Effect of Dietary Salt Reduction on Blood Pressure in Kidney Transplant Recipients

Our hypothesis is that lower salt intake will reduce BP in patients with a kidney transplant. We propose that this will translate into better CV and renal protection via reductions in proteinuria, endothelial dysfunction and arterial stiffness.

The primary aim of the study is to examine the impact of reduced dietary salt intake on blood pressure (BP) in kidney transplant patients. Secondary aims include examination of the effect of salt reduction on ambulatory blood pressure parameters, markers of proteinuria, endothelial and metabolic dysfunction, arterial stiffness and renal fibrosis.

The study will be a single centre, randomised controlled parallel study. Individuals aged 18 years old and above will be recruited from the kidney transplant population of the South West Thames Renal Unit. Patients who have received a kidney transplant ≥ 6 months previously who have a BP >130 mm Hg systolic and/or >80 mm Hg diastolic, or are receiving treatment for hypertension will be included.

Informed consent will be obtained from all study participants and each patient will be given a patient information sheet. At the beginning of the 2-week run-in period individuals will be assessed for eligibility with office BP readings and a 24hr urine collection. Baseline measurements will be taken whilst participants are on their usual diet. All measurements will be performed at baseline, after a 2-week run in period, and at the end of the 8-week study period.

After baseline measurements are taken at the end of the 2-week run in period, participants will be randomised to either the low salt arm or the standard treatment arm using computer-generated randomisation. Patients will be asked to bring in a food diary from the weekend and two week days so that dietary advice can be tailored to the individual. Patients allocated to the low salt diet group will be advised by a doctor to achieve a dietary salt intake of less than 5g per day (80mmol/day). The control group will be instructed to continue with their usual diet, therefore no advice will be given about salt reduction, but otherwise the groups will follow an identical trial protocol.

In addition patients will be seen at week two for a BP reading and a 24hr urine collection, and at week four for a BP reading, 24hr urine collection and measurement of renal profile (Not fasted). Advice will be reinforced at each visit and through telephone for the duration of the study. Antihypertensive treatment will remain unchanged throughout the study apart from two caveats: If BP rises >160/100 then a further antihypertensive will be added at the attending physicians discretion; If BP drops <90/60 and/or symptomatic hypotension, antihypertensive treatment will be withdrawn at the attending physicians discretion, with further investigation as necessary.

Blood pressure will be measured using a validated oscillometric technique, in the sitting position, after 5 to 10 minutes rest and using the same arm throughout the study. Three readings at 1-2 minute intervals will be taken and the mean of the last 2 readings will be used for analysis. Twenty-four hour ambulatory BP monitoring will be performed using a validated oscillometric system. Two 24-hour urine collections for the measurement of sodium, potassium, urea, and creatinine, will be performed at baseline and at the end of the 8-week study period. Blood and urine samples will be taken after an overnight fast (8 - 14 hr) at baseline and then end of the study for measurement of routine biochemistry, plasma renin activity, aldosterone, urinary protein creatinine ratio and urinary albumin creatinine ratio. Blood and urine samples will be taken at baseline and the end of study assessment to look at markers of endothelial function and novel markers of renal dysfunction and fibrosis. These will include EDA+Fibronectin, transforming growth factor-β (TGF-β) and connective tissue growth factor (CTGF).

Endothelial function and arterial stiffness will be assessed by digital volume pulse analysis (DVP) using a high-fidelity photo-plethysmography (PulseTrace1000, MicroMedical Ltd, Rochester, Kent, U.K). Changes in the reflective index (RI) following salbutamol administration are measured as a test of endothelial vasodilatory function and changes following glyceroltrinitrate (GTN) are measured as a test of endothelium independent vasodilation. Baseline measurements are taken in triplicate at 5 min intervals after subjects lay quietly for 20 min. Sublingual GTN 500mcg (Alpharma, Barnstable, Devon, U.K.) is administered for 3 min and recordings are made at 3, 5, 10, 15 and 20 min. Following a rest of 10 min, albuterol 400mcg (salbutamol, Baker Norton, London, U.K.) is administered via a spacer device and recordings are repeated at 5, 10 and 15 min. This technique is validated for measuring endothelial function with reproducibility for change in reflective index following albuterol (∆RIAlb) of -1.9±4.9% and following GTN (∆RIGTN) of -2.2±5.4%.

To measure arterial stiffness using DVP, the systolic peak and inflection point are obtained by analysing the first derivative of DVP waveforms. The time between first systolic peak and the inflection point in the waveforms (∆TDVP) is determined. The DVP-derived stiffness index (SIDVP) is calculated by the following equation: body height /∆TDVP.

A single trained operator will perform all vascular measurements after an overnight fast in a quiet temperature controlled room.