Time and frequency domain estimates of spontaneous baroreflex sensitivity provide early detection of autonomic dysfunction in diabetes mellitus

Frattola, A; Parati, Gianfranco; Gamba, Pierluigi; Paleari, F.; Mauri, Gabriele; Rienzo, Marco Di; Castiglioni, Paolo; Mancia, Giuseppe

doi:10.1007/s001250050851

Cited by 194 publications

(167 citation statements)

References 36 publications

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“…Moreover, we also uncovered the large-scales MCAE between ECG R-R intervals and PPG pulse amplitudes of left index finger decreased in the same manner in type 2 diabetes [31]. Several studies have shown that as compared with those free of diabetes, diabetic patients with cardiac or peripheral autonomic neuropathy related to poor glycemic control and sedentary status have lower baroreflex sensitivity [32,33]. The impaired short-term cardiovascular control in diabetes mellitus may be caused by the functional or structural impairment of nerve fibers of the autonomic nervous system innervating the heart and blood vessels [34].…”

Section: Discussionsupporting

confidence: 54%

Glycemic Control, Hand Activity, and Complexity of Biological Signals in Diabetes Mellitus

Lin

Haryadi

et al. 2017

Complexity

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Both glycemic control and handgrip strength affect microvascular function. Multiscale entropy (MSE) of photoplethysmographic (PPG) pulse amplitudes may differ by diabetes status and hand activity. Of a middle-to-old aged and right-handed cohort without clinical cardiovascular disease, we controlled age, sex, and weight to select the unaffected (no type 2 diabetes, = 36), the wellcontrolled diabetes (HbA1c < 8%, = 22), and the poorly controlled diabetes (HbA1c ≥ 8%, = 22) groups. MSEs were calculated from consecutive 1,500 PPG pulse amplitudes of bilateral index fingertips. The small-, medium-, and large-scale MSEs were defined as the average of scale 1 (MSE 1 ), scales 2-4 (MSE 2-4 ), and scales 5-10 (MSE 5-10 ), respectively. Intra-and intergroups were compared by one-and two-sample -tests, respectively. The dominant hand MSE 5-10 was lower in the poorly controlled diabetes group than the well-controlled diabetes and the unaffected (1.28 versus 1.52 and 1.56, = 0.019 and 0.001, resp.) groups, whereas the nondominant hand MSE 5-10 was lower in the well-and poorly controlled diabetes groups than the unaffected group (1.35 and 1.29 versus 1.58, = 0.008 and 0.005, resp.). The MSE 1 of dominant hand was higher than that of nondominant hand in the well-controlled diabetes (1.35 versus 1.10, = 0.048). In conclusion, diabetes status and hand dominance may affect the MSE of PPG pulse amplitudes.

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Section: Discussionsupporting

confidence: 54%

Glycemic Control, Hand Activity, and Complexity of Biological Signals in Diabetes Mellitus

Lin

Haryadi

et al. 2017

Complexity

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“…Essentially, these previous findings were replicated here by: (1) showing a lower global HRV (assessed by the SD of RR interval); (2) the relative increase in the lowfrequency components; (3) the relative and absolute reduction in the high-frequency components of HRV; and (4) the higher low-frequency:high-frequency ratio, as assessed by spectral analysis. It is of note that reduced BRS was found to be a sensitive marker of autonomic cardiovascular dysregulation in a population of type 1 diabetic patients with a wide range of age and diabetes duration [10] and that such a reduction in BRS has furthermore been repeatedly reported by different studies in type 1 and type 2 diabetic patients [9,11,12,15]. Our findings also support these previous data, but, importantly, do so even in the absence of clinical complications or in the absence of alterations in the autonomic function tests.…”

Section: Discussionmentioning

confidence: 76%

“…A high prevalence of CAN, reduced HRV and blunted spontaneous BRS in patients with type 1 as well as in patients with type 2 diabetes have been reported previously [9][10][11][12][13][14][15]. It is of note that the tests used allow early detection of abnormalities in the autonomic nervous system.…”

Section: Introductionmentioning

confidence: 91%

Early autonomic dysfunction in type 1 diabetes: a reversible disorder?

