The health impacts of dietary sodium and a low-salt diet
ABSTRACT
High salt intake is now endemic worldwide. It contributes to the generation and maintenance of high blood pressure, which is now the biggest risk factor for global disease. There is now compelling evidence to support salt reduction in hypertensives and a substantial body of evidence to support salt reduction in the general population to reduce risk of death from cardiovascular disease. In specific diseases such as heart failure and chronic kidney disease, guidelines support the World Health Organization target for reduced salt intake at 5 g daily. Achieving a diet that is lower in salt has challenges, but is more likely to be achieved through salt reduction strategies particularly focused on processed food and through educational programs. To be effective, these interventions require collaboration between industry, health agencies and governments.
Salt intake is an important contributor to the development of high blood pressure.
Salt reduction lowers blood pressure effectively in hypertension.
Public health strategies to lower salt are key for reduction in cardiovascular disease.
High salt intake reduces the effectiveness of key medications, including angiotensin-converting-enzyme inhibitors.
The best estimate of salt intake is a 24-h urine collection.
Introduction
For several million years, humans ate very little salt – less than 0.25 g/day. Salt was introduced as a method to preserve food and this was transformational for civilised societies.1 Initially the advent of refrigeration led to a reduction in salt intake; however subsequently the intake of salt has increased and is now estimated to be between 9 and 12 g/day in most countries worldwide, significantly more than our evolutionary ancestors.1,2 This global habituation of salt consumption is of great concern as it is linked to high blood pressure and increased risk of cardiovascular disease, as well as gastric cancer, renal stone disease and osteoporosis.1
In specific diseases, the evidence to reduce salt intake is compelling, at least to levels that are suggested by guidelines, if not lower.1,3,4 However adherence to salt restriction is poor, even in clinical trials with motivated patients. This is at least in part due to the high prevalence of salt in food, in particular baked and processed food, making it difficult for patients to achieve the reduction that they need to gain clinical benefit.1 In this review we have focused on the evidence for lowering salt intake for the general population and in groups with cardiovascular and renal disease.
Salt and high blood pressure
High blood pressure is the leading risk factor for global disease and has the greatest impact of all risk factors on cardiovascular disease, with non-optimal blood pressure accounting for two-thirds of stoke and one-half of ischaemic heart disease.5 Evidence from genetic, epidemiological, migrational and interventional studies contribute to the compelling evidence that salt intake elevates population blood pressure.1 The largest epidemiological study of salt and blood pressure, the INTERSALT study, included 10,079 individuals from diverse populations and found a strong positive relationship between sodium intake and blood pressure that persisted even when four populations with very low salt intake were excluded, with an increase of 6 g/day in salt intake estimated to elevate systolic blood pressure by 9 mmHg over 30 years.6 More recent studies – EPIC-Norfolk and INTERMAP – support these findings.7,8
Lowering salt intake reduces blood pressure. An updated systematic review of studies where salt was reduced by 4.4 g/day for at least 4 weeks found that systolic blood pressure was reduced by 4 mmHg and diastolic blood pressure by 2 mmHg.9 This study found that the effects on blood pressure continued below levels currently suggested by international guidelines. This dose-dependent relationship is supported by 2 independently conducted double blinded randomised controlled studies of different levels of salt intake (12, 6 and 3 g10 and 8, 6 and 4 g11) where the lowest salt reduction reduced blood pressure to the lowest levels.
