TY - JOUR
T1 - Development of a Food Composition Database for Assessing Nitrate and Nitrite Intake from Animal-based Foods
AU - Zhong, Liezhou
AU - Liu, Alex H.
AU - Blekkenhorst, Lauren C.
AU - Bondonno, Nicola P.
AU - Sim, Marc
AU - Woodman, Richard J.
AU - Croft, Kevin D.
AU - Lewis, Joshua R.
AU - Hodgson, Jonathan M.
AU - Bondonno, Catherine P.
PY - 2022/1
Y1 - 2022/1
N2 - Scope: Nitrate and nitrite are approved food additives in some animal-based food products. However, nitrate and nitrite in foods are strictly regulated due to health concerns over methaemoglobinaemia and the potential formation of carcinogenic nitrosamines. In contrast, plants (like leafy vegetables) naturally accumulate nitrate ions; a growing body of research reveals beneficial metabolic effects of nitrate via its endogenous conversion to nitric oxide. To refine the association of dietary nitrate and nitrite intake with health outcomes, reliable measures of nitrate and nitrite intake from dietary food records are required. While a vegetable nitrate content database has been developed, there is a need for a comprehensive up-to-date nitrate and nitrite content database of animal-based foods. Methods and Results: A systematic literature search (1980–September 2020) on the nitrate and nitrite content of animal-based foods is carried out. Nitrate and nitrite concentration data and other relevant information are extracted and compiled into a database. The database contains 1921 entries for nitrate and 2077 for nitrite, extracted from 193 publications. The highest median nitrate content is observed in chorizo (median [IQR]; 101.61 [60.05–105.93] mg kg-1). Canned fish products have the highest median nitrite level (median [IQR]; 20.32 [6.16–30.16] mg kg-1). By subgroup, the median nitrate value in industrial processed meat products (e.g., uncured burger, patties and sausages), whole milk powder and in particular red meat are higher than cured meat products. Processed meat products from high-income regions have lower median nitrate and nitrite content than those of middle-income regions. Conclusion: This database can now be used to investigate the associations between nitrate and nitrite dietary intake and health outcomes in clinical trials and observational studies.
AB - Scope: Nitrate and nitrite are approved food additives in some animal-based food products. However, nitrate and nitrite in foods are strictly regulated due to health concerns over methaemoglobinaemia and the potential formation of carcinogenic nitrosamines. In contrast, plants (like leafy vegetables) naturally accumulate nitrate ions; a growing body of research reveals beneficial metabolic effects of nitrate via its endogenous conversion to nitric oxide. To refine the association of dietary nitrate and nitrite intake with health outcomes, reliable measures of nitrate and nitrite intake from dietary food records are required. While a vegetable nitrate content database has been developed, there is a need for a comprehensive up-to-date nitrate and nitrite content database of animal-based foods. Methods and Results: A systematic literature search (1980–September 2020) on the nitrate and nitrite content of animal-based foods is carried out. Nitrate and nitrite concentration data and other relevant information are extracted and compiled into a database. The database contains 1921 entries for nitrate and 2077 for nitrite, extracted from 193 publications. The highest median nitrate content is observed in chorizo (median [IQR]; 101.61 [60.05–105.93] mg kg-1). Canned fish products have the highest median nitrite level (median [IQR]; 20.32 [6.16–30.16] mg kg-1). By subgroup, the median nitrate value in industrial processed meat products (e.g., uncured burger, patties and sausages), whole milk powder and in particular red meat are higher than cured meat products. Processed meat products from high-income regions have lower median nitrate and nitrite content than those of middle-income regions. Conclusion: This database can now be used to investigate the associations between nitrate and nitrite dietary intake and health outcomes in clinical trials and observational studies.
KW - nitrite
KW - nitrate
KW - animal-based foods
KW - methaemoglobinaemia
KW - Food composition database
UR - http://www.scopus.com/inward/record.url?scp=85120413715&partnerID=8YFLogxK
U2 - 10.1002/mnfr.202100272
DO - 10.1002/mnfr.202100272
M3 - Article
C2 - 34792849
AN - SCOPUS:85120413715
SN - 1613-4125
VL - 66
JO - Molecular Nutrition and Food Research
JF - Molecular Nutrition and Food Research
IS - 1
M1 - 2100272
ER -