Blood pressure regulation in diabetic patients with and without peripheral neuropathy.

Cardiac and vascular dysfunctions resulting from autonomic neuropathy (AN) are complications of diabetes, often undiagnosed. Our objectives were to: 1) determine sympathetic and parasympathetic components of compromised blood pressure (BP) regulation in patients with peripheral neuropathy and 2) rank noninvasive indexes for their sensitivity in diagnosing AN. We continuously measured electrocardiogram, arterial BP, and respiration during supine rest and 70° head-up tilt in 12 able-bodied subjects, 7 diabetics without, 7 diabetics with possible, and 8 diabetics with definite, sensory, and/or motor neuropathy (D2). During the first 3 min of tilt, systolic BP (SBP) of D2 decreased [-10.9 ± 4.5 (SE) mmHg] but increased in able-bodied (+4.8 ± 5.4 mmHg). Compared with able-bodied, D2 had smaller low-frequency (0.04-0.15 Hz) spectral power of diastolic BP, lower baroreflex effectiveness index (BEI), and more SBP ramps. Except for low-frequency power of SBP, D2 had greater SBP and smaller RR interval harmonic and nonharmonic components at rest across the 0.003- to 0.45-Hz region. In addition, our results support previous findings of smaller HF RR interval power, smaller numbers of baroreflex sequences, and lower baroreflex sensitivity in D2. We conclude that diabetic peripheral neuropathy is accompanied by diminished parasympathetic and sympathetic control of heart rate and peripheral vasomotion and diminished baroreflex regulation. A novel finding of this study lies in the sensitivity of BEI to detect AN, presumably because of its combination of parameters that measure reductions in both sympathetic control of vasomotion and parasympathetic control of heart rate.

[1]  Paola Palazzo,et al.  Impact of Glycemic and Blood Pressure Variability on Surrogate Measures of Cardiovascular Outcomes in Type 2 Diabetic Patients , 2011, Diabetes Care.

[2]  A. Rigby,et al.  The Role of Blood Pressure Variability in the Development of Nephropathy in Type 1 Diabetes , 2010, Diabetes Care.

[3]  R. H. Mokhtar,et al.  Blood Pressure Variability in Patients with Diabetes Mellitus , 2010, Asian cardiovascular & thoracic annals.

[4]  Caroline A Rickards,et al.  Muscle sympathetic nerve activity during intense lower body negative pressure to presyncope in humans , 2009, The Journal of physiology.

[5]  A. Näke,et al.  Autonomic blood pressure control in children and adolescents with type 1 diabetes mellitus , 2009, Pediatric diabetes.

[6]  K. D. Donohue,et al.  Blood pressure regulation in neurally intact human vs. acutely injured paraplegic and tetraplegic patients during passive tilt. , 2007, American journal of physiology. Regulatory, integrative and comparative physiology.

[7]  A. Vinik,et al.  Diabetic Cardiovascular Autonomic Neuropathy , 2007, Circulation.

[8]  S. Shibata,et al.  Vasomotor sympathetic neural control is maintained during sustained upright posture in humans , 2006, The Journal of physiology.

[9]  D. Randall,et al.  Empirical and theoretical analysis of the extremely low frequency arterial blood pressure power spectrum in unanesthetized rat. , 2006, American journal of physiology. Heart and circulatory physiology.

[10]  C. Lim,et al.  Dual-Channel Photoplethysmography to Monitor Local Changes in Vascular Stiffness , 2006, Journal of Clinical Monitoring and Computing.

[11]  H. Huikuri,et al.  Abnormalities in Fractal Heart Rate Dynamics in Chagas Disease , 2006, Annals of noninvasive electrocardiology : the official journal of the International Society for Holter and Noninvasive Electrocardiology, Inc.

[12]  G. Parati,et al.  Diabetic Neuropathy Is a More Important Determinant of Baroreflex Sensitivity Than Carotid Elasticity in Type 2 Diabetes , 2005, Hypertension.

[13]  G. Bergström,et al.  Reduced baroreflex effectiveness index in hypertensive patients with chronic renal failure. , 2005, American journal of hypertension.

