Browse

Journals By Subject

Life Sciences, Agriculture & Food
Chemistry
Medicine & Health
Materials Science
Mathematics & Physics
Electrical & Computer Science
Earth, Energy & Environment
Architecture & Civil Engineering
Education
Economics & Management
Humanities & Social Sciences
Multidisciplinary

Books

Publish Conference Abstract Books
Upcoming Conference Abstract Books
Published Conference Abstract Books
Publish Your Books
Upcoming Books
Published Books

Proceedings

Events

Events
Five Types of Conference Publications

Join

Join the Editorial Board
Become a Reviewer

Information

For Authors
For Reviewers
For Editors
For Conference Organizers
For Librarians
Article Processing Charges
Special Issue Guidelines
Editorial Process
Manuscript Transfers
Peer Review at SciencePG
Open Access
Copyright and License
Ethical Guidelines
| Peer-Reviewed

Modification of Animal Product Intake for Prevention of Gout in Japanese People in 2019:2022 Update

Takashi Koguchi
Published in American Journal of Health Research (Volume 10, Issue 4)
Received: 15 July 2022    Accepted: 2 August 2022    Published: 10 August 2022
Views:       Downloads:
Download PDF
Abstract

The number of patients with gout has been increasing in Japan. A previous report showed modification of dietary habits for the prevention of gout in Japanese people in 2016 through the trends in food intake of Japanese people in 1946-2016. The aim of this article is to suggest what food intake is important for the prevention of gout in Japanese people in 2019 referencing the results of clinical research reported. As the previous report, the author used the data of the Comprehensive Survey of Living Conditions in Japan for the number of gout patients (1986-2019) and the data of the National Health and Nutrition Survey in Japan (1946-2019) for the intake of foods. Food intake of Japanese people in 2019 was compared with that in 2016. The relationship between the number of gout patients and food intake in Japanese people was examined. The daily intake of total animal products, total meat, eggs, oils and fats, and alcoholic beverages of Japanese people in 2019 were higher compared to those in 2016, respectively. Whereas the daily intake of total seafood (fish and shellfish), milk and dairy products, seasonings, condiments and spices, and confectioneries of Japanese people in 2019 were lower compared to those in 2016, respectively. The significance of the correlation between the number of gout patients and intake of total meat, total seafood, eggs, seasonings, condiments and spices, oils and fats, confectioneries, or alcoholic beverages in 1986-2016 were also observed that in 1986-2019. Modification of intake of animal products, seasonings, condiments and spices, confectioneries, and beverages for the prevention of gout in Japanese people in 2019 is suggested as follows: limiting intake of meat; limiting alcohol beverage consumption; limiting or decreasing intake of salt, oils and fats, and confectioneries; avoidance of excessive intake of sugar-sweetened beverages and sugary foods including desserts and sweets; increasing the intake of milk and dairy products (particularly low-fat dairy products).

Published in American Journal of Health Research (Volume 10, Issue 4)
DOI 10.11648/j.ajhr.20221004.11
Page(s) 140-153
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group
Previous article
Keywords

Alcoholic Beverage, Animal Product, Food, Gout, Hyperuricemia, Nutrient, Uric Acid

