zendy; Toru Kawada | Zendy; Masaru Sugimachi | Zendy

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Periodic Breathing in Heart Failure Explained by Dynamic and Static Properties of Respiratory Control

Author(s) -

Tadayoshi Miyamoto,

Hidehiro Nakahara,

Shin-ya Ueda,

Kou Manabe,

Eriko Kawai,

Masashi Inagaki,

Toru Kawada,

Masaru Sugimachi

Publication year - 2015

Publication title -

clinical medicine insights cardiology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.634

H-Index - 21

ISSN - 1179-5468

DOI - 10.4137/cmc.s18761

Subject(s) - control theory (sociology) , controller (irrigation) , ventilation (architecture) , respiratory system , respiration , periodic breathing , loop gain , open loop controller , vagal tone , mathematics , computer science , physics , closed loop , control (management) , heart rate variability , heart rate , medicine , thermodynamics , blood pressure , engineering , control engineering , biology , voltage , artificial intelligence , quantum mechanics , agronomy , anatomy

The respiratory operating point is determined by the interplay between the controller and plant subsystem elements within the respiratory chemoreflex feedback system. This study aimed to establish the methodological basis for quantitative analysis of the open-loop dynamic properties of the human respiratory control system and to apply the results to explore detailed mechanisms of the regulation of respiration and the possible mechanism of periodic breathing in chronic heart failure.

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