A Comparison of Physical Activity Levels With and Without Feedback Via Fitbit® Flex™ in Hemodialysis...
End Stage Renal DiseaseThis is a pilot study intended to gather data in order to inform future studies about the role of feedback as an incentive for increasing levels of physical activity which could improve health in hemodialysis patients.
Can High Convection Volumes be Achieved in Each Patient During Online Post-dilution Hemodiafiltration?...
End-stage Renal DiseaseRenal Replacement Therapy2 moreTwo recent randomized controlled trials (RCT) on online hemodiafiltration (HDF) did not show a treatment effect on patient survival when compared with low- or high-flux hemodialysis. Interestingly, post-hoc (on treatment) analyses from both trials unequivocally showed reduced mortality in the patient group achieving the highest convection volumes. Moreover, a third trial recently found a significant 30% decrease in mortality when HDF was applied with a mean convection volume of 23.7 L per session, which was somewhat higher than the average volumes reached in the aforementioned trials. Altogether, these findings support the concept of a dose-response effect, in which a minimally delivered convection volume is required in order to show a survival benefit. Hence, the question arises whether high convection volumes are achievable in the majority of patients. The aim of this study is thus to test the following hypothesis: high-volume (>22 liters per treatment) post-dilution on-line hemodiafiltration (HDF) is achievable in the majority (>75%) of patients treated with chronic intermittent hemodialysis. This will be done through the use of a dedicated standardized protocol, in which the three most important determinants of convection volume will be successively optimized: treatment time, blood flow rate and filtration fraction.
Chitosan Chewing Gum Study in Dialysis Patients
End Stage Renal DiseaseThe purpose of the pilot study is to determine the impact of short-term administration of chitosan-containing chewing gum on phosphate levels in patients with elevated serum phosphate levels.
The Effects of Anti-microbial Spray Dressing in Preventing Tenckhoff Catheter Exit Site Infection...
Signs and Symptoms of Exit Site InfectionPhysical Damage of the Tenckhoff Catheter1 moreThe present study aims to compare the differences in exit site infection between patients receiving spray dressing and conventional care. The outcome measures including catheter exit site infection rate, skin allergy, catheter damage and patient satisfaction
PrEvalence of Acute and Chronic Kidney Disease Treated by Renal Replacement Therapy
Renal Replacement TherapyAcute Kidney Injury1 moreA prospective international, multi-centre, prevalence study on the epidemiology of the use of renal replacement therapy for ICU patients who have acute kidney injury and chronic end stage kidney disease.
Testing Tissue Sodium Stores in CAPD Patients-Aims 1 & 2
End Stage Renal DiseaseThe investigators' overarching goal is to improve long-term outcomes for end stage renal disease (ESRD) patients. In this study we focus specifically on patients receiving peritoneal dialysis (PD). Volume regulation in PD patients is related to hypertension, heart failure, nutritional status, and survival. Salt (NaCl) is the body's ion transport target to normally regulate volume via the kidneys; however, in hemodialysis (HD) patients the dialyser or in PD patients the peritoneal membrane, must serve that purpose. Determining volume status in PD patients is not easy and monitoring sodium (Na+) is more difficult still. The investigators have developed a novel, noninvasive approach to this problem involving 23Na+ magnetic resonance imaging (Na-MRI). Na+ is stored bound to proteoglycans in mostly the skin. Our technique measures Na+ in skin and skeletal muscle. In this study, we propose to apply this novel technique to PD patients. Aim 1. To determine Na+ stores in PD patients, to compare Na+ stores to normal controls using Na-MRI technique, and to correlate Na+ stores by Na-MRI with multifrequency bioimpedance measurements and cross-sectional clinical data. Hypothesis: Na+ stores are increased in PD patients compared to normal controls; they are increased in PD patients with volume expansion and in those patients with high soluble vascular endothelial growth factor receptor-3 (sFlt-4) levels. Aim 2. To determine the utility of Na-MRI as an assessment of preserving residual renal function in PD patients. Hypothesis: Extracellular volume expansion as measured by multifrequency bioimpedance was found to have no utility in predicting preservation of residual renal function in PD patients. The investigators hypothesize that Na+ stores as determined by 23Na-MRI will fulfill that function and will be inversely, rather than directly, related.
Assessment of Plasma and NGAL for the Early Prediction of Acute Kidney Injury After Cardiac Surgery...