References
[1] Fabbrini, E., Serafini, M., Colic Baric, C., Hazen, S. L., & Klein, S. (2014) Effect of plasma uric acid on antioxidant capacity, oxidative stress, and insulin sensitivity in obese subjects. Diabetes, 63, 976-981.
[2] Lippi, G., Montagnana, M., Franchini, M., Favaloro, E. J., & Targher, G. (2008) The paradoxical relationship between serum uric acid and cardiovascular disease. Clin Chim Acta, 392, 1-7.
[3] Glantzounis, G. K., Tsimoyiannis, E. C., Kappas, A. M., &Galaris, D. A. (2005) Uric acid and oxidative stress. Curr Pharm Des, 11, 4145-4151.
[4] Bagnati, M., Perugini, C., Cau, C., Bordone, R., Albano, E., & Bellomo, G. (1999) When and why a water-soluble antioxidant becomes pro-oxidant during copper-induced low-density lipoprotein oxidation: a study using uric acid. Biochem J, 340. 143-152.
[5] Ruggiero, C., Cherubini, A., Ble, A., Bos, A. J., Maggio, M., Dixit, V. D., Lauretani, F., Bandinelli, S., Senin, U., & Ferrucci, L. (2006) Uric acid and inflammatory markers. Eur Heart J, 27, 1174-1181.
[6] Zhu, F., Du, B., & Xu, B. (2018) Anti-inflammatory effects of phytochemicals from fruits, vegetables, and food legumes: A review. Crit Rev Food Sci Nutr, 58, 1260-1270.
[7] Martinez, R. V., Reval, M., Campos, M. D., Terrón, J. A., Domínguez, R., & López-Muñoz, F. J. (2002) Involvement of peripheral cyclooxygenase-1 and cyclooxygenase-2 in inflammatory pain. J Pharm Pharmacol, 54, 405-412.
[8] Jhang, J-J., Lin, J-H., & Yen, G-C. (2018) Beneficial properties of phytochemicals on NLRP3 inflammasome-mediated gout and complication. J Agric Food Chem, 66, 765-772.
[9] Pellegrini, C., Fornai, M., Antonioli, L., Biandizzi, C., & Calderone, V. (2019) Phytochemicals as novel therapeutic strategies for NLRP3 inflammasome-related neurological, metabolic, and inflammatory diseases. Int J Mol Sci, 20, 2876.
[10] Shin, S. A., Joo, B. J., Lee, J. S., Ryu, G., Han, M., Kim, W. Y., Park, H. H., Lee, J. H., & Lee, C. S. (2020) Phytochemicals as anti-inflammatory agents in animal models of prevalent inflammatory diseases. Molecules, 25, 5932.
[11] Koguchi, T. (2021) Modification of dietary habits for prevention of gout in Japanese people: Gout and the Japanese diet. Am J Health Res, 9, 117-127.
[12] The Ministry of Health, Labour and Welfare. Household Statistics Office. (2022) Comprehensive Survey of Living Conditions [Internet]. Available from: https://www.mhlw.go.jp/toukei/list/20-21kekka.html.
[13] The Ministry of Health, Labour and Welfare. Health Service Bureau. (2022) National Health and Nutrition Survey Japan, 1946-2017 [Internet]. Available from: https://www.mhlw.go.jp/bunya/kenkou/kenkou_eiyou_chousa.html.
[14] The Ministry of Health, Labour and Welfare, Japan. (2020) Dietary Reference Intakes for Japanese, 2020 [Internet]. Available from: https://www.mhlw.go.jp/file/06-Seisakujouhou-10900000-Kenkoukyoku/Overview.pdf.
[15] National Institute of Health and Nutrition (2022) [Internet]. Available from: www.nibiohn.go.jp/eiken/kenkounippon21/eiyouchousa/keinen_henka_time.html.
[16] Koguchi, T. (2021) Modification of dietary habits for prevention of gout in Japanese people: Gout and macronutrient intake. Am J Health Res, 9, 128-142.
[17] Koguchi, T. (2021) Modification of dietary habits for prevention of gout in Japanese people: Gout and micronutrient intake or alcohol consumption. Am J Health Res, 9, 143-157.
[18] Koguchi, T. (2021) Modification of dietary habits for prevention of gout in Japanese people: Gout and food intake. Am J Health Res, 9, 158-175.
[19] Koguchi, T. (2022) Modification of macronutrient intake for prevention of gout in Japanese people in 2019:2022 update. Am J Health Res, 10, 83-106.
[20] Koguchi, T. (2022) Modification of micronutrient intake for prevention of gout in Japanese people in 2019:2022 update. Am J Health Res, 10, 107-131.
[21] The Council for Science and Technology, Ministry of Education, Culture, Sports, Science and Technology in Japan. (2020) Standard tables of food composition in Japan -2020- (Eighth Revised Edition), Report of the Subdivision Resources [Internet]. Available from: https://www.mext.go.jp/content/20201225-mxt_kagsei-mext_01110_011.pdf.
[22] U.S. Department of Health & Human Services. National Institutes of Health. Office of Dietary Supplements. Dietary Supplement Fact Sheets [Internet]. Available from: Dietary Supplement Fact Sheets (nih.gov).
