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1 ch of it arises independently of respiratory sinus arrhythmia.
2 ardiac vagal tone and pronounced respiratory sinus arrhythmia.
3 as few as 9 beats per minute, with profound sinus arrhythmia.
4 tion between respiration and the respiratory sinus arrhythmia.
5 is directly related to a reduced respiratory sinus arrhythmia.
6 Seven HCM cats and zero healthy cats had a sinus arrhythmia.
7 enome of mice resulted in SAN hypoplasia and sinus arrhythmias.
8 herapies, such as biological pacemakers, for sinus arrhythmias.
9 ctly be a key determinant of seizure-induced sinus arrhythmias.
10 thmias, nighttime wakefulness promotes ictal sinus arrhythmias.
11 This closely matched heart rate variation (sinus arrhythmia) across the respiratory cycle such that
13 acteristics (cardiac measures of respiratory sinus arrhythmia and pre-ejection period), central nervo
15 urocardiogenic mechanisms in seizure-induced sinus arrhythmias and to test the hypothesis that circad
16 sympathetic tone, as measured by respiratory sinus arrhythmia, and sympathetic control of the heart,
18 (during seizure) or postictal (post-seizure) sinus arrhythmias, are potential triggers for sudden une
19 tion and provide a framework for respiratory sinus arrhythmia as there is an increase in heart rate d
20 Evidence strongly suggests that respiratory sinus arrhythmia both contributes to and buffers respira
21 These results demonstrate that respiratory sinus arrhythmia can actually contribute to respiratory
22 ere increased in rats paced with respiratory sinus arrhythmia compared to monotonic pacing, via impro
24 pression of these variabilities, respiratory sinus arrhythmia does not always reflect a purely vagal
27 related to expiration (expiration-triggered sinus arrhythmia [ETA]) from short-term recordings of el
28 f cardiac dysfunction including bradycardia, sinus arrhythmia, idiopathic ventricular fibrillation, c
29 nent in HRV similar to mammalian respiratory sinus arrhythmia in an amphibian, the toad Rhinella schn
32 f the principal explanations for respiratory sinus arrhythmia is that it reflects arterial baroreflex
33 te into our model the effects of respiratory sinus arrhythmia, Mayer waves and the important very low
34 disposed sinoatrial nodal cells to postictal sinus arrhythmias, nighttime wakefulness promotes ictal
35 ed daily for 2 weeks with either respiratory sinus arrhythmia or paced monotonically at a matched hea
36 tor to heart rate variability is respiratory sinus arrhythmia or RSA - an intrinsic respiratory modul
38 A determination by quantifying the amount of sinus arrhythmia related to expiration (expiration-trigg
39 PS and the traditionally studied respiratory sinus arrhythmia represent different aspects of the card
40 as elevated during pup exposure, respiratory sinus arrhythmia (RSA) did not differ between these male
43 ssessed at multiple time points, respiratory sinus arrhythmia (RSA) was measured in the three face-to
44 we assessed the influence of the Respiratory Sinus Arrhythmia (RSA) while estimating the resting f(H)
46 baroreflex function and reduced respiratory sinus arrhythmia (RSA), possibly representing a direct p
47 -amylase (sAA), heart rate (HR), respiratory sinus arrhythmia (RSA), subjective stress perception and
50 phase with breathing, known as 'respiratory sinus arrhythmia' (RSA), is a physiological phenomenon p
51 increased autonomic functioning (respiratory sinus arrhythmia, RSA) and maternal attachment behavior
53 changes in respiration-corrected respiratory sinus arrhythmia (RSAc)-an established metric of HRV tha
54 of this 'respiratory gating' is respiratory sinus arrhythmia, the rhythmic fluctuations of electroca
55 nd tilt-table testing and lesser respiratory sinus arrhythmia values and Valsalva ratios (all P < 0.0
56 so had lower Valsalva ratios and respiratory sinus arrhythmia values than did control subjects (both
58 e proposed that reinstatement of respiratory sinus arrhythmia would improve cardiac function in rats