Patients were recruited during their visit at a general practice after screening by a general practitioner who reviewed inclusion and exclusion criteria using a standardized screening checklist (Table 1). Both male and female patients aged 50 years or older with frequent elevated BP with or without antihypertensive medication (unstable BP) and patients with uncontrolled, uncomplicated hypertension despite medication at pharmacologically effective doses (β-blocker, calcium channel blockers, diuretics, angiotensin receptor blockers and angiotensin-converting inhibitors) were eligible for inclusion. Patients should have an average SBP on two of the three previous visits of 140 mmHg (130 mmHg in diabetics) or more and an average DBP of 80-100 mmHg. All subjects had been on a stable antihypertensive regimen, including diuretics, for at least four weeks before enrollment and no medications were discontinued before evaluation. Exclusion criteria were heart failure, renal insufficiency, secondary hypertension or isolated diastolic hypertension, lactation/pregnancy, active malignancy, an active low sodium diet or changing the use of antihypertensive drugs or other medications that would affect BP (e.g. NSAID, oral contraceptive hormones, cortisone) four weeks prior to inclusion.

During the first visit, BP was measured (BP₁), oral and written study information was provided and patients completed a general questionnaire. In addition, height and weight were measured at inclusion and patients were discouraged to lose weight or change exercise habits during the study. BP was measured with a hand aneroid sphygmomanometer (Durashock DS55) with an appropriate size cuff after 5 minutes of rest with the standardized technique according the AHA guidelines [5]. Two readings were made at each visit and the average was considered for analysis. Body weight and height were measured using a flat scale and a wall stadiometer respectively. Body mass index was calculated as weight (kg) / height (m)². Within seven days after the first visit, a run-in-period of one week was used to collect baseline data. Participants were instructed to follow their normal diet and completed a 3-day food record and supplied a 24-hour urine collection. In the following weeks, five additional visits to the general practice were scheduled (Fig. 1). During these visits, BP was measured (BP₂-BP₆). Each study visit lasted 15 to 30 minutes. The study visits were free of charge and patients were not paid for participation in the study. Based on the results of the food records and urinary sodium concentration collected during the run-in-period, patients were made aware of their dietary sources of sodium and received personalized advice to decrease sodium consumption during the second visit. This advice consisted of printed education materials such as written information about the relation between sodium and hypertension, nutritional charts and advice to reduce their sodium intake. Each patient intended to change his/her diet for at least 28 days taking into consideration the provided dietary advice. During the third and fourth visit, personal dietary advice was provided based on completed 3-day food records. After 28 days of dietary intervention, patients provided a second 24-hour urine collection and filled in an evaluation questionnaire to assess their viewpoint about the different procedures and methods used during the trial. One month later, during a sixth and final visit, BP was measured and after a closing session patients left the study. The field work took place between April 2010 and March 2011 in a general practice in Bruges, Belgium. The study protocol was approved as clinical trial by the ethical committee of the Ghent University Hospital (Belgian registration number: B67020108595, study number EC/2010/233) and all patients gave written informed consent.

Patients were asked about their life-style (e.g. smoking status, physical activity), nutritional habits (e.g. supplement use, with special attention to effervescent tablets) and personal salt consumption (e.g. frequency of consumption of table salt, salt use during cooking). This questionnaire could be completed at home. Patients who returned incomplete questionnaires were contacted by phone to obtain any missing information.

A self-reported 3-day structured record was used to assess dietary sodium intake information. Patients were instructed on how to complete the food record, also a written example of a completed record day was included for future reference. Nutrition calculations were performed using the BECEL data entry software (version 5.0). The following food composition tables were used to perform nutrient calculations: the Belgian food composition tables NUBEL (NUBEL, 2004) and the Dutch food composition database NEVO (NEVO, 2001).

Patients were provided with two 2L containers and a 1L specimen to collect all produced urine during 24 hours. The collection started after voiding the first morning urine at awakening and continued for 24 hours including one last voiding of the bladder the next day. Sodium, chloride and potassium in urine were analyzed by ion-selective electrodes in the Modular ISE 900-module (Hitachi High-Technologies Corporation, Tokyo, Japan). Completeness of the 24-hour urine collections was assessed through the ratio creatinine (mg/day)/body mass (kg). Cut off values for a complete collection were < 25.2 and > 10.8 [10]. Creatinine concentration was analyzed by the Jaffé method in the Modular P-800 module (Hitachi High-Technologies Corporation, Tokyo, Japan). All samples were analyzed in by the same accredited laboratory.