[23] Brulé, D., Sarwar, G., & Savoie, L. (1992) Changes in serum and urinary uric acid levels in normal human subjects fed purine-rich foods containing different amounts of adenine and hypoxanthine. J Am Coll Nutr, 11, 353-358.
[24] Loenen, H. M. J. A., Eshuis, H., Löwik, M. R. H., Schouten, E. G., Hulshof, K. F. A. M., Odink, J., & Kok, F. J. (1990) Serum uric acid correlates in elderly men and women with special reference to body composition and dietary intake (Dutch Nutrition Surveillance System). J Clin Epidemiol, 43, 1297-1303.
[25] Major, T. J., Topless, R. K., Dalbeth, N., & Merriman, T. R. (2018) Evaluation of the diet wide contribution to serum urate levels: meta-analysis of population based cohorts. BMJ, 363, k3951.
[26] Zykova, S. N., Storhaug, H. M., Toft, I., Chadban, S. J., Jenssen, T. G., & White, S. L. (2015) Cross-sectional analysis of nutrition and serum uric acid in two Caucasian cohorts: the AusDiab Study and the Tromsø study. Nutr J, 14, 49.
[27] Chuang, S. Y., Lee, S. C., Hsieh, Y. T., & Pan, W. H. (2011) Trends in hyperuricemia and gout prevalence: Nutrition and Health Survey in Taiwan from 1993-1996 to 2005-2008. Asia Pac J Clin Nutr, 20, 301-308.
[28] Xia, Y., Wu, Q., Wang, H., Zhang, S., Jiang, Y., Gong, T., Xu, X., Chang, Q., Niu, K., & Zhao, Y. (2020) Global, regional and national burden of gout:, 1990-2017: a systematic analysis of the Global Burden of Disease Study. Rheumatology (Oxford), 59, 1529-1538.
[29] Kontogianni, M. D., Chrysohoou, C., Panagiotakos, D. B., Tsetsekou, E., Zeimbekis, A., Pitsavos, C., & Stefanadis, C. (2012) Adherence to the Mediterranean diet and serum uric acid: the ATTICA study. Scand J Rheumatol, 41, 442-449.
[30] Zgaga, L., Theodoratou, E., Kyle, J., Farrington, S. M., Agakov, F., Tenesa, A., Walker, M., McNeill, G., Wright, A. F., Rudan, I., Dunlop, M. G., & Campbell, H. (2012) The association of dietary intake of purine-rich vegetables, sugar-sweetened beverages and dairy with plasma urate, in a cross-sectional study. PLoS One, 7, e38123.
[31] Williams, P. T. (2008) Effects of diet, physical activity and performance, and body weight on incident gout in ostensibly healthy, vigorously active men. Am J Clin Nutr, 87, 1480-1487.
[32] Choi, H. K., Liu, S., & Curhan, G. (2005) Intake of purine-rich foods, protein, and dairy products and relationship to serum levels of uric acid: The Third National Health and Nutrition Examination Survey. Arthritis Rheum, 52, 283-289.
[33] Haldar, S., Rowland, I. R., Barnett, Y. A., Bradbury, I., Robson, P. J., Powell, J., & Fletcher, J. (2007) Influence of habitual diet on antioxidant status: a study in a population of vegetarians and omnivores. Eur J Clin Nutr, 61, 1011-1022.
[34] Yu, K-H., See, L-C., Huang, Y-C., Yang, C-H., & Sun, J-H. (2008) Dietary factors associated with hyperuricemia in adults. Semin Arthritis Rheum, 37, 243-250.
[35] Li, R., Yu, K., & Li, C. (2018) Dietary factors and risk of gout and hyperuricemia: a meta-analysis and systematic review. Asia Pac J Clin Nutr, 27, 1344-1356.
[36] Desideri, G., Puig, J. G., & Richette, P. (2015) The management of hyperuricemia with urate deposition. Curr Med Res Opin, 31 (Suppl 2), 27-32.
[37] Sigie, T., Imatou, T., Miyazaki, M., & Une, H. (2005) The effect of alcoholic beverage type on hyperuricemia in Japanese male office workers. J. Epidemiol, 15, 41-47.
[38] Han, Q-X., Zhang, D., Zhao, Y-L., Liu, L., Li, J., Zhang, F., Luan, F-X., Liu, D-W., Liu, Z-S., Cai, G-Y., Chen, X-M., & Zhu, H-Y. (2019) Risk factors for hyperuricemia in Chinese centenarians and near- centenarians. Clinical Interventions in Aging, 14, 2239-2247.
[39] Zhu, J. N., Qi, X. Y., Tan, Y., & Lyu, X. H. (2016) Dietary factors associated with hyperuricemia and glycolipid metabolism disorder in middle-aged and elderly people. Sichuan. Da Xue Xue Bao Yi Xue Ban, 47, 68-72 (in Chinese).
[40] Guasch-Ferré, M., Bulló, M., Babio, N., Martínez-González, M. A., Estruch, R., Covas, M-I., Wärnberg, J., Arós, F., Lapetra, J., Serra-Majem, L., Basora, J., & Salas-Salvadó, J. (2013) Mediterranean diet and risk of hyperuricemia in elderly participants at high cardiovascular risk. J Gerontol A Biol Sci Med Sci, 68, 1263-1270.
[41] Torralba, K. D., De Jesus, E., & Rachabattula, S. (2012) The interplay between diet, urate transporters and the risk for gout and hyperuricemia: current and future directions. Int J Rheum Dis, 15, 499-506.
[42] Doherty, M. (2009) New insights into epidemiology of gout. Rheumatology (Oxford), 48 (suppl 2), ii2-ii8.
