Hemodialysis Complication Clinical Trial
— PANDORAOfficial title:
Development of a Mathematical Model for the Evaluation of the Potassium Kinetic During and After Hemodialysis for the Potassium Profiling in the Dialysate to Prevent Arrhythmias
The primary objective of the study is the development of a mathematical model for predicting potassium kinetics during and after the dialytic session. The secondary objectives of the study are: 1. the definition of a correlation between the kinetics of intra and extra-cellular concentrations of potassium during and after the dialytic session and the onset of arrhythmias; 2. the use of the mathematical model to modify the blood concentration of potassium by acting on the composition of the dialysis bath in order to minimize the risk of onset of arrhythmias during and after dialysis.
Status | Recruiting |
Enrollment | 6 |
Est. completion date | January 15, 2025 |
Est. primary completion date | January 15, 2022 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years and older |
Eligibility | Inclusion Criteria: - end stage renal failure on chronic hemodialysis - thrice weekly hemodialysis; - urine output < 100 ml/day; - low potassium diet (max 2 gr/day); - Age > 18 years; - Arterovenous fistula for hemodialysis with blood flow > 250 ml/min; - Written informed consent to participate. Exclusion Criteria: - Intradialytic hypotension: 30% of dialysis sessions during the last month before enrollment with intradialytic systolic blood pressure reduction > 25 mmHg; - Need of intradialytic potassium administration; - Antiarrythmic drugs prescription; - Recent myocardial infarction; - Fever; - Anemia (Hb < 8 gr%); - Enteritis. |
Country | Name | City | State |
---|---|---|---|
Italy | Nephrology Dialysis and Renal Transplantation Unit, St.Orsola University Hospital | Bologna |
Lead Sponsor | Collaborator |
---|---|
IRCCS Azienda Ospedaliero-Universitaria di Bologna | University of Bologna |
Italy,
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* Note: There are 26 references in all — Click here to view all references
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Kinetics of intra and extra-cellular concentrations of potassium during and after the dialytic session | This outcome is characterized by the measurements of intra and extracellular potassium. During dialysis starting at 8:00 a.m., measurements will be taken every 30 minutes. After 60 minutes of the end of dialysis, hourly measurements of intra-and extracellular potassium will be repeated. | The expected time to complete the measurement phase on all 6 patients enrolled is 4 months. | |
Secondary | Kinetics of urea during and after the dialytic session | This outcome is characterized by the measurements of plasmatic urea. During dialysis starting at 8:00 a.m., measurements will be taken every 30 minutes. After 60 minutes of the end of dialysis, hourly measurements of urea will be repeated. | The expected time to complete the measurement phase on all 6 patients enrolled is 4 months. | |
Secondary | Kinetics of bicarbonates during and after the dialytic session | This outcome is characterized by the measurements of plasmatic bicarbonates. During dialysis starting at 8:00 a.m., measurements will be taken every 30 minutes. After 60 minutes of the end of dialysis, hourly measurements of bicarbonates will be repeated. | The expected time to complete the measurement phase on all 6 patients enrolled is 4 months. | |
Secondary | Kinetics of blood sugar during and after the dialytic session | This outcome is characterized by the measurements of blood sugar. During dialysis starting at 8:00 a.m., measurements will be taken every 30 minutes. After 60 minutes of the end of dialysis, hourly measurements of blood sugar will be repeated. | The expected time to complete the measurement phase on all 6 patients enrolled is 4 months. | |
Secondary | Kinetics of sodium during and after the dialytic session | This outcome is characterized by the measurements of sodium. During dialysis starting at 8:00 a.m., measurements will be taken every 30 minutes. After 60 minutes of the end of dialysis, hourly measurements of sodium will be repeated. | The expected time to complete the measurement phase on all 6 patients enrolled is 4 months. | |
Secondary | Sodium behaviour during dialysis | The Natrium sensor of HFR dialysis machine was used to compare the conductivity values measured by Natrium with the blood levels of electrolytes measured during the dialytic treatment and in particular with sodium | The expected time to complete the measurement phase on all 6 patients enrolled is 4 months. | |
Secondary | Body Impedance Analysis | Body impedance analysis will be taken at the beginning and end of dialysis to estimate the size of intra and extracellular volumes in which the solutes are contained and the variation of these secondary volumes to dehydration obtained through dialytic treatment. Body impedance analysis will be repeated 60 minutes after the end of dialysis and at the end of the observation period (7:00 p.m.) after 7 hours after the end of dialysis. | The expected time to complete the measurement phase on all 6 patients enrolled is 4 months. | |
Secondary | ECG QT interval | ECG with 12-derived electrocardiograph for 5 minutes for a total of 16 ECG paths per patient per dialytic session. The ECG will be performed at the same time as blood samples every 30 minutes for a total of 9 tracks per dialytic session. After 60 minutes of the end of the dialysis session each patient will undergo a new ECG track every 60 minutes for a total of 7 ECGs. | The expected time to complete the measurement phase on all 6 patients enrolled is 4 months. |
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