Background: One of the problems that nutritionists have always faced in research projects is the analysis of food intake of the subjects. Various approaches have been proposed in which the use of food frequency is one of the most used in this field. Many tools have been proposed in this area that aim of present research is to update and optimize one of the most common forms mentioned above. Method: In this study, we attempted to update and optimize the 147-item common food frequency questionnaire using USDA database. Moreover, the values of dietary antioxidant profiles, lipid ratios, dietary fat quality, atherogenic and thrombogenic indices, amino acids, flavonoids, and other requirements are included in the above tool to meet nutrition research needs. Results: The re-analysis of the obtained data with USDA Bank showed no difference due to the similarity of the source of information and the accuracy of the above instrument was confirmed. Conclusion: Due to the applicability of this tool, it can be recommended to researchers to use the above tool. We hope to see the Iranian database in the coming years to optimize the above tools based on the Iranian bank.

Diet; micronutrient; nutrition values;ORAC; software tool

Abreo A, Gebretsadik T, Stone CA, Hartert TV. The impact

of modifiable risk factor reduction on childhood asthma

development. Clin Transl Med 2018;7:15.

Bennett BJ, Hall KD, Hu FB, McCartney AL, Roberto C.

Nutrition and the science of disease prevention: A systems

approach to support metabolic health. Ann N Y Acad Sci

;1352:1–12.

Jackson MD, Motswagole BS, Kwape LD, Kobue‑Lekalake RI,

Rakgantswana TB, Mongwaketse T, et al. Validation and

reproducibility of an FFQ for use among adults in Botswana.

Public Health Nutr 2013;16:1995–2004.

Shim JS, Oh K, Kim HC. Dietary assessment methods in

epidemiologic studies. Epidemiol Health 2014;36:e2014009.

Subar AF. Developing dietary assessment tools. J Am Diet Assoc

;104:769–70.

Mertens E, Kuijsten A, Geleijnse JM, Boshuizen HC,

Feskens EJM, Van’t Veer P. FFQ versus repeated 24‑h recalls for

estimating diet‑related environmental impact. Nutr J 2019;18:2.

Sasanfar B, Toorang F, Djazayery A, Nahvijou A, Movahedi A,

Asghari SS, et al. Effect of nutrition intervention on indices of

growth in day care centers of the city of Birjand, Iran. J Nutr

Sci Diet 2019;5. Available from: http://jnsd.tums.ac.ir/index.php

/jnsd/article/view/247.

Willett W. Nutritional Epidemiology. Vol 40. Oxford University

Press; 2012.

Hosseini Esfahani F, Asghari G, Mirmiran P, Azizi F,

Esfahani FH, Asghari G, et al. Reproducibility and relative

validity of food group intake in a food frequency questionnaire

developed for the Tehran lipid and glucose study. J Epidemiol

;20:150–8.

Mirmiran P, Hosseini Esfahani F, Mehrabi Y, Hedayati M,

Azizi F, Esfahani FH, et al. Reliability and relative validity of an

FFQ for nutrients in the Tehran lipid and glucose study. Public

Health Nutr 2010;13:654.

Asghari G, Rezazadeh A, Hosseini‑Esfahani F, Mehrabi Y,

Mirmiran P, Azizi F. Reliability, comparative validity and

stability of dietary patterns derived from an FFQ in the Tehran

Lipid and Glucose Study. Br J Nutr 2012;108:1109–17.

Fehily AM, Pickering JE, Yarnell JWG, Elwood PC. Dietary

indices of atherogenicity and thrombogenicity and ischaemic

heart disease risk: The caerphilly prospective study. Br J Nutr

;71:249–57.

Attia YA, Al‑Harthi MA, Korish MA, Shiboob MM. Fatty acid

and cholesterol profiles, hypocholesterolemic, atherogenic, and

thrombogenic indices of broiler meat in the retail market. Lipids

Health Dis 2017;16:1–11.

Ulbricht TLV, Southgate DAT. Coronary heart disease: Seven

dietary factors. Lancet 1991;338:985–92.

Santos‑Silva J, Bessa RJB, Santos‑Silva F. Effect of genotype,

feeding system and slaughter weight on the quality of light

lambs. II. Fatty acid composition of meat. Livest Prod Sci

;77:187–94.

Barbieiri P, Nunes JC, Torres AG, Nishimura RY,

Zuccolotto DCC, Crivellenti LC, et al. Indices of dietary fat

quality during midpregnancy is associated with gestational

diabetes. Nutrition 2016;32:656–61.

Keys A, Anderson JT, Grande F. Serum cholesterol response to

changes in the diet: IV. Particular saturated fatty acids in the

diet. Metabolism 1965;14:776–87.

Bonanome A, Grundy SM. Effect of dietary stearic acid on

plasma cholesterol and lipoprotein levels. N Engl J Med

;318:1244–8.

Hegsted DM, McGandy RB, Myers ML, Stare FJ. Quantitative

effects of dietary fat on serum cholesterol in man. Am J Clin

Nutr 1965;17:281–95.

Hornstra G, Lussenburg RN. Relationship between the type

of dietary fatty acid and arterial thrombosis tendency in rats.

Atherosclerosis 1975;22:499–516.

McEwen B. The influence of diet and nutrients on platelet

function. Semin Thromb Hemost 2014;40:214–26.

Galli C. Dietary ω3 and ω6 Fatty Acids: Biological Effects and

Nutritional Essentiality [Internet]. Springer US; 2013. (NATO ASI

series: Life sciences). Available from: https://books.google.com

/books?id=vcbSBwAAQBAJ.