[43] Nickolai, B., & Kiss, C. (2016) Nutritional therapy of gout. Ther Umsch, 73, 153-158.
[44] Choi, H. K., Atkinson, K., Karlson, E. W., Willett, W., & Curhan, G. (2004) Purine-rich foods, dairy and protein intake, and the risk of gout in men. N Engl J Med, 350, 1093-1103.
[45] Teng, G. G., Pan, A., Yuan, J. M., & Koh, W. P. (2015) Food sources of protein and risk of incident gout in the Singapore Chinese Health Study. Arthritis Rheumatol, 67, 1933-1942.
[46] Zhu, Y., Pandya, B. J., & Choi, H. K. (2011) Prevalence of gout and hyperuricemia in the US general population: the National Health and Nutrition Examination Survey 2007-2008. Arthritis Rheum, 63, 3136-3141.
[47] Zhang, Y., Woods, R., Chaisson, C. E., Neogi, T., Niu, J., McAlndon, T. E., & Hunter, D. (2006) Alcohol consumption as a trigger of recurrent gout attacks. Am J Med, 119, 800, e13-18.
[48] Zhang, Y., Chen, C., Choi, H., Chaisson, C., Hunter, D., Niu, J., & Neogi, T. (2012) Purine-rich foods intake and recurrent gout attacks. Ann Rheum Dis, 71, 1448-1453.
[49] Richette, P., Doherty, M., Pascual, E., Barskova, V., Becce, F., Castaneda-Sanabria, J. Coyfish, M., Guillo, S., Jansen, T. L., Jansens, H., Lioté, F., Mallen, C., Nuki, G., Perez-Ruiz, F., Pimentao, J., Punzi, L., Pywell, T., So, A., Tausche, A. K., Uhlig, T., Zavada, J., Zhang, W., Tubach, F., & Bardin, T. (2017) 2016 updated EULAR evidence-based recommendations for the management of gout. Ann Rheum Dis, 76, 29-42.
[50] Jordan, K. M., Cameron, J. S., Snaith, M., Zhang, W., Doherty, M., Seckl, J., Hingorani, A., Jaques, R., Nuki, G., British Society for Rheumatology and British Health Professionals in Rheumatology Standards., & Guidelines and Audit Working Group (SGAWG) (2007) British Society for Rheumatology and British health professionals in rheumatology guideline for the management of gout. Rheumatology, 46, 1372-1374.
[51] Khanna, D., Fitzgerald, J. D., Khanna, P. P., Bae, S., Singh, M. K., Neogi, T., Pillinger, M. H., Merill, J., Lee, S., Prakash, S., Kaldas, M., Gogia, M., Perez-Ruiz, F., Taylor, W., Lioté, F., Choi, H., Singh, J. A., Dalbeth, N., Kaplan, S., Niyyar, V., Jones, D., Yarows, S. A., Roessler, B., Kerr, G., King, C., Levy, G., Furst, D. E., Edwards, N. L., Mandell, B., Schumacher, H. R., Robbins, M., Wenger, N., & Terkeltaub, R. (2012) 2012 American College of Rheumatology guidelines for management of gout. Part 1: systematic nonpharmacologic and pharmacologic therapeutic approaches to hyperuricemia. Arthritis Care Research, 64, 1431-1446.
[52] Villegas, R., Xiang, Y. -B., Elasy, T., Xu, W. H., Cai, H., Cai, Q., Linton, M. F., Fazio, S., Zheng, W., & Shu, X. -O. (2012) Purine-rich foods, protein intake, and the prevalence of hyperuricemia: the Shanghai Men’s Health Study. Nutr Metab Cardiovasc Dis, 22, 409-416.
[53] Xiong, Z., Zhu, C., Qian, X., Zhu, J., Wi, Z., & Chen, L. (2013) Serum uric acid is associated with dietary and lifestyle factors in elderly women in suburban Guangzhou in Guangdong province of south China. J Nutr Hralth Aging, 17, 30-34.
[54] Yu, J. W., Yang, T. G., Diao, W. H., Cai, X. Q., Li, T., Zhong, H., Hu, D. L., Chen, C. Q., & Chen, Z. X. (2010) Epidemiological study on hyperuricemia and gout in Foshan areas, Guangdong province. Chin J Epidemiol, 31, 860-862.
[55] Ren, Z., Huang, C., Momma, H., Cui, Y., Sugiyama, S., Niu, K., & Nagatomi, R. (2016) The consumption of fish cooked by different methods was related to the risk of hyperuricemia in Japanese adults: A 3-year follow-up study. Nutr Metab Cardiovasc Dis, 26, 778-785.
[56] Wang, Y., Yan, S., Li, C., Zhao, S., Lv, J., Wang, F., Meng, D., Han, L., Wang, Y., & Miao, Z. (2013) Risk factors for gout developed from hyperuricemia in China: a five-year prospective cohort study. Rheumatol Int, 33, 705- 710.
[57] Zhang, M., Zhang, Y., Terkeltaub, R., Chen, C., & Neogi, T. (2019) Effect of dietary and supplemental omega-3 polyunsaturated fatty acids on risk of recurrent gout flares. Arthritis Rheumatol, 71, 1580-1586.
[58] Hisatome, I., Ichida, K., Mineo, I., Ohtahara, A., Ogino, K., Kuwabara, M., Ishizaka, N., Uchida, S., Kurajoh, M., Kohagura, K., Sato, Y., Taniguchi, A., Tsuchihashi, T., Terai, C., Nakamura, T., Hamaguchi, T., Hamada, T., Fujimori, S., Masuda, I., Moriwaki, Y., Yamamoto, T. on behalf of guideline development group. (2018) Japanese Society of Gout and Uric & Nucleic Acids Guidelines for Management of Hyperuricemia and Gout: 3 rd edition. SHINDAN TO CHIRYO SHA, Inc. pp. 1-169. Tokyo (in Japanese).