[14]  G. Gronseth,et al.  Distal symmetric polyneuropathy: A definition for clinical research , 2005, Neurology.

[15]  E. Bruce,et al.  Dynamic cardiorespiratory interaction during head-up tilt-mediated presyncope. , 2004, American journal of physiology. Heart and circulatory physiology.

[16]  A. Lissoni,et al.  Grading of chemotherapy-induced peripheral neurotoxicity using the Total Neuropathy Scale , 2003, Neurology.

[17]  J. Shoemaker,et al.  Differential Effect of head‐up tilt on Cardiovagal and Sympathetic Baroreflex Sensitivity in Humans , 2003, Experimental physiology.

[18]  K. Dave,et al.  A CRITICAL APPRAISAL , 2002 .

[19]  A. Porta,et al.  Power-law behavior of heart rate variability in Chagas' disease. , 2002, The American journal of cardiology.

[20]  A. Eke,et al.  Fractal characterization of complexity in temporal physiological signals , 2002, Physiological measurement.

[21]  Dan Ziegler,et al.  Time- and frequency-domain estimation of early diabetic cardiovascular autonomic neuropathy , 2001, Clinical Autonomic Research.

[22]  M. Ziegler,et al.  Gender differences in autonomic cardiovascular regulation: spectral, hormonal, and hemodynamic indexes. , 2001, Journal of applied physiology.

[23]  A. Vinik,et al.  Recognizing and treating diabetic autonomic neuropathy. , 2001, Cleveland Clinic journal of medicine.

[24]  Charles F Knapp,et al.  Epinephrine, vasodilation and hemoconcentration in syncopal, healthy men and women , 2001, Autonomic Neuroscience.

[25]  A Pedotti,et al.  Baroreflex effectiveness index: an additional measure of baroreflex control of heart rate in daily life. , 2001, American journal of physiology. Regulatory, integrative and comparative physiology.

[26]  M. Kikuya,et al.  Prognostic Significance of Blood Pressure and Heart Rate Variabilities: The Ohasama Study , 2000, Hypertension.

[27]  G. Parati,et al.  Lacidipine and Blood Pressure Variability in Diabetic Hypertensive Patients , 2000, Hypertension.

[28]  R. Hughson,et al.  Determination of baroreflex gain using auto-regressive moving-average analysis during spontaneous breathing. , 1999, Clinical physiology.

[29]  R. Morin,et al.  Effects of age and gender on autonomic control of blood pressure dynamics. , 1999, Hypertension.

[30]  C Cerutti,et al.  Noninvasive exploration of cardiac autonomic neuropathy. Four reliable methods for diabetes? , 1999, Diabetes care.

[31]  R. Panerai,et al.  Evidence of defective cardiovascular regulation in insulin-dependent diabetic patients without clinical autonomic dysfunction. , 1998, Diabetes research and clinical practice.

[32]  A Schabmann,et al.  Optimal parameters of short-term heart rate spectrogram for routine evaluation of diabetic cardiovascular autonomic neuropathy. , 1998, Journal of the autonomic nervous system.

[33]  P. Castiglioni,et al.  Time and frequency domain estimates of spontaneous baroreflex sensitivity provide early detection of autonomic dysfunction in diabetes mellitus , 1997, Diabetologia.

[34]  D L Eckberg,et al.  Vagal and sympathetic mechanisms in patients with orthostatic vasovagal syncope. , 1997, Circulation.

[35]  Z. Gingl,et al.  Effect of postural changes on arterial baroreflex sensitivity assessed by the spontaneous sequence method and Valsalva manoeuvre in healthy subjects , 1997, Clinical Autonomic Research.

[36]  R. Hughson,et al.  Heart rate variability at rest and exercise: influence of age, gender, and physical training. , 1996, Canadian journal of applied physiology = Revue canadienne de physiologie appliquee.

[37]  M. Di Rienzo,et al.  Blood pressure and heart rate variability in autonomic disorders: a critical review , 1996, Clinical Autonomic Research.

