Restoration of baroreflex function in patients with end-stage renal disease after renal transplantation
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The data show that renal transplantation improves blood pressure and HRV and restores baroreflex function to near normal range on the long-term follow-up and these effects may contribute to the improvement of blood pressure control and survival after successful transplantation.Abstract:
Background. Renal transplantation improves the uraemic autonomic dysfunction and heart rate variability (HRV). The effects of successful transplantation on blood pressure variability (BPV) and baroreflex function are not well defined. Methods. BPV, HRV and baroreceptor indices were determined in (1) 52 non-diabetic chronic haemodialysis patients, (2) 44 transplanted patients, 24 in the first year after renal transplantation (≤I year) and 20 at least 1 year (>1 year) after renal transplantation, and (3) 41 control individuals with normal renal function, age-matched to (1) and (2). Power spectrum analysis of interbeat intervals (IBI) and systolic blood pressure (SBP) was performed in the low-frequency (LF 0.04-0.15 Hz) and the high-frequency (HF 0.15-0.40 Hz) bands. Spontaneous baroreceptor sensitivity (BRS) was determined by the sequence (slope) and spectral (a coefficient) techniques. Results. In haemodialysis patients, BPV was increased, while HRV, BRS slope and LF a and HF a coefficients were markedly decreased as compared to control individuals. Renal transplantation was associated with normalization of BPV at short term (≤1 year) and long term and with improvement of HRV at a long-term (> 1 year) follow-up. In patients with long-standing functioning grafts (>1 year), baroreceptor indices were significantly increased and returned to values similar to those of the control subjects. Conclusions. Our data show that renal transplantation improves blood pressure and HRV and restores baroreflex function to near normal range on the long-term follow-up. These effects may contribute to the improvement of blood pressure control and survival after successful transplantation.read more
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Effects of Orthostatism and Hemodialysis on Mean Heart Period and Fractal Heart Rate Properties of Chronic Renal Failure Patients.
Juan Carlos Echeverría,Oscar Infante,Héctor Pérez-Grovas,Hortensia González,Marco V. José,Claudia Lerma +5 more
TL;DR: The evaluation of the short-term fractal index (α1) of heart rate variability (HRV) in chronic renal failure (CRF) patients suggests that CRF patients with stable blood pressure preserve a regulatory adaptability despite a shifted setting point of the heart period in comparison with healthy subjects.
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Beyond linear methods of data analysis: time series analysis and its applications in renal research.
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TL;DR: Time series models and analysis methods have been utilized in the characterization of mechanisms of renal autoregulation and to identify the interaction between different rhythms of nephron pressure flow regulation, and in the study of trends in health care delivery.
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Heart rate response to blood pressure variations: sympathetic activation versus baroreflex response in patients with end-stage renal disease.
TL;DR: Renal status affects the contribution of baroreflex and nonbaroreflex mechanisms and the strength of SBP-IBI relationship, which may be relevant for understanding of the pathogenesis and selection of appropriate treatment of post-transplant hypertension.
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Reduced Baroreflex Sensitivity, Decreased Heart Rate Variability with Increased Arterial Stiffness in Predialysis.
Charanjit Lal,Manpreet Kaur,Ashok Kumar Jaryal,Kishore Kumar Deepak,Dipankar Bhowmik,Samagra Agarwal +5 more
TL;DR: Predialytic nondiabetic CKD Stage 4 and 5 patients have poor hemodynamic profile (higher PWV, lower HRV, and reduced BRS) than healthy controls and reduced HRV and altered calcium-phosphate homeostasis emerged to be significant independent predictors of reduced B RS.
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Delayed effect of blood pressure fluctuations on heart rate in patients with end-stage kidney disease.
Dan Sapoznikov,Dvora Rubinger +1 more
TL;DR: Findings show that the time delay of the heart rate response to SBP variations is increased in renal insufficiency, and the prolonged delay may contribute to the circulatory instability in uremic patients.
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