Keywords:
Autonomic Nervous System Diseases; Heart Rate; Diabetes Mellitus; Nonlinear Dynamics; Primary Dysautonomias; Diabetic Neuropathies/prevention
Cardiac autonomic nervous system dysfunction has been implicated in several different pathological scenarios with a wide range of clinical relevance and risk. Early detection of autonomic changes, either provoked for therapeutic purposes11 Rivarola EW, Hachul D, Wu T, Pisani C, Hardy C, Raimundi F, et al. Targets and end points in cardiac autonomic denervation procedures. Circ Arrhythm Electrophysiol. 2017; 10(2):e004638. or as a complication of a primary disorder, such as diabetes mellitus (DM) is of essence for the best management of patients.
Classic (linear) analysis of heart rate variability (HRV) has been routinely used to assess autonomic behavior in diabetic patients in order to promptly detect neuropathy,22 Jaiswal M, Urbina EM, Wadwa RP, Talton JW, D'Agostino RB Jr, Hamman RF, et al. Reduced heart rate variability among youth with type 1 diabetes: the SEARCH CVD study. Diabetes Care. 2013;36(1):157-62. one of the most common and overlooked complications and a significant cardiovascular risk factor.
As the linear analysis provides important data, non-linear indexes of HRV have been proposed as well, emerging as potential ancillary tools to investigate dysautonomia in type 1 and 2 DM. In the paper “Nonlinear Dynamics in young people with diabetes”,33 Oliveira EA, Silva AKF, Christofaro DGD, Vanzella LM, Gomes RL, Vanderlei FM, et al. Influência do Diabetes Tipo 1 na análise simbólica e complexidade da variablidade da frequência cardíaca em jovens adultos. Arq Bras Cardiol. 2018; 111(1):94-101. the authors compared linear and nonlinear indexes and studied their correlation. While symbolic analysis presented partial correlation with linear methods, Shannon entropy index was similar in DM individuals and controls, and these findings raise two important issues:
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What could be the clinical value of determining the complexity and randomness of HRV by nonlinear methods?
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Are they sensitive and efficient?
Several authors agreed that linear indexes (time and frequency domains) are simple and reproducible methods to evaluate the cardiac autonomic system and are consistently reduced in diabetic patients.22 Jaiswal M, Urbina EM, Wadwa RP, Talton JW, D'Agostino RB Jr, Hamman RF, et al. Reduced heart rate variability among youth with type 1 diabetes: the SEARCH CVD study. Diabetes Care. 2013;36(1):157-62.
3 Oliveira EA, Silva AKF, Christofaro DGD, Vanzella LM, Gomes RL, Vanderlei FM, et al. Influência do Diabetes Tipo 1 na análise simbólica e complexidade da variablidade da frequência cardíaca em jovens adultos. Arq Bras Cardiol. 2018; 111(1):94-101.
4 Javorka M, Trunkvalterova Z, Tonhajzerova I, Javorkova J, Javorka K, Baumert M. Short-term heart rate complexity is reduced in patients with type 1 diabetes mellitus. Clin Neurophysiol. 2008;119(5):1071-81.
5 Moura-Tonello SC, Takahashi AC, Francisco CO, Lopes SL. Del Vale AM, Borghi-Silva A, et al. Influence of type 2 diabetes on symbolic analysis and complexity of heart rate variability in men. Diabetol Metab Syndr. 2014;6(1):13.
6 Souza NM, Giacon TR, Pacagnelli FL, Barbosa MP, Valenti VE, Vanderlei LC. Dynamics of heart rate variability analysed through nonlinear and linear dynamics is already impaired in young tipe 1 diabetic subjects. Cardiol Young. 2016;26:1383-90.-77 Skinner JE, Weiss DN, Anchin JM, Turianikova Z, Tonhajzerova I, Javorkova J, et al. Nonlinear PD2i heart rate complexity algorithm detecs autonomic neuropathy in patients with type 1 diabetes mellitus. Clin Neurophysiol. 2011;122(7):1457-62. The observed lack of correlation of nonlinear methods with standard measures may imply low sensitivity, and it stands in disagreement with Javorka et al.,44 Javorka M, Trunkvalterova Z, Tonhajzerova I, Javorkova J, Javorka K, Baumert M. Short-term heart rate complexity is reduced in patients with type 1 diabetes mellitus. Clin Neurophysiol. 2008;119(5):1071-81. which claim that “The complexity of HRV appears to be even more affected (in DM patients) than the magnitude of HRV that is commonly assessed by cardiac autonomic tests.”
On the other hand, a perfect correlation between nonlinear techniques and standard HRV measures would provide only limited additional diagnostic information. In fact, previous authors verified that linear HRV indexes performed even better than most complexity measures in discriminating DM patients from controls.44 Javorka M, Trunkvalterova Z, Tonhajzerova I, Javorkova J, Javorka K, Baumert M. Short-term heart rate complexity is reduced in patients with type 1 diabetes mellitus. Clin Neurophysiol. 2008;119(5):1071-81.
So, where do we stand on the noninvasive diagnosis of dysautonomia?