[59] Kaneko, K., Aoyagi, Y., Fukuuchi, T., Inazawa, K., & Yamaoka, N. (2014) Total purine and purine base content of common foodstuffs for facilitating nutritional therapy for gout and hyperuricemia. Biol Pharm Bull, 37, 709-721.
[60] Piepoli, M. F., Hoes, A. W., Agewall, S., Albus, C., Brotons, C., Catapano, A. L., Cooney, M-T., Corrà, U., Cosyns, B., Deaton, C., Graham, I., Hall, M. S., Hobbs, F. D. R., Løchen, M-L., Löllgen, H., Marques-Vidal, P., Perk, J., Prescott, E., Redon, J., Richter, D. J., Sattar, N., Smulders, Y., Tiberi, M., van der Worp, H. B., van Dis, I., & Verschuren, W. H. M. (2016) 2016 European Guidelines on cardiovascular disease prevention in clinical practice. The Sixth Joint Task Force of the European Society of Cardiology and Other Societies on Cardiovascular Disease Prevention in Clinical Practice (constituted by representatives of 10 societies and by invited experts) Developed with the special contribution of the European Association for Cardiovascular Prevention & Rehabilitation (EACPR). Eur Heart J, 37, 2315-2381.
[61] American Diabetes Association (2019) Lifestyle management: standards of medical care in diabetes-2019. Diabetes Care, 42, S46-S60.
[62] Terkeltaub, R., & Edwards, N. L. (2013) Gout: Diagnosis and management of gouty arthritis and hyperuricemia. 3rd edition, p. 1-336. Professional Communications, Inc. NY.
[63] Chang, W. C. (2011) Dietary intake and the risk of hyperuricemia, gout and chronic kidney disease in elderly Taiwanese men. Aging Male, 14, 195-202.
[64] Dalbeth, N., Wong, S., Gamble, G. D., Horne, A., Mason, B., Pool, B., Fairbanks, L., McQueen, F. M., Cornish, J., Reid, I. R., & Palmano, K. (2010) Acute effect of milk on serum urate concentrations: a randomized controlled crossover trial. Ann Rheum Dis, 69. 1677-1682.
[65] Carabin, I. G., Lyon, M. R., Wood, S., Pelletier, X., Donazzolo, Y., & Burdock, G. A. (2009) Supplementation of the diet with the functional fiber PolyGlycoplex is well tolerated by healthy subjects in a clinical trial. Nutr J, 8, 9.
[66] Dalbeth, N., & Palmano, K. (2011) Effects of dairy intake on hyperuricemia and gout. Curr Rheumatol Rep, 13, 132-137.
[67] Ghadirian, P., Shatenstein, B., Verdy, M., & Hamet, P. (1995) The influence of dairy products on plasma uric acid in women. Eur J Epidemiol, 11, 275-281.
[68] Hunter, D. C., Brown, R., Green, T., Thomson, C., Skeaff, M., Williams, S., Todd, J. M., Lister, C. E., McGhie, T., Zhang, J., Martin, H., Rippon, P., Stanley, R., & Skinner, M. A. (2012) Changes in markers of inflammation, antioxidant capacity and oxidative stress in smokers following consumption of milk, and milk supplemented with fruit and vegetable extracts and vitamin C. Int J Food Sci Nutr, 63, 90-102.
[69] Beydoun, M. A., Fanelli-Kuczmarski, M. T., Canas, J-A., Beydoun, H. A., Evans, M. K., & Zonderman, A. B. (2018) Dietary factors are associated with serum uric acid trajectory differentially by race among urban adults. Br J Nutr, 120, 935-945.
[70] Moi, J. H., Sriranganathan, M. K., Falzon, I., Edwards, C. J., van der Heijde, D. M., & Buchbinder, R. (2014) Lifestyle interventions for the treatment of gout: a summary of 2 Cochrane systematic reviews. J Rheumatol, Suppl 92, 26-32.
[71] Garrel, D. R., Verdy, M., PetitClerc, C. Martin, C., Brulé, D., & Hamet, P. (1991) Milk-and soy-protein ingestion; Acute effect on serum uric acid concentration. Am J Clin Nutr, 53, 665-669.
[72] Dalbeth, N., Ames, R., Gamble, G. D., Horne, A., Wong, S., Kuhn-Sherlock, B., MacGibbon, A., McQueen, F. M., Reid, I. R., & Palmano, K. (2012) Effects of skim milk powder enriched with glycomacropeptide and G600 milk fat extract on frequency of gout flares: a proof-of-concept randomised controlled trial. Ann Rheum Dis, 71, 929-934.
[73] Ministry of Health, Labour and Welfare and Ministry of Agriculture, Forestry and Fisheries. 2010, Japanese Food Guide Spinning Top, Tokyo. [Internet]. Available from: http://www.maff.go.jp/j/balance_guide/b_sizai/attach/pdf/index-56.pdf.
[74] INRA (2021) Phenol-Explorer database [Internet]. Available from: http://phenol-explorer.eu/compounds.
[75] The Ministry of Agriculture, Forestry and Fisheries. (2020) WASHOKU, traditional dietary cultures of the Japanese [Internet]. Available from: https://www.maff.go.jp/e/japan_food/washoku/pdf/wasyoku_english.pdf.
