Sodium Nitrite vs Saccharin: which is worse?

What is Sodium Nitrite?

Sodium nitrite (NaNO2) is a salt and food additive used as a preservative, color fixative, and curing agent in processed meats. It gives cured meats (bacon, hot dogs, ham) their characteristic pink color and prevents the growth of Clostridium botulinum bacteria that cause botulism.

What is Saccharin?

Saccharin is the oldest artificial sweetener, discovered accidentally at Johns Hopkins in 1879. It is a sulfonamide compound approximately 300-400 times sweeter than sucrose with no caloric value. It has a slightly bitter metallic aftertaste at higher concentrations. Saccharin's sodium salt (sodium saccharin) is the form used in most food applications.

Documented risks

Sodium Nitrite: Sodium nitrite's primary health concern is the formation of nitrosamines. Under cooking heat or in the acidic environment of the stomach, nitrite can react with secondary amines (found in protein-rich foods) to form N-nitrosamines — a class of potent carcinogens. Several N-nitrosamines are classified as Group 1 or Group 2A carcinogens by IARC. The association between processed meat consumption and colorectal cancer is well established. IARC classified processed meat (including nitrite-cured meats like bacon, hot dogs, and ham) as a Group 1 human carcinogen in 2015, citing sufficient evidence from epidemiological studies. A comprehensive meta-analysis found that each 50g/day increase in processed meat consumption was associated with an 18% increase in colorectal cancer risk. Nitrite can also be converted to nitric oxide (NO) in the body, which at high doses can oxidize hemoglobin to methemoglobin — a condition called methemoglobinemia (or 'blue baby syndrome') that impairs oxygen transport. This is particularly dangerous for infants, which is why baby food with added nitrite is banned across the EU. However, many experts argue that the actual dietary cancer risk from nitrite in cured meats is difficult to separate from other components of processed meat (saturated fat, heme iron, cooking methods like smoking and charring) that also generate carcinogenic compounds. The paradox of nitrite regulation: the FDA requires it in some meat products for botulism prevention — making total elimination potentially more dangerous than restricted use. The focus of public health guidance is reducing consumption of processed meats, not eliminating nitrite entirely.

Saccharin: Saccharin's carcinogenicity history is one of the most tumultuous in food regulatory history. In 1977, the FDA proposed banning saccharin after studies found it caused bladder cancer in rats at very high doses. Congress passed the Saccharin Study and Labeling Act, which put a moratorium on the ban and required a cancer warning label on saccharin products ('Use of this product may be hazardous to your health. This product contains saccharin which has been determined to cause cancer in laboratory animals.'). By 2000, saccharin was removed from the US National Toxicology Program's Report on Carcinogens after subsequent research determined that the bladder cancer in male rats was caused by a rat-specific mechanism — high pH, high protein, and calcium phosphate in rat urine — that does not apply to human urine. The cancer warning label requirement was repealed. IARC also removed saccharin from its Group 2B list in 1999. However, Canada maintained its ban on food use saccharin, citing continued precautionary concern. A 2022 study in Cell found saccharin was among the artificial sweeteners most significantly altering gut microbiome composition and glucose tolerance in previously non-sweetener-using participants. Saccharin showed the largest effect on glucose tolerance among the sweeteners studied (saccharin, sucralose, aspartame, stevia). Saccharin passes through the placenta and appears in breast milk, raising questions about infant exposure that have not been fully resolved.