To the best of our knowledge, time and frequency domain indexes remain the most accepted and used methods to assess HRV. Nonlinear measures are potential tools, but to reach optimal HRV assessment, the methods must be standardized: it is possible to find studies with 24-hour,88 Soydan N, Bretzel RG, Fischer B, Wagenlehner F, Pilatz A, Linn T. Reduced capacity of heart rate regulation in response to mild hypoglycemia induced by glibenclamide and physical exercise in type 2 diabetes. Metabolism. 2013;62(5):717-24. medium-term (~1h),44 Javorka M, Trunkvalterova Z, Tonhajzerova I, Javorkova J, Javorka K, Baumert M. Short-term heart rate complexity is reduced in patients with type 1 diabetes mellitus. Clin Neurophysiol. 2008;119(5):1071-81.,77 Skinner JE, Weiss DN, Anchin JM, Turianikova Z, Tonhajzerova I, Javorkova J, et al. Nonlinear PD2i heart rate complexity algorithm detecs autonomic neuropathy in patients with type 1 diabetes mellitus. Clin Neurophysiol. 2011;122(7):1457-62. ultra short-term (<5 min)99 Guzzeti S, Borroni E, Garbelli PE, Ceriani E, Della Bella P, Montaro N, et al. Symbolic dynamics of heart rate variability: a probe to investigate cardiac autonomic modulation. Circulation. 2005;112(4):465-70. and short-term (from 5-10 min)22 Jaiswal M, Urbina EM, Wadwa RP, Talton JW, D'Agostino RB Jr, Hamman RF, et al. Reduced heart rate variability among youth with type 1 diabetes: the SEARCH CVD study. Diabetes Care. 2013;36(1):157-62.,55 Moura-Tonello SC, Takahashi AC, Francisco CO, Lopes SL. Del Vale AM, Borghi-Silva A, et al. Influence of type 2 diabetes on symbolic analysis and complexity of heart rate variability in men. Diabetol Metab Syndr. 2014;6(1):13.,66 Souza NM, Giacon TR, Pacagnelli FL, Barbosa MP, Valenti VE, Vanderlei LC. Dynamics of heart rate variability analysed through nonlinear and linear dynamics is already impaired in young tipe 1 diabetic subjects. Cardiol Young. 2016;26:1383-90.,1010 Roy B, Ghatak S. Nonlinear methods to assess changes on heart rate variability in type 2 diabetic patients. Arq Bras Cardiol. 2013; 101(4):317-27. data recording indexes, all of them dealing with noninterchangeable information.
Nonlinear methods’ contribution to evaluate diabetic autonomic system dysfunction is yet to be demonstrated by large-scale comparison studies. Once complexity evaluation proves its value, however, one last question will remain: to what extent would it help patients prevent diabetic neuropathy progression?
References
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1Rivarola EW, Hachul D, Wu T, Pisani C, Hardy C, Raimundi F, et al. Targets and end points in cardiac autonomic denervation procedures. Circ Arrhythm Electrophysiol. 2017; 10(2):e004638.
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2Jaiswal M, Urbina EM, Wadwa RP, Talton JW, D'Agostino RB Jr, Hamman RF, et al. Reduced heart rate variability among youth with type 1 diabetes: the SEARCH CVD study. Diabetes Care. 2013;36(1):157-62.
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3Oliveira EA, Silva AKF, Christofaro DGD, Vanzella LM, Gomes RL, Vanderlei FM, et al. Influência do Diabetes Tipo 1 na análise simbólica e complexidade da variablidade da frequência cardíaca em jovens adultos. Arq Bras Cardiol. 2018; 111(1):94-101.
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4Javorka M, Trunkvalterova Z, Tonhajzerova I, Javorkova J, Javorka K, Baumert M. Short-term heart rate complexity is reduced in patients with type 1 diabetes mellitus. Clin Neurophysiol. 2008;119(5):1071-81.
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5Moura-Tonello SC, Takahashi AC, Francisco CO, Lopes SL. Del Vale AM, Borghi-Silva A, et al. Influence of type 2 diabetes on symbolic analysis and complexity of heart rate variability in men. Diabetol Metab Syndr. 2014;6(1):13.
-
6Souza NM, Giacon TR, Pacagnelli FL, Barbosa MP, Valenti VE, Vanderlei LC. Dynamics of heart rate variability analysed through nonlinear and linear dynamics is already impaired in young tipe 1 diabetic subjects. Cardiol Young. 2016;26:1383-90.
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7Skinner JE, Weiss DN, Anchin JM, Turianikova Z, Tonhajzerova I, Javorkova J, et al. Nonlinear PD2i heart rate complexity algorithm detecs autonomic neuropathy in patients with type 1 diabetes mellitus. Clin Neurophysiol. 2011;122(7):1457-62.
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8Soydan N, Bretzel RG, Fischer B, Wagenlehner F, Pilatz A, Linn T. Reduced capacity of heart rate regulation in response to mild hypoglycemia induced by glibenclamide and physical exercise in type 2 diabetes. Metabolism. 2013;62(5):717-24.
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9Guzzeti S, Borroni E, Garbelli PE, Ceriani E, Della Bella P, Montaro N, et al. Symbolic dynamics of heart rate variability: a probe to investigate cardiac autonomic modulation. Circulation. 2005;112(4):465-70.
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10Roy B, Ghatak S. Nonlinear methods to assess changes on heart rate variability in type 2 diabetic patients. Arq Bras Cardiol. 2013; 101(4):317-27.
Publication Dates
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Publication in this collection
July 2018