Aparecida Ferraz da Silva Torres E, Rodrigues Sampaio G,

Moreira Nery Castellucci C, Simioni de Abreu E, Augusto

Cardoso M. Low levels of cholesterol/saturated fat index (CSI)

in a Japanese–Brazilian diet. Blades M, editor. Nutr Food Sci

;35:324–9.

Rudling M, Laskar A, Straniero S. Gallbladder bile supersaturated

with cholesterol in gallstone patients preferentially develops

from shortage of bile acids. J Lipid Res 2019;60:498–505.

Connor SL, Gustafson JR, Artaud‑Wild SM, Flavell DP,

Classick‑Kohn CJ, Hatcher LF, et al. The cholesterol/saturated‑fat

index: An indication of the hypercholesterolaemic and atherogenic

potential of food. Lancet (London, England) 1986;1:1229–32.

Lopes LD, Böger BR, Cavalli KF, Silveira‑Júnior JF do. S,

Osório DV, De Oliveira DF, et al. Perfil de los ácidos grasos,

índices de calidad de los lípidos y compuestos bioactivos de las

harinas de residuos de la uva. Cienc. Inv. Agr 2014;41:225–34.

Waisundara V, Hoon LY. A comparative study on the antioxidant

activity of commonly used South Asian herbs. J Tradit

Complement Med 2013;3:263–7.

Sueishi Y, Ishikawa M, Yoshioka D, Endoh N, Oowada S,

Shimmei M, et al. Oxygen radical absorbance capacity (ORAC)

of cyclodextrin‑solubilized flavonoids, resveratrol and astaxanthin

as measured with the ORAC‑EPR method. J Clin Biochem Nutr

;50:127–32.

Nishimura K, Osawa T, Watanabe K. Evaluation of oxygen radical absorbance capacity in kampo medicine. Evid Based

Complement Alternat Med 2011;2011:812163. Available from:

http://www.ncbi.nlm.nih.gov/pubmed/19126557.

Parohan M, Anjom‑Shoae J, Nasiri M, Khodadost M, Khatibi SR,

Sadeghi O. Dietary total antioxidant capacity and mortality from

all causes, cardiovascular disease and cancer: A systematic

review and dose–response meta‑analysis of prospective cohort

studies. Eur J Nutr 2019;58:2175–89.

Abshirini M, Siassi F, Koohdani F, Qorbani M, Mozaffari H,

Aslani Z, et al. Dietary total antioxidant capacity is inversely

associated with depression, anxiety and some oxidative stress

biomarkers in postmenopausal women: A cross‑sectional study.

Ann Gen Psychiatry 2019;18:3.

USDA. USDA Food Composition Databases [Internet]. U.S.

Department of Agriculture. 2019 [cited 2019 Nov 11]. Available

from: https://fdc.nal.usda.gov.

Haytowitz D, Bhagwat S. USDA Database for the Oxygen Radical

Absorbance Capacity (ORAC) of Selected Foods, Release 2. US

Dep Agric 2010;10–48. Available from: https://naldc.nal.usda.gov

download/43336/PDF.

ITC. Spices in Iranian Cuisine [Internet]. Iran Traveling

Center. 2015. Available from: https://www.irantravelingcenter

com/spices‑in‑iranian‑cuisine/.

Moussavi Javardi MA. Assessment of the Relationship Between

the Dietary Atherogenesis and Thrombogenesis Indeces with

Changes in Serum Levels of Liver Enzymes, Fasting Blood

Sugar and Lipid Profiles in Overweight and Obese Individuals

as Compared to Normals. [Tehran, Iran]: Science and Research

Branch Islamic Azad University; 2019.

Ghalandari A. Study Of The Relationship Between Oxygen

Radical Absorbance Capacity (ORAC) And Liver Enzymes,

Fasting Blood Glucose And Lipid Profile In People With

Type 1 Diabetes Among 2–to 18‑year‑olds. [Tehran, Iran]:

Science and Research Branch Islamic Azad University;

Shabestan Shahjooei H. Comparison of Serum Vitamin D,

Dietary Groups, Amino Acid Profile and Fatty Acid Intake,

Anthropometric Parameter, and Mental Status in Patients with

Psoriasis and Healthy Individuals_2. [Tehran, Iran]: Science and

Research Branch, Islamic Azad University; 2020.

Alinezhad M. Relationship between Anthropometric

Indices, (ORAC) Oxygen Radical Absorption Capacity and

Healthy Eating Index (HEI) with Acne in Adolescents. [Tehran,

Iran]: Science and Research Branch, Islamic Azad University;

Beitollahi M. The relationship between branch‑chained and

aromatic amino acids, dietary inflammatory indexes, and

anthropometric indexes and female adolescent mental health

living in east of Tehran. [Tehran, Iran]: Science and Research

Branch, Islamic Azad University; 2019.

Moussavi N. Comparison of Food Groups Consumption, Diet

Protein Quality, DTAC, ORAC, Anthropometric Indices and

Psychological Health Status in Vitiligo Patients and Healthy

Persons. [Tehran, Iran]: Science and Research Branch, Islamic

AZAd University; 2020.

Madani Z. Assessment of the Relationship Between the Dietary

Oxygen Radical Absorbance Capacity Index (ORAC) with Level

of the Liver Enzymes, Fasting Blood Sugar and Lipid Profiles in

Overweight and Obese as Compared to Normal Weight. [Tehran,

Iran]: Science and Research Branch, Islamic Azad University; 2019.