[76] Costa-Bauza, A., Grases, F., Calvó, P., Rodriguez, A., & Prieto, R. M. (2018) Effect of consumption of cocoa-derived products on uric acid crystallization in urine of healthy volunteers. Nutrients, 10, 1516.
[77] Grases, F., Rodriguez, A., & Costa-Bauza, A. (2014) Theobromine inhibits uric acid crystallization. A potential application in the treatment of uric acid nephrolithiasis. PLoS ONE, 9, e111184.
[78] Basu, S., McKee, M., Galea, G., & Stuckler, D. (2013) Relationship of soft drink consumption to global overweight, obesity, and diabetes: a cross-national analysis of 75 countries. Am J Public Health, 103, 2071-2077.
[79] Marriott, B. P., Cole, N., & Lee, E. (2009) National estimates of dietary fructose intake increased from 1977 to 2004 in the United States. J Nutr, 139 (Suppl), 1228S-1235S.
[80] Carran, E. L. White, S. J., Reynolds, A. N., Haszard, J. J., & Venn, B. J. (2016) Acute effect of fructose intake from sugar-sweetened beverages on plasma uric acid: a randomised controlled trial. Eur J Clin Nutr, 70, 1034-1038.
[81] Bruun, J. M., Maersk, M., Belza, A., Astrup, A., & Richelsen, B. (2015) Consumption of sucrose-sweetened soft drinks increases plasma levels of uric acid in overweight and obese subjects: a 6-month randomised controlled trial. Eur J Clin Nutr, 69, 949-953.
[82] Price, C. A., Medici, V., Nunez, M. V., Lee, V., Sigala, D. M., Benyam, Y., Keim, N. L., Mason, A. E., Chen, S-Y., Parenti, M., Slupsky, C., Epel, E. S., Havel, P. J., & Stanhope, K. L. (2021) A pilot study comparing the effects of consuming 100% orange juice or sucrose-sweetened beverage on risk factors for cardiometabolic disease in women. Nutrients, 13, 760.
[83] Olfsson, C., Anderstam, B., Bragfors-Helin, A-C., Eriksson, M., Qureshi, A., R., Lindholm, B., Hilding, A., Wiczkowski, W., Orsini, N., Stenvinkel, P., & Ekberg, N. R. (2019) Effects of acute fructose loading on levels of serum uric acid- a pilot study. Eur J Clin Nutr, 49, e13040.
[84] Choi, J. W. J., Ford, E. S., Gao, X., & Choi, H. K. (2008) Sugar-sweetened soft drinks, diet soft drinks, and serum uric acid level: The third national health and nutrition examination survey. Arthritis. Rheum, 59, 109-116.
[85] Merriman, T. R., Dalbeth, N., & Johnson, R. J. (2014) Sugar-sweetened beverages, urate, gout and genetic interaction. Pac Health Dialog, 20, 31-38.
[86] Nguyen, S., Choi, H. K., Lustig, R. H., & Hsu, C. Y. (2009) Sugar-sweetened beverages, serum uric acid, and blood pressure in adolescents. J Pediatr, 154, 807-813.
[87] Siqueira, J., Pereira, T. S. S., Veiasquez-Melendez, G., Barreto, S. M., Benseñor, I. M., Mill, J. G., & Molina, M. C. B. (2021) Sugar-sweetened soft drinks consumption and risk of hyperuricemia: Results of the ELSA-Brasil study. Nutr Metab Cardiovasc Dis, 31, 2004-2013.
[88] Ebrahimpour-Koujan, S., Saneei, P., Larijani, B., & Esmaillzadeh, A. (2021) Consumption of sugar-sweetened beverages and serum uric acid concentrations: a systematic review and meta-analysis. J Hum Nutr Diet, 34, 305-313.
[89] Ebrahimpour-Koujan, S., Saneei, P., Larijani, B., & Esmaillzadeh, A. (2020) Consumption of sugar sweetened beverages and dietary fructose in relation to risk of gout and hyperuricemia: a systematic review and meta-analysis. Crit Rev Food Sci Nutr, 60, 1-10.
[90] Choi, H. K., Willett, W., & Curhan, G. (2010) Fructose-rich beverages and the risk of gout in women. JAMA, 304, 2270-2278.
[91] Johnson, R. J., Nakagawa, T., Sánchez-Lozada, L. G., Shafiu, M., Sundaram, S., Le, M., Ishimoto, T., Sautin, Y. Y., & Lanaspa, M. A. (2013) Sugar, uric acid, and the etiology of diabetes and obesity. Diabetes, 62, 3307-3315.
[92] Pham, N. M., Yoshida, D., Morita, M., Yin, G., Toyomura, K., Ohnaka, K., Takayanagi, R., & Kono, S. (2010) The relation of coffee consumption to serum uric acid in Japanese men and women aged 49-76 years. J Nutr Metab, 2010, 930757.
[93] Choi, H. K., & Curhan, G. (2007) Coffee, tea, and caffeine consumption and serum uric acid level: The third national health and nutrition examination survey. Arthritis Rheum, 57, 816-821.
[94] Kiyohara, C., Kono, S., Honjo, S., Todoroki, I., Sakurai, Y., Nishiwaki, M., Hamada, H., Nishikawa, H., Koga, H., Ogawa, S., & Nakagawa, K. (1999) Inverse association between coffee drinking and serum uric acid concentrations in middle-aged Japanese males. Br J Nutr, 82, 125-130.
[95] Choi, H. K., Willett, W., & Curhan, G. (2007) Coffee consumption and risk of incident gout in men: A prospective study. Arthritis Rheum, 56, 2049-2055.