Acute Kidney Injury (AKI)Chronic Kidney Disease (CKD)6 moreThe study aims to recruit 156 (54 Acute Kidney Injury (AKI);102 non-AKI) patients undergoing Cardio pulmonary bypass (CPB) surgery, including those with Chronic Kidney Disease (CKD) and multiple co-morbidities. Urine and blood samples collected pre-operatively and then 0, 3, 6 and 18 hours post-CPB will be stored at -80oC until batch analysed for NGAL using the Abbott and BioPorto assays. AKI - defined as a ≥50% rise in serum creatinine (SCr) over baseline, or the requirement for renal replacement therapy (RRT). SCr will be measured pre-operatively (baseline), then 12 hourly for the first 48 hrs post-CPB and thereafter 24 hourly for 5 days. Clinical data collected will include patient demographics, co-morbidities, drug history, pre-operative renal function, surgery details (type, length, CPB time etc.), length of Intensive treatment unit and hospital stay and post-operative complications. Data will then be analysed comparing the two NGAL tests to find out which is superior, whether it is better to use blood or urine and to define optimal NGAL cut-offs and sample timing for predicting AKI. Both the Abbott and BioPorto assays will subject to a laboratory method evaluation prior to the analysis of any patient specimens in order to verify that their performance is acceptable and meets the manufacturer's claims. This will involve measuring the standard parameters used to assess laboratory assay performance e.g. imprecision (reproducibility), linearity, recovery and method comparison etc.
Icodextrin Effects on Glucose Transporter Activation and Mediators of Fibrosis
End Stage Renal DiseaseThe time on peritoneal dialysis may be limited for a significant number of patients that use this modality of renal replacement therapy due to the inability of the peritoneal membrane to clear solutes or achieve adequate ultrafiltration, termed peritoneal membrane failure (PMF). This can be devastating for patients who have become accustomed to the quality of life provided by peritoneal dialysis and who otherwise have done well on this therapy. There is clinical evidence suggesting that icodextrin preserves the peritoneal membrane transport characteristics which may be linked to reduced cumulative glucose exposure of the peritoneal mesothelial cells. Theories to explain the role of dextrose in PMF have focused for the most part on the high intracellular concentrations of glucose without consideration to the potential pathogenic role of the glucose transporters which allow glucose entry into the cell. Experimental evidence in non-mesothelial cell lines indicate that some cellular processes that occur under high glucose conditions may not be related to intracellular glucose metabolism but to the type of glucose transporter allowing glucose entry. 3,4 However, little is known about these glucose transporters in peritoneal mesothelial cells and their potential role in the development of PMF. We hypothesize the following The presence of Sodium Glucose Co-transporter (SGLT1) on peritoneal mesothelial cells plays a role in PMF under hyperglycemic conditions. Regulation of pro-fibrotic mediators such as reactive oxidative species,transforming growth factor β, and vascular endothelial growth factor are modulated by SGLT1 activation by glucose rather than glucose metabolism or concentration. Icodextrin does not activate the SGLT1 transporter establishing a mechanism that may explain the beneficial effects of icodextrin on peritoneal membrane transport.
Pharmacokinetics and Optimal Dose of Ertapenem in Hemodialysis Patients
End Stage Renal DiseaseThe purpose of this study is to determine the amount of ertapenem in the blood over time between hemodialysis session.
Impact of Hemodialysis on Exhaled Volatile Organic Compounds in End Stage Renal Disease
End Stage Renal DiseaseEnd stage renal disease (ESRD) is a severe clinical state of irreversible loss of endogenous kidney function, shortening life expectancy, if left untreated. In the state of ESRD, over 5000 uremic toxins are accumulated in the body causing dysfunction of various organ systems. The survival of these patients depends on renal replacement therapies, such as hemodialysis (HD), which artificially purifies the blood from toxins. The investigators assume that some of the uremic toxins are also present in the patient's exhaled breath, and could be detected by a non-invasive and highly sensitive test: a NA-NOSE artificial olfactory system. It is based on analysis of volatile organic compounds (VOCs), a novel, non-invasive field in medical diagnostics. The NA-NOSE is made from an array of nanosensors, and was developed by our collaborator Dr. Hossam Haick (Chemical Engineering, Technion). In the current study, the investigators utilize this technology to identify VOCs in the exhaled breath of dialysis patients, and to characterize certain patterns of expression that could potentially help in future monitoring of HD adequacy. The investigators plan to collect 150 breath samples from patients before and during dialysis, and from healthy subjects. All participants provide a signed informed consent. Subsequently, analysis of samples will be done at Dr. Haick's laboratory, using Gas-Chromatography/Mass-Spectrometry and parameters extracted from each sensor response.