Volume Overload in Dialysis Patients Impacts Survival
By HospiMedica International staff writers Posted on 19 Jun 2019 |
Volume overload, which is present before the start of peritoneal dialysis (PD), is associated with increased risk of death, according to a new study.
Researchers at San Bortolo Hospital (Vicenza, Italy), Ghent University (Belgium), Fresenius (Bad Homburg, Germany), and other institutions conducted a prospective cohort study in 135 study centers from 28 countries, involving 1,054 patients on PD who were enrolled just before actual treatment was started. Volume status was measured via bioimpedance spectroscopy before start of PD and thereafter in three-month intervals, together with clinical and laboratory parameters. The main outcome was association of volume overload with time to death.
The results revealed that volume overload amounted to 1.9±2.3 liters before start of PD, and decreased to 1.2±1.8 liter during the first year; the improvement in volume overload over time was associated with survival. A relative volume overload higher than 17.3% was independently associated with higher risk of death, and at all time points, men and patients with diabetes were at higher risk of volume overload. In addition, dropout from PD during the three years of observation by transfer to hemodialysis (23%) or transplantation (22%) was more prevalent than death (13%). The study was published on May 23, 2019, in the Clinical Journal of the American Society of Nephrology.
“Volume overload tended to improve from baseline over six months, and stabilized afterward. It is difficult to determine whether this is a true improvement, a regression to the mean, or selection bias by informative dropout of those who are volume overloaded,” concluded lead author Wim Van Biesen, MD, PhD, from Ghent University Hospital, and colleagues. “The results also indicate a variation in PD-related practices across regions, with an effect on volume status and dropout from PD.”
PD uses the peritoneum as membrane through which a dialysate solution of sodium chloride, hydrogen carbonate, and an osmotic agent such as glucose are exchanged with the blood. It is used to remove excess fluid, correct electrolyte problems, and remove toxins in those with kidney failure. The two most common types of PD are continuous ambulatory PD (CAPD) and continuous cycler-assisted PD (CCPD).
Related Links:
San Bortolo Hospital
Ghent University
Fresenius
Researchers at San Bortolo Hospital (Vicenza, Italy), Ghent University (Belgium), Fresenius (Bad Homburg, Germany), and other institutions conducted a prospective cohort study in 135 study centers from 28 countries, involving 1,054 patients on PD who were enrolled just before actual treatment was started. Volume status was measured via bioimpedance spectroscopy before start of PD and thereafter in three-month intervals, together with clinical and laboratory parameters. The main outcome was association of volume overload with time to death.
The results revealed that volume overload amounted to 1.9±2.3 liters before start of PD, and decreased to 1.2±1.8 liter during the first year; the improvement in volume overload over time was associated with survival. A relative volume overload higher than 17.3% was independently associated with higher risk of death, and at all time points, men and patients with diabetes were at higher risk of volume overload. In addition, dropout from PD during the three years of observation by transfer to hemodialysis (23%) or transplantation (22%) was more prevalent than death (13%). The study was published on May 23, 2019, in the Clinical Journal of the American Society of Nephrology.
“Volume overload tended to improve from baseline over six months, and stabilized afterward. It is difficult to determine whether this is a true improvement, a regression to the mean, or selection bias by informative dropout of those who are volume overloaded,” concluded lead author Wim Van Biesen, MD, PhD, from Ghent University Hospital, and colleagues. “The results also indicate a variation in PD-related practices across regions, with an effect on volume status and dropout from PD.”
PD uses the peritoneum as membrane through which a dialysate solution of sodium chloride, hydrogen carbonate, and an osmotic agent such as glucose are exchanged with the blood. It is used to remove excess fluid, correct electrolyte problems, and remove toxins in those with kidney failure. The two most common types of PD are continuous ambulatory PD (CAPD) and continuous cycler-assisted PD (CCPD).
Related Links:
San Bortolo Hospital
Ghent University
Fresenius
Latest Critical Care News
- Stretchable Microneedles to Help In Accurate Tracking of Abnormalities and Identifying Rapid Treatment
- Machine Learning Tool Identifies Rare, Undiagnosed Immune Disorders from Patient EHRs
- On-Skin Wearable Bioelectronic Device Paves Way for Intelligent Implants
- First-Of-Its-Kind Dissolvable Stent to Improve Outcomes for Patients with Severe PAD
- AI Brain-Age Estimation Technology Uses EEG Scans to Screen for Degenerative Diseases
- Wheeze-Counting Wearable Device Monitors Patient's Breathing In Real Time
- Wearable Multiplex Biosensors Could Revolutionize COPD Management
- New Low-Energy Defibrillation Method Controls Cardiac Arrhythmias
- New Machine Learning Models Help Predict Heart Disease Risk in Women
- Deep-Learning Model Predicts Arrhythmia 30 Minutes before Onset
- Breakthrough Technology Combines Detection and Treatment of Nerve-Related Disorders in Single Procedure
- Plasma Irradiation Promotes Faster Bone Healing
- New Device Treats Acute Kidney Injury from Sepsis
- Study Confirms Safety of DCB-Only Strategy for Treating De Novo Left Main Coronary Artery Disease
- Revascularization Improves Quality of Life for Patients with Chronic Limb Threatening Ischemia
- AI-Driven Prediction Models Accurately Predict Critical Care Patient Deterioration