[96] Choi, H. K., & Curhan, G. (2010) Coffee consumption and risk of incident gout in women: the Nurses’ Health Study. Am J Clin Nutr, 92, 922-927.
[97] Juraschek, S. P., Kowell, L. C., Miller, E. R., & Gelber, A. C. (2013) Dose-response association of uncontrolled blood pressure and cardiovascular disease risk factors with hyperuricemia and gout. PLoS One, 8, e56546.
[98] Poole, R., Kennedy, O. J., Roderick, P., Fallowfield, J. A., Hayes, P. C., & Parkes, J. (2017) Coffee consumption and health: umbrella review of meta-analyses of multiple health outcomes. BMJ, 359, j5024.
[99] Zhang Y, Yang T, Zeng C, Wei, J., Li, H., Xiong, Y. L., Yang, Y., Ding, X., & Lei, G.: Is coffee consumption associated with a lower risk of hyperuricaemia or gout? A systematic review and meta-analysis. (2016) BMJ Open, 6, e009809.
[100] Hutton, J., Fatima, T., Major, T. J., Topless, R., Stamp, L. K., Merriman, T. R., & Dalbeth, N. (2018) Mediation analysis to understand genetic relationships between coffee intake and gout. Arthritis Res Ther, 20, 135.
[101] Panza, V. S., Wazlawik, E., Ricardo Schütz, G., Comin, L., Hecht, K. C., & da Silva, E. L. (2008) Consumption of green tea favorably affects oxidative stress markers in weight-trained men. Nutrition, 24, 433-442.
[102] Bahorun, T., Luximon-Ramma, A., Gunness, T. K., Sookar, D., Bhoyroo, S., Jugessur, R. Reebye, D., Googoolye, K., Crozier, A., & Aruoma, O. I. (2010) Black tea reduces uric acid and C-reactive protein levels in humans susceptible to cardiovascular diseases. Toxicology, 278, 68-74.
[103] Teng, G. G., Tan, C. S., Santosa, A., Saag, K. G., Yuan, J. M., & Koh, W. P. (2013) Serum urate levels and consumption of common beverages and alcohol among Chinese in Singapore. Arthritis Care Res, 65, 1432-1440.
[104] Li, X., Song, P., Li, J., Wang, P., & Li, G. (2015) Relationship between hyperuricemia and dietary risk factors in Chinese adults: a cross-sectional study. Rheumatol Int, 35, 2079-1089.
[105] Choi, H. K., Mount, D. B., Reginato, A. M., American College of Physicians; American Physiological Society (2005) Pathogenesis of gout. Ann Intern Med, 143, 499-516.
[106] Towiwat, P., & Li, Z. G. (2015) The association of vitamin C, alcohol, coffee, tea, milk and yogurt with uric acid and gout. Int J Rheum Dis, 18, 495-501.
[107] Koguchi, T. (2018) Essentials of dietary habits for prevention and suppression of hyperuricemia. Curr Top Pharmacol, 22, 77-133.
[108] Kela, U., Vijayvargiya, R., & Trivedi, C. P. (1980) Inhibitory effects of methylxanthines on the activity of xanthine oxidase. Life Sci, 27, 2109-2119.
[109] Tsai, Y. T., Liu, J. P., Tu, Y, K., Lee, M. S., Chen, P. R., Hsu, H. C., Chen, M. F., & Chien, L. L. (2012) Relationship between dietary patterns and serum uric acid concentrations among ethnic Chinese adults in Taiwan. Asia Pac J Clin Nutr, 21, 263-270.
[110] Pérez-Jiménez, J. (2010) Identification of the 100 richest dietary sources of polyphenols an application of the Phenol-Explorer database. Eur J Clin Nutr, 64, Suppl 3, S112-120.
[111] European Food Safety Authority (EFSA). (2015) Scientific opinion on the safety of caffeine. EFSA Panel on Dietetic Products, Nutrition and Allergies (NDA). EFSA Journal, 13, 4102.
[112] All Japan Coffee Association (2022) Coffee of consumption in Japan [Internet]. Available from: https://coffee.ajca.or.jp/pdf/data04_2021-06b.pdf
[113] van der Gaag, M. S., van den Berg, R., van den Berg, H., Schaafsma, G., & Hendriks, H. F. (2000) Moderate consumption of beer, red wine and spirits has counteracting effects on plasma antioxidants in middle-aged men. Eur J Clin Nutr, 54, 586-591.
[114] Choi, H. K., & Curhan, G. (2004) Beer, liquor, and wine consumption and serum uric acid level; The Third National Health and Nutrition Examination Survey. Arthritis Rheum, 51, 1023-1029.
[115] Choi, H. K., Atkinson, K., Karlson, E. W., Willett, W., & Curhan, G. (2004) Alcohol intake and risk of incident gout in men: a prospective study. Lancet, 363, 1277-1281.
[116] Yamamoto, T., Moriwaki, Y., Ka, T., Inokuchi, T., Takahashi, S., Tsutsumi, Z., Fukuchi, M., & Hada, T. (2004) Effect of purine-free low-malt liquor (happo-shu) on the plasma concentrations and urinary excretion of purine bases and uridine—comparison between purine-free and regular happo-shu. Horm Metab Res, 36, 231-237.
Cite This Article
Plain Text BibTeX RIS

