AOAC SPIFAN Nutrients ERP (December 7, 2022)

Fluor-06 (SLV) 10-2022 FOR ERP USE ONLY DO NOT DISTRIBUTE

6 References

1. Till, C.; Green, R.; Flora, D.; Hornung, R.; Angeles Martinez-Mier, E.; Blazer, M.; Farmus, L.; Ayotte, P.; Lanphear, B. ( 2020 ). Fluoride exposure from infant formula and child IQ in Canadian birth cohort. Environ. Int. 134, 1–8. 2. Tashkov, W.; Benchev, I.; Rizov, N.; Kolarska, A. ( 1990 ). Fluoride determination in fluorinated milk by headspace gas chromatography. Chromatographia , 29, 544–6. 3. Venkateswarlu, P. ( 1994 ). Determination of fluorine in biological materials review: A review. Adv. Dent. Res. 80, 1–8. 4. Connelly, R.; Eckes, J.; Feller, M.; Spencer, V.; Sullivan, D. ( 2013 ). Analysis of fluoride content in infant formula by GC-FID. Poster Presentation, AOAC 127 th Annual Meeting & Exposition (Chicago, U.S.). 5. Wejnerowska, G.; Karczmarek, A.; Gaca, J. ( 2007 ). Determination of fluoride in toothpaste using headspace solid-phase microextraction and gas chromatography flame ionization detection. J. Chromatogr. A. 1150, 173–7. 6. AOAC International. SPIFAN Program. Standard Method Performance Requirement ( SMPR 2014.016 ). 7. Willard, H.H.; Winter, O.B. ( 1933 ). Volumetric method for determination of fluorine. Ind. Eng. Chem. Anal. 5, 7–10. 8. Gauthier, J. ( 2023 ). 19F NMR as an analytical tool for the analysis of fluorine-containing contaminants (University of Toronto). Powerpoint Presentation, AOAC 2022 Hybrid Annual Meeting & Exposition (Scottsdale, U.S.).