Using a set of multiple choice questions, the work-load and acceptance of the questionnaires, food records, urine collections, dietary advice and visits were scored using relative scores ranging from 'to a low degree', 'to some degree', 'to a fairly high degree' and 'to a high degree'. The awareness of the patients' own salt consumption and motivation to continue were also considered. The evaluation questionnaire was based upon questions asked in the evaluation questionnaire of the EFCOVAL study [11]. The answers from this questionnaire, allowed us to make an inventory of the problems and barriers coinciding our sodium intervention. This information can be used to successfully implement this intervention in general practice.

Statistical tests were performed using SPSS 17.1 (Chicago, IL, USA). Baseline BP was calculated as the average of the measurement taken during the screening and run-in period (mean of BP₁ and BP₂). Difference in BP, sodium intake and urinary sodium excretion pre and post intervention was computed for every patient. Results are reported as means (± SD) and medians. A Paired-samples Wilcoxon Signed Rank Tests was used to compare sodium intake and urinary sodium excretions. Finally, a Friedman test was used to assess differences in SBP and DBP and post-hoc tests using Wilcoxon Signed Rank Test with Bonferroni correction was used to investigate pairwise differences. Unless stated different, a P-value of < 0.05 was used as a threshold for significance.

Twenty-five patients were enrolled, 16 females and 9 males. Two patients were withdrawn because they needed change in antihypertensive medication during the study period. The mean age was 64 years (ranging from 52 to 77 years). All baseline characteristics are presented in Table 2. Patients used on average one antihypertensive drug (ranging from 0 to 3).

Mean sodium intake during normal diet was 161 mmol/day (9.3 g of salt) compared to 108.1 mmol/day (6.2 g of salt) during the reduced sodium diet (Z = -3.194, P < 0.001) (Table 3). Mean urinary sodium excretion during the run-in period was 146.4 mmol/day (8.4 g of salt) compared to 119 mmol/day (6.8 g of salt) after the intervention period (Z = -2.008, P < 0.05).

The mean BP (mmHg) at baseline was 150.7 (± 9.5)/84.4 (± 5.6) (median 148.3/84.8). After four weeks of intervention, systolic and diastolic BP were reduced to 135.5 (± 13.0) mmHg (median 135 mmHg) and 82.5 (± 12.8) mmHg (median 80 mmHg) respectively (χ²(4) = 34.505, P < 0.001 for SBP and χ²(4) = 27.5, P < 0.01 for DBP). Post hoc analysis with Wilcoxon signed-rank tests was conducted with a Bonferroni correction applied, resulting in a significance level set at P < 0.0125. For SBP, there was a significant reduction at all visits compared to the baseline values (P < 0.001). For DBP, there were no significant differences between baseline BP and the third (BP₃) and sixth (BP₆) measurements (Z = -2.332, P = 0.020 and Z = -2.876, P = 0.025 respectively).

After one month of no advice at the practice center, 48% of the cases had a SBP < 140 mmHg compared to none before the start of the intervention (mean SBP 140.7 (± 13.6) mmHg).

Before personalized advice, five patients used daily effervescent tablets (paracetamol (527 mg of sodium per tablet) and calcium supplements respectively) and three patients used food supplements or over the counter products that could affect BP (St. John's Wort, soda bicarbonate for pyrosis, multivitamin complexes) [5]. During personalized advice, a sodium poor alternative was introduced for the calcium supplements (only 10 mg of sodium per tablet) and paracetamol was substituted into tablets. St. John's Wort and the vitamins were discontinued and the use of soda bicarbonate was minimized. Seven patients were using table salt, but all succeeded discontinuing the use.

After being informed of the results of the urine collection and food records, 15 patients said to be aware of their sodium consumption (5 to fairly high degree and 9 to some degree). All patients wanted to continue the reduced sodium diet in greater or lesser extent. Cited reasons to continue their reduced sodium diet included: taking less medication (n = 20) and a more healthy life-style (n = 10). Moreover, 19/23 would like to have a yearly 24-hour urine collection to check their sodium intake and 22/23 would like to redo the trial in the future.

Seven persons felt constrained to some degree because of the diet and 13 persons experienced the diet as a task (3 to fairly high degree and 10 to some degree). The largest barriers were eating less cold cuts (especially smoked ham, bacon, salami), cheese, dressings, smoked fish, using less stock cubes and adding less salt to potatoes. Six patients mentioned that they experienced problems with the questionnaires and 3 with the food records. The 24-hour urine collection gave only in 3 cases a minor discomfort. All patients declared that their 24-hour urine collections were complete, which was confirmed with the ratio of urinary creatinine (mg/d) to body mass (kg) (data not shown). Nobody had problems with the frequency of visits.