et al. 2009

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Aims/hypothesis Cardiac autonomic neuropathy is associated with increased morbidity and mortality rates in patients with type 1 diabetes. The prevalence of early autonomic abnormalities is relatively high compared with the frequency of manifest clinical abnormalities. Thus, early autonomic dysfunction could to some extent be functional and might lead to an organic disease in a subgroup of patients only. If this is true, manoeuvres such as slow deep-breathing, which can improve baroreflex sensitivity (BRS) in normal but not in denervated hearts, could also modify autonomic modulation in patients with type 1 diabetes, despite autonomic dysfunction.Methods We compared 116 type 1 diabetic patients with 36 matched healthy control participants and 12 hearttransplanted participants with surgically denervated hearts. Autonomic function tests and spectral analysis of heart rate and blood pressure variability were performed. BRS was estimated by four methods during controlled (15 breaths per minute) and slow deep-breathing (six breaths per minute), and in supine and standing positions. Results Conventional autonomic function tests were normal, but resting spectral variables and BRS were reduced during normal controlled breathing in patients with type 1 diabetes. However, slow deep-breathing improved BRS in patients with type 1 diabetes, but not in patients with surgically denervated hearts. Standing induced similar reductions in BRS in diabetic and control participants. Conclusions/interpretation Although we found signs of increased sympathetic activity in patients with type 1 diabetes, we also observed a near normalisation of BRS with a simple functional test, indicating that early autonomic derangements are to a large extent functional and potentially correctable by appropriate interventions.

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“…In addition, heart-rate variability (HRV) and, more recently, the sensitivity of spontaneous baroreflex control of the heart rate (baroreflex sensitivity, BRS), have been used to assess autonomic dysfunction as well. It has been proposed that these measures might be even more sensitive than the Ewing battery [4,5,6,7].…”

mentioning

confidence: 99%

“…Autonomic function has been reported to decrease in relation to age [8,9,10,11,12,13] and to differ between men and women [9,14,15]. Furthermore, diabetic patients have lower values on the Ewing battery [3,16,17,18,19], of the spectral analysis of HRV [4,16,20,21], and have a low BRS [5,22] in comparison with normal glucose tolerant control subjects. Besides their application in the assessment of cardiovascular autonomic function in diabetic patients, HRV and BRS are used in cardiology for risk stratification after myocardial infarction.…”

mentioning

confidence: 99%

Measures of cardiovascular autonomic nervous function: agreement, reproducibility, and reference values in middle age and elderly subjects

et al. 2003

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Aims/hypothesis. Currently, three categories of cardiovascular autonomic nervous function measures are used: classic Ewing-test measures, measures of heartrate variability (HRV), and measures of baroreflex sensitivity (BRS). Little is known about the agreement between these measures, and reference and reproducibility values for these measures have not been reported within the same group. Methods. As part of the Hoorn Study, 631 subjects aged 50 to 75 participated in a study of autonomic nervous function. Cardiac cycle duration (RR interval) and continuous finger arterial pressure were measured under three conditions: during spontaneous breathing, during six deep breaths over 1 min, and during an active change in position from lying to standing. From these readings, ten measures of autonomic function were assessed (mean heart rate, three Ewing test measures, five HRV measures and one BRS measure). Results. Regression analysis in a healthy subgroup (n=191) showed sex differences for two of the ten measures and seven measures decreased with age. Therefore, appropriate age-specific and sex-specific reference values were calculated. Reproducibility (n=39) of most measures was moderate, with a reliability coefficient of around 50%. Agreement between the measures of autonomic nervous function varied greatly, between 0% and 87%. The HRV-power ratio measure and the blood pressure changes in the lyingto-standing test showed the lowest agreement with all other measures. Conclusion/Interpretation. This study provides agespecific and sex-specific reference values for a wide range of different autonomic function measures in an elderly population. Agreement among the different measures varied widely and reproducibility was only moderate. [Diabetologia (2003) 46:330-338] Keywords Aging, agreement, baroreflex, diabetes mellitus, heart-rate variability, nervous system, autonomic, reference values, reproducibility.

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Time and frequency domain estimates of spontaneous baroreflex sensitivity provide early detection of autonomic dysfunction in diabetes mellitus

Cited by 194 publications

References 36 publications

Glycemic Control, Hand Activity, and Complexity of Biological Signals in Diabetes Mellitus

Glycemic Control, Hand Activity, and Complexity of Biological Signals in Diabetes Mellitus

Early autonomic dysfunction in type 1 diabetes: a reversible disorder?

Measures of cardiovascular autonomic nervous function: agreement, reproducibility, and reference values in middle age and elderly subjects

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