Search results
Results From The WOW.Com Content Network
A salt substitute, also known as low-sodium salt, is a low-sodium alternative to edible salt (table salt) marketed to reduce the risk of high blood pressure and cardiovascular disease associated with a high intake of sodium chloride [1] while maintaining a similar taste.
[1] [2] Hyperkalemia can cause an abnormal heart rhythm which can result in cardiac arrest and death. [1] [3] Common causes of hyperkalemia include kidney failure, hypoaldosteronism, and rhabdomyolysis. [1] A number of medications can also cause high blood potassium including spironolactone, NSAIDs, and angiotensin converting enzyme inhibitors. [1]
It can be challenging for people to lower their salt intake long term unless they find a satisfying substitute, said Dr. George Dangas, a professor of medicine at the Icahn School of Medicine and ...
On a consumer level, salt substitutes, which usually substitute a portion of sodium chloride content with potassium chloride, can be used to increase the potassium to sodium consumption ratio. [40] This change has been shown to blunt the effects of excess salt intake on hypertension and cardiovascular disease.
The goal of a salt substitute is to replace the concerning component of salt (sodium) with another mineral so that it still looks and tastes like salt but can offer a way to reduce risk and cut ...
The risk of heart attacks, stroke and death can be brought down significantly when people use salt substitutes, which replace some percentage of sodium with
Overdoses cause hyperkalemia, which can lead to paresthesia, cardiac conduction blocks, fibrillation, arrhythmias, and sclerosis. [ 13 ] Because of the risk of small-bowel lesions, the US Food and Drug Administration (FDA) requires some potassium salts containing more than 99 mg (about 1.3 mEq) to be labeled with a warning, [ 14 ] while ...
Another option is to experiment with salt-free seasonings, which can add flavor without the sodium. Such salt substitutes can lower risk of heart attack and stroke, a 2022 study found.