Short-term dietary sodium restriction increases serum lipids and insulin in salt-sensitive and salt-resistant normotensive adults.
Study Goal
The researchers aimed to determine the effects of short-term sodium restriction on lipid and glucose metabolism, as well as hemodynamic responses, in normotensive adults.
Results Summary
Sodium restriction lowered blood pressure in salt-sensitive individuals (17%), had no effect in salt-resistant individuals (67%), and raised blood pressure in reverse reactors (16%). It also increased serum total- and LDL-cholesterol, insulin, and uric acid concentrations across all groups, with the largest increases in reverse reactors.
Population
147 non-obese normotensive subjects (60 females, 87 males) aged 19-78 years.
Effective Dosage
Low salt diet (20 mmol sodium/day) and high salt diet (300 mmol sodium/day).
Duration
7 days for each diet.
Interactions
None mentioned.
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
low salt diet of 20 mmol sodium per day | decrease | mean arterial blood pressure (MAP) | salt-sensitive subjects (17% of non-obese normotensive subjects) | mean of 7.5 mmHg | lowered | #1 |
low salt diet of 20 mmol sodium per day | no change | mean arterial blood pressure (MAP) | salt-resistant subjects (67% of non-obese normotensive subjects) | - | had no hemodynamic effect | #2 |
low salt diet of 20 mmol sodium per day | increase | mean arterial blood pressure (MAP) | reverse reactors (16% of non-obese normotensive subjects) | mean of 6 mmHg | raised | #3 |
dietary salt restriction | increase | serum total-cholesterol | all three groups (salt-sensitive, salt-resistant, reverse reactors) | - | increased significantly | #4 |
dietary salt restriction | increase | serum LDL-cholesterol | all three groups (salt-sensitive, salt-resistant, reverse reactors) | - | increased significantly | #5 |
dietary salt restriction | increase | serum insulin concentrations | all three groups (salt-sensitive, salt-resistant, reverse reactors) | - | increased significantly | #6 |
dietary salt restriction | increase | serum uric acid concentrations | all three groups (salt-sensitive, salt-resistant, reverse reactors) | - | increased significantly | #7 |
dietary salt restriction | increase | total cholesterol | reverse reactors | 10% | largest increases in total cholesterol | #8 |
dietary salt restriction | increase | LDL-cholesterol | reverse reactors | 12% | largest increases in LDL-cholesterol | #9 |
- | increase | lipoprotein(a) values | salt-sensitives | - | had significant higher | #10 |
salt-restriction | no change | lipoprotein(a) values | all three groups (salt-sensitive, salt-resistant, reverse reactors) | - | had no significant effect | #11 |
low salt diet | increase | plasma renin activity | all three groups (salt-sensitive, salt-resistant, reverse reactors) | - | rose | #12 |
low salt diet | increase | plasma aldosterone concentrations | all three groups (salt-sensitive, salt-resistant, reverse reactors) | - | rose | #13 |
low salt diet | increase | plasma noradrenaline concentrations | all three groups (salt-sensitive, salt-resistant, reverse reactors) | - | rose | #14 |
low salt diet | increase | plasma renin activity, plasma aldosterone, and noradrenaline concentrations | reverse reactors | - | largest increases being observed | #15 |
short-term sodium restriction | increase | lipid and glucose metabolism | normotensive adults | - | has unfavourable effects | #16 |
short-term sodium restriction | increase | lipid and glucose metabolism | subjects who do not derive hemodynamic benefit (reverse reactors) | - | especially unfavourable effects | #17 |
Evidence suggests that dietary salt reduction similar to diuretic therapy may adversely affect lipid and glucose metabolism. We studied 147 non-obese normotensive subjects (60 females and 87 males) aged 19-78 years who entered a single-blind crossover trial and were randomly assigned to a low salt diet of 20 mmol or a high salt diet of 300 mmol sodium per day, for 7 days each. Sodium restriction lowered mean arterial blood pressure (MAP) by a mean of 7.5 mmHg in 17% (salt-sensitive), had no hemodynamic effect in 67% (salt-resistant) and raised MAP by a mean of 6 mmHg in 16% of the subjects (reverse reactors). With dietary salt restriction serum total- and LDL-cholesterol as well as serum insulin and uric acid concentrations increased significantly in all three groups. The largest increases in total (10%) and LDL- (12%) cholesterol occurred in the reverse reactors. Salt-sensitives had significant higher lipoprotein(a) values than the other two groups. Salt-restriction had no significant effect on this parameter. Plasma renin activity, as well as plasma aldosterone and noradrenaline concentrations rose in all three groups during the low salt diet, the largest increases being observed in the reverse reactors. Short-term sodium restriction in normotensive adults has unfavourable effects on lipid and glucose metabolism, especially in subjects who do not derive hemodynamic benefit. Further studies are necessary to examine the effects of more moderate salt reduction for longer periods on the risk factor profile for cardiovascular disease before a low salt diet can be regarded as a safe public health measure for the general population.