Luglio Agosto 2024 - Articoli originali

The Effect of Dialysate Temperature on Dialysis Adequacy and Hemodynamic Stability: An Experimental Study with Crossover Design

Pubblicato il 8 agosto 2024Scarica PDF

Gerry George Mathew

DOI: 10.69097/41-04-2024-12

Gerry George Mathew¹, Suganya Muthukarupiah², Muthamizh Muniappan³, Judhajit Maiti⁴, Varadharajan Jayaprakash⁵

1 Associate Professor, Department of Nephrology, SRM Medical College Hospital and Research Centre, Kattankulathur, Chengalpattu, Tamil Nadu, India-603203
2 Senior resident, Department of Nephrology, SRM Medical College Hospital and Research Centre, Kattankulathur, Chengalpattu, Tamil Nadu, India-603203
3 Lecturer, Renal dialysis Technology. Department of Nephrology, SRM Medical College Hospital and Research Centre, Kattankulathur, Chengalpattu, Tamil Nadu, India-603203
4 Senior resident, Department of Nephrology, SRM Medical College Hospital and Research Centre, Kattankulathur, Chengalpattu, Tamil Nadu, India-603203
5 Professor and Head, Department of Nephrology, SRM Medical College Hospital and Research Centre, Kattankulathur, Chengalpattu, Tamil Nadu, India-603203

Corrispondenza a:
Gerry George Mathew
E-mail: gerrygeorge007@gmail.com
Mobile no: +91-8291077361

Abstract

Cool dialysate has variable impact on hemodynamic stability and dialysis adequacy. Hemodynamic stability and dialysis adequacy are crucial indicators for better life expectancy and cardiovascular mortality. This research aims to evaluate the impact of cool dialysate temperature (35.5°C) compared to standard dialysate temperature (37°C) on blood pressures, pulse rate, and dialysis adequacy (Urea reduction ratio and online Kt/V) in a cross over design.
Material and Methods. Consenting ESRD patients on maintenance haemodialysis (HD) with minimum 3 months dialysis vintage and functioning permanent vascular access are included for the study. Each participant had two sessions of HD at 37°C followed by two sessions at 35.5° C on a Fresenius 4008S HD machine. Systolic blood pressure (SBP), diastolic blood pressure (DBP) and Pulse rate are measured pre-HD, every hourly and post dialysis. Pre-HD Blood urea nitrogen (BUN) and post-HD BUN are measured, and Urea reduction rate was calculated for each HD session. Kt/V was calculated by ionic conductance by HD machine for each session.
Results. 25 patients (5 females and 20 males) were enrolled. The mean age was 54 ± 9.58 years. Dialysis vintage was 21.48 ± 6.9 months for study participants 10 patients (40%) were diabetic nephropathy, 9 patients (36%) were presumed chronic glomerulonephritis, 2 patients (8%) were lupus nephritis and 4 patients (16%) were chronic interstitial nephritis. There was statistically no difference between pre-HD BUN (p = 0.330), post-HD BUN (p = 0.776), URR (p = 0.718) and Kt/V (p = 0.534) among the dialysis sessions done at 37°C and 35.5°C.
SBP variability in the low temperature (35.5°C) group at 4^th hour and post dialysis assumed statistical significance with p = 0.05 and p = 0.025 respectively. DBP variability in the low temperature (35.5°C) group at 3^rd hour, 4^th hour and post-dialysis demonstrated statistical significance with p = 0.027, p = 0.36 and p = 0.016 respectively. Pulse rate variability was more in the low temperature (35.5°C) group at 3^rd hour and 4^th hour which showed statistical significance with p = 0.037 and p = 0.05 respectively.
Conclusion. Cool dialysate is non inferior to standard dialysate temperature in terms of dialysis adequacy and is associated with less variability in diastolic blood pressure, systolic blood pressure and more pulse rate variability thereby contributing to better hemodynamic stability.

Keywords: Cool dialysate, Dialysis adequacy, Hemodynamic stability, Pulse rate variability

Ci spiace, ma questo articolo è disponibile soltanto in inglese.

Introduction

Hemodynamic stability and dialysis adequacy in hemodialysis translates to better quality of life and greater life expectancy [1]. One of the most adopted practices to enhance hemodynamic stability and prevent intradialytic hypotension is the use of cool dialysate [2]. Cardiovascular stability is improved due to increased peripheral resistance and tonicity of blood vessels along with secretion of catecholamine in the clinical context of cool dialysate [3]. Cool dialysate has not become popular due to patient perception of chills and shiver during haemodialysis and its theoretical risk of inferior dialysis adequacy due to entrapment of blood in peripheral blood vessels [4].

Hemodynamic stability is a well-established impact of cool dialysate; however, its influence on the clearance of uremic toxins is still debatable. Intercompartmental resistance is still a realistic concern in cool dialysate which may deter clearance and contribute to dialysis inadequacy [5]. Previous studies [6] have analysed the hemodynamic variability associated with a cool dialysate, but only few studies have conjointly analysed hemodynamics and dialysis adequacy in the same clinical setting. Our study aimed at evaluating the impact of cool dialysis (35.5°C) compared to standard dialysate temperature (37 °C) on blood pressures, pulse rate and dialysis adequacy (Urea reduction ratio (URR) and online Kt/V) in a crossover design study.

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