[38]  P. Castiglioni,et al.  Effects of sino-aortic denervation on spectral characteristics of blood pressure and pulse interval variability: a wide-band approach , 1996, Medical and Biological Engineering and Computing.

[39]  R W Barnes,et al.  Age, race, and sex differences in autonomic cardiac function measured by spectral analysis of heart rate variability--the ARIC study. Atherosclerosis Risk in Communities. , 1995, The American journal of cardiology.

[40]  P B Persson,et al.  Complexity and "chaos" in blood pressure after baroreceptor denervation of conscious dogs. , 1995, The American journal of physiology.

[41]  E. Bruce,et al.  Override of spontaneous respiratory pattern generator reduces cardiovascular parasympathetic influence. , 1995, Journal of applied physiology.

[42]  G. Parati,et al.  Spectral analysis of blood pressure and heart rate variability in evaluating cardiovascular regulation. A critical appraisal. , 1995, Hypertension.

[43]  D R Brown,et al.  Sympathetic activity and blood pressure are tightly coupled at 0.4 Hz in conscious rats. , 1994, The American journal of physiology.

[44]  P B Persson,et al.  Two ranges in blood pressure power spectrum with different 1/f characteristics. , 1994, The American journal of physiology.

[45]  C Cerutti,et al.  Baroreflex modulation of blood pressure and heart rate variabilities in rats: assessment by spectral analysis. , 1994, The American journal of physiology.

[46]  R. Hughson,et al.  Heart rate variability and fractal dimension during orthostatic challenges. , 1993, Journal of applied physiology.

[47]  B. Bauduceau,et al.  Neuropathie végétative cardiovasculaire et variabilité tensionnelle au cours du diabéte insulino-dépendant , 1993 .

[48]  W. White Diurnal blood pressure and blood pressure variability in diabetic normotensive and hypertensive subjects , 1992, Journal of hypertension. Supplement : official journal of the International Society of Hypertension.

[49]  A. Pedotti,et al.  Role of sinoaortic afferents in modulating BP and pulse-interval spectral characteristics in unanesthetized cats. , 1991, The American journal of physiology.

[50]  R J Cohen,et al.  Spectral analysis of heart rate in diabetic autonomic neuropathy. A comparison with standard tests of autonomic function. , 1991, Archives of neurology.

[51]  C. Jf,et al.  [Diabetic autonomic neuropathy]. , 1989, Atencion primaria.

[52]  A. Malliani,et al.  Spectral analysis of heart rate variability in the assessment of autonomic diabetic neuropathy. , 1988, Journal of the autonomic nervous system.

[53]  A Pedotti,et al.  A new approach to analysis of the arterial baroreflex. , 1985, Journal of hypertension. Supplement : official journal of the International Society of Hypertension.

[54]  Sundkvist Göran Autonomic Nervous Function in Asymptomatic Diabetic Patients with Signs of Peripheral Neuropathy , 1981, Diabetes Care.

[55]  M. Bourgeois,et al.  Characteristics of Aortic Diastolic Pressure Decay with Application to the Continuous Monitoring of Changes in Peripheral Vascular Resistance , 1974, Circulation research.

[56]  Sayem Ahmed,et al.  Comparison of the Ambulatory Blood Pressure Variability in Diabetic Hypertensive and Non Diabetic Hypertensive patients , 2009 .

[57]  A. Vinik,et al.  Diagnosis and management of diabetic autonomic neuropathy , 2003, Comprehensive therapy.

[58]  A Natale,et al.  False positive head-up tilt: hemodynamic and neurohumoral profile. , 2000, Journal of the American College of Cardiology.

[59]  B. Bauduceau,et al.  [Cardiovascular autonomic neuropathy and blood pressure variability in insulin-dependent diabetes]. , 1993, Archives des maladies du coeur et des vaisseaux.

[60]  Bruce J. West,et al.  Fractals in physiology and medicine. , 1987, The Yale journal of biology and medicine.

[61]  G. Sundkvist Autonomic nervous function in asymptomatic diabetic patients with signs of peripheral neuropathy. , 1981, Diabetes care.