Salt intake and its relationship to cardiovascular disease
High salt intake is likely to contribute to cardiovascular risk primarily through its effects on blood pressure, as well as through blood pressure independent effects on arterial stiffening and albuminuria.1 The actual effect of lowering population salt intake on cardiovascular outcomes has been more controversial. Available evidence from epidemiological studies is largely supportive. Public health strategy in the UK has successfully achieved a 15% reduction in salt intake from 2003 to 2011. This has been achieved through partnership with industry reducing salt content.12 Several recent cohort studies have found a J-shaped association between urinary sodium excretion and a composite of major cardiovascular events and death.13 While this has led to concern about the effect of lowering population salt intake, a review of available cohort studies found inconsistencies in the relationship between sodium intake, with 13 finding a direct relationship, 8 with an inverse relationship and 2 with a J-shaped relationship. All but 1 had inherent methodological limitations which could change the direction of the relationship, including reverse causality and systematic error, and from this the true relationship remains unclear.14 While there are limited interventional studies of salt reduction and cardiovascular disease, a meta-analysis of available studies found that a modest reduction in salt intake lowered cardiovascular events.15 When individuals who participated in the Trial of Hypertension Prevention I and II were followed up subsequent to the trial completion, those randomised to the low salt arm had a 25% reduction of cardiovascular events, despite receiving no further dietary advice after completing the study.16 It remains appropriate to endorse the current guidelines on salt reduction to prevent cardiovascular events, with the National Institute for Health and Care Excellence endorsing salt reduction as the primary public health strategy for the prevention of cardiovascular disease.3
Salt restriction and heart failure
Haemodynamic changes associated with heart failure lead to increased neurohumoral activity, with a vicious circle of sodium and water retention despite a volume overloaded state. While restricting salt intake is established practice in the management of heart failure, the evidence remains limited to observational studies and small randomised controlled trials of salt restriction, often with additional therapeutic interventions.17–20 Given the lack of robust evidence, it is not surprising that, despite being recommended by all current clinical guidelines, there is no consensus on what level of salt restriction would be appropriate. However, restricting salt intake to 5 g/day, levels recommended by the World Health Organization (WHO) for the general population, is a safe, practical and modest intervention, likely to be of benefit and with no evidence of harm. Individuals on high-dose diuretics will require judicious monitoring of fluid balance when implementing a low salt diet, and adjustment of diuretic therapy may be necessary to ensure that they do not become fluid depleted.21
Salt and the kidney
The kidney is the primary regulator of sodium balance and plays a central role in long-term blood pressure regulation. Chronic kidney disease (CKD) is common, affecting up to 13% of adults.22 The vast majority of patients with CKD do not progress to end-stage kidney disease, and the major risk for individuals with CKD is cardiovascular disease, as it is a potent and independent risk factor for cardiovascular death.23 Progressive CKD leads to increasing prevalence of hypertension, which often requires multiple medical therapies to gain adequate control. Individuals are more susceptible to the effects of high salt intake due to reduced renal sodium excretion. Managing high blood pressure is a cornerstone of CKD management, with the aim of reducing both risk of CKD progression and cardiovascular disease.4,24 Evidence suggests that lowering salt intake will be of benefit in CKD, reducing proteinuria and urinary albumin excretion, as well as enhancing the antiproteinuric and antihypertensive effects of blockers of the renin–angiotensin system.25,26 A recent review of interventional studies in CKD concluded that there was evidence that salt reduction lowered blood pressure in patients with CKD, but acknowledged that there was an overall lack of studies in this patient group.27
Challenges to salt reduction
Dietary behaviour for salt avoidance is influenced by a number of factors, including availability, cost and accessibility of lower salt options, perceived reduction in palatability of low-salt food, as well as educational limitations such as lack of perceived benefit or ability to identify lower salt foods.27 With only 15% of salt consumed added at the table and 80% added by the food industry, it requires motivation to reduce salt effectively. Pressure from an action group formed of specialists (Consensus Action on Salt and Health) has been effective at working with the government and the food industry to agree voluntary reduction in the salt content by levels of 10–15%, levels which are not detectable by consumers.1 It is important to reassure individuals that as salt intake reduces, taste buds become more sensitive to salt within a few months. Once taste buds have adjusted, individuals find they prefer food with lower salt content.28 Monitoring adherence to a low-salt diet also has its challenges with measurement of 24-hour urinary sodium excretion; the most accurate way to determine average daily salt intake (Box 1). A careful dietary history may be helpful in identifying highly salty foods. Useful resources for professionals and patients can be found in Box 2.
Conclusions
High salt intake is endemic worldwide and contributes to the generation and maintenance of high blood pressure, the biggest risk factor for global disease. There is now compelling evidence to support salt reduction to lower blood pressure and a substantial body of evidence to support salt reduction in the general population to reduce risk of death from cardiovascular disease. In specific diseases such as heart failure, diabetes and CKD, guidelines support the WHO target for reduced salt intake at 5 g/day, although the evidence is perhaps only now catching up with the guidance. Further evidence from population studies would be helpful to reinforce the current guidance, but intervention studies at that level are not likely to be supported by either industry or government. Collaborations with the food industry, health agencies and government will be necessary to support salt reduction strategies.
- © Royal College of Physicians 2015. All rights reserved.
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