Toward Nitrite-Free Curing: Evaluation of a New Approach to Distinguish Real Uncured Meat from Cured Meat Made with Nitrite

After the International Agency for Research on Cancer (IARC) classified ingested nitrites and nitrates as probably carcinogenic to humans under conditions favoring endogenous nitrosation, several meat products labeled as made without nitrite were launched. In order to distinguish uncured products truly made without nitrite from cured products made with any nitrite source (vegetal or mineral), this article presents an approach to detect and quantify nitrite from different origins added to meat. The method consists on the determination of nitrous oxide as a target compound using headspace gas chromatography-mass spectrometry (HS-GC-MS). Nitrous oxide (N2O) is formed after two reduction steps: from nitrite to nitric oxide (NO) and then to N2O. The NO is bound to myoglobin (Mb) or metmyoglobin (Met-Mb), forming a complex, which is subsequently released using sulfuric acid, which also favors the reduction to N2O. The HS-GC-MS conditions were split ratio 1:10; injection temperature at 70 degrees C; incubation temperature at 30 degrees C and time 45 min; and injection volume 1 mL. As a result, a relationship was established between the concentration of nitrite in cooked ham samples and the area of the N2O peak generated, meaning that this method allows the quantification of added nitrite within a concentration range of 10 to 100 mg kg(-1).

Automated summary

The article presents a method to detect and quantify nitrite from different sources added to meat products, using headspace gas chromatography-mass spectrometry to measure the area of the N2O peak. This method allows the quantification of added nitrite within a concentration range of 10 to 100 mg kg(-1), providing technical support for distinguishing between products truly made without nitrite and those containing nitrite.