  • APA Style

    Takashi Koguchi. (2022). Modification of Animal Product Intake for Prevention of Gout in Japanese People in 2019:2022 Update. American Journal of Health Research, 10(4), 140-153. https://doi.org/10.11648/j.ajhr.20221004.11

    Copy | Download

    ACS Style

    Takashi Koguchi. Modification of Animal Product Intake for Prevention of Gout in Japanese People in 2019:2022 Update. Am. J. Health Res. 2022, 10(4), 140-153. doi: 10.11648/j.ajhr.20221004.11

    Copy | Download

    AMA Style

    Takashi Koguchi. Modification of Animal Product Intake for Prevention of Gout in Japanese People in 2019:2022 Update. Am J Health Res. 2022;10(4):140-153. doi: 10.11648/j.ajhr.20221004.11

    Copy | Download 

  • @article{10.11648/j.ajhr.20221004.11,
  author = {Takashi Koguchi},
  title = {Modification of Animal Product Intake for Prevention of Gout in Japanese People in 2019:2022 Update},
  journal = {American Journal of Health Research},
  volume = {10},
  number = {4},
  pages = {140-153},
  doi = {10.11648/j.ajhr.20221004.11},
  url = {https://doi.org/10.11648/j.ajhr.20221004.11},
  eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajhr.20221004.11},
  abstract = {The number of patients with gout has been increasing in Japan. A previous report showed modification of dietary habits for the prevention of gout in Japanese people in 2016 through the trends in food intake of Japanese people in 1946-2016. The aim of this article is to suggest what food intake is important for the prevention of gout in Japanese people in 2019 referencing the results of clinical research reported. As the previous report, the author used the data of the Comprehensive Survey of Living Conditions in Japan for the number of gout patients (1986-2019) and the data of the National Health and Nutrition Survey in Japan (1946-2019) for the intake of foods. Food intake of Japanese people in 2019 was compared with that in 2016. The relationship between the number of gout patients and food intake in Japanese people was examined. The daily intake of total animal products, total meat, eggs, oils and fats, and alcoholic beverages of Japanese people in 2019 were higher compared to those in 2016, respectively. Whereas the daily intake of total seafood (fish and shellfish), milk and dairy products, seasonings, condiments and spices, and confectioneries of Japanese people in 2019 were lower compared to those in 2016, respectively. The significance of the correlation between the number of gout patients and intake of total meat, total seafood, eggs, seasonings, condiments and spices, oils and fats, confectioneries, or alcoholic beverages in 1986-2016 were also observed that in 1986-2019. Modification of intake of animal products, seasonings, condiments and spices, confectioneries, and beverages for the prevention of gout in Japanese people in 2019 is suggested as follows: limiting intake of meat; limiting alcohol beverage consumption; limiting or decreasing intake of salt, oils and fats, and confectioneries; avoidance of excessive intake of sugar-sweetened beverages and sugary foods including desserts and sweets; increasing the intake of milk and dairy products (particularly low-fat dairy products).},
 year = {2022}
}

    Copy | Download 

  • TY  - JOUR
T1  - Modification of Animal Product Intake for Prevention of Gout in Japanese People in 2019:2022 Update
AU  - Takashi Koguchi
Y1  - 2022/08/10
PY  - 2022
N1  - https://doi.org/10.11648/j.ajhr.20221004.11
DO  - 10.11648/j.ajhr.20221004.11
T2  - American Journal of Health Research
JF  - American Journal of Health Research
JO  - American Journal of Health Research
SP  - 140
EP  - 153
PB  - Science Publishing Group
SN  - 2330-8796
UR  - https://doi.org/10.11648/j.ajhr.20221004.11
AB  - The number of patients with gout has been increasing in Japan. A previous report showed modification of dietary habits for the prevention of gout in Japanese people in 2016 through the trends in food intake of Japanese people in 1946-2016. The aim of this article is to suggest what food intake is important for the prevention of gout in Japanese people in 2019 referencing the results of clinical research reported. As the previous report, the author used the data of the Comprehensive Survey of Living Conditions in Japan for the number of gout patients (1986-2019) and the data of the National Health and Nutrition Survey in Japan (1946-2019) for the intake of foods. Food intake of Japanese people in 2019 was compared with that in 2016. The relationship between the number of gout patients and food intake in Japanese people was examined. The daily intake of total animal products, total meat, eggs, oils and fats, and alcoholic beverages of Japanese people in 2019 were higher compared to those in 2016, respectively. Whereas the daily intake of total seafood (fish and shellfish), milk and dairy products, seasonings, condiments and spices, and confectioneries of Japanese people in 2019 were lower compared to those in 2016, respectively. The significance of the correlation between the number of gout patients and intake of total meat, total seafood, eggs, seasonings, condiments and spices, oils and fats, confectioneries, or alcoholic beverages in 1986-2016 were also observed that in 1986-2019. Modification of intake of animal products, seasonings, condiments and spices, confectioneries, and beverages for the prevention of gout in Japanese people in 2019 is suggested as follows: limiting intake of meat; limiting alcohol beverage consumption; limiting or decreasing intake of salt, oils and fats, and confectioneries; avoidance of excessive intake of sugar-sweetened beverages and sugary foods including desserts and sweets; increasing the intake of milk and dairy products (particularly low-fat dairy products).
VL  - 10
IS  - 4
ER  -

    Copy | Download

Author Information

  • Takashi Koguchi

    Department of Human Education, Kokugakuin Tochigi Junior College, Tochigi, Japan

Download PDF
  • Sections

About Us

Science Publishing Group (SciencePG) is an Open Access publisher, with more than 300 online, peer-reviewed journals covering a wide range of academic disciplines.

Learn More About SciencePG

Products

Information

Important Link

Copyright © 2012 -- 2024 Science Publishing Group – All rights reserved.