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「日本人の食事摂取基準(2025年版)」策定検討会報告書 (346 ページ)
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and cardiovascular disease: A systematic review and meta-analysis. Adv Nutr. 2021;12(1):141-160.
97) Wang LJ, Wang MQ, Hu R, et al. Effect of zinc supplementation on maintenance hemodialysis patients: A
systematic
review
and
meta-analysis
of
15
randomized
controlled
trials.
Biomed
Res
Int. 2017;2017:1024769.
98) Collins JF. Copper. In: Marriott BP, Birt DF, Stalling VA, Yates AA, eds. Present Knowledge in Nutrition:
Basic Nutrition and Metabolism. 11th ed. Academic Press, San Diego, CA; 2020:409-427.
99) Turnlund JR, Keyes WR, Peiffer GL, et al. Copper absorption, excretion, and retention by young men
consuming low dietary copper determined by using the stable isotope 65Cu. Am J Clin
Nutr. 1998;67(6):1219-1225.
100) Turnlund JR, Keyes WR, Kim SK, et al. Long-term high copper intake: effects on copper absorption,
retention, and homeostasis in men. Am J Clin Nutr. 2005;81(4):822-828.
101) Harvey LJ, Majsak-Newman G, Dainty JR, et al. Adaptive responses in men fed low- and high-copper diets.
Br J Nutr. 2003;90(1):161-168.
102) Bost M, Houdart S, Oberli M, et al. Dietary copper and human health: Current evidence and unresolved
issues. J Trace Elem Med Biol. 2016;35:107-115.
103) Institute of Medicine. Copper. In: Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron,
Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc. National
Academies Press, Washington, D.C.; 2001:224-257.
104) Pratt WB, Omdahl JL, Sorenson JR. Lack of effects of copper gluconate supplementation. Am J Clin
Nutr. 1985;42(4):681-682.
105) Scientific Committee on Food. Opinion of the Scientific Committee on Food on the Tolerable Upper Intake
Level of Copper. European Commission, Brussels; 2003.
106) National Health and Medical Research Council, Australian Government Department of Health and Ageing,
New Zealand Ministry of Health. Nutrient Reference Values for Australia and New Zealand. National
Health and Medical Research Council, Canberra; 2006.
107) Qiu Q, Zhang F, Zhu W, et al. Copper in diabetes mellitus: A meta-analysis and systematic review of plasma
and serum studies. Biol Trace Elem Res. 2017;177(1):53-63.
108) Eljazzar S, Abu-Hijleh H, Alkhatib D, et al. The role of copper intake in the development and management
of type 2 diabetes: A systematic review. Nutrients. 2023;15(7):1655.
109) He P, Li H, Liu C, et al. U-shaped association between dietary copper intake and new-onset hypertension.
Clin Nutr. 2022;41(2):536-542.
110) Grammer TB, Kleber ME, Silbernagel G, et al. Copper, ceruloplasmin, and long-term cardiovascular and
total
mortality
(the
Ludwigshafen
Risk
and
Cardiovascular
Health
Study).
Free
Radic
Res. 2014;48(6):706-715.
111) Nielsen FH. Manganese, molybdenum, boron, and other trace elements. In: Marriott BP, Birt DF, Stalling
VA, Yates AA, eds. Present Knowledge in Nutrition: Basic Nutrition and Metabolism. 11th ed. Academic
Press, San Diego, CA; 2020:485-500.
112) Gunshin H, Allerson CR, Polycarpou-Schwarz M, et al. Iron-dependent regulation of the divalent metal ion
transporter. FEBS Lett. 2001;509(2):309-316.
113) 藤代瞳, 姫野誠一郎. 生体内カドミウム・マンガン輸送における亜鉛輸送体 ZIP8 の役割. 生化
336
97) Wang LJ, Wang MQ, Hu R, et al. Effect of zinc supplementation on maintenance hemodialysis patients: A
systematic
review
and
meta-analysis
of
15
randomized
controlled
trials.
Biomed
Res
Int. 2017;2017:1024769.
98) Collins JF. Copper. In: Marriott BP, Birt DF, Stalling VA, Yates AA, eds. Present Knowledge in Nutrition:
Basic Nutrition and Metabolism. 11th ed. Academic Press, San Diego, CA; 2020:409-427.
99) Turnlund JR, Keyes WR, Peiffer GL, et al. Copper absorption, excretion, and retention by young men
consuming low dietary copper determined by using the stable isotope 65Cu. Am J Clin
Nutr. 1998;67(6):1219-1225.
100) Turnlund JR, Keyes WR, Kim SK, et al. Long-term high copper intake: effects on copper absorption,
retention, and homeostasis in men. Am J Clin Nutr. 2005;81(4):822-828.
101) Harvey LJ, Majsak-Newman G, Dainty JR, et al. Adaptive responses in men fed low- and high-copper diets.
Br J Nutr. 2003;90(1):161-168.
102) Bost M, Houdart S, Oberli M, et al. Dietary copper and human health: Current evidence and unresolved
issues. J Trace Elem Med Biol. 2016;35:107-115.
103) Institute of Medicine. Copper. In: Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron,
Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc. National
Academies Press, Washington, D.C.; 2001:224-257.
104) Pratt WB, Omdahl JL, Sorenson JR. Lack of effects of copper gluconate supplementation. Am J Clin
Nutr. 1985;42(4):681-682.
105) Scientific Committee on Food. Opinion of the Scientific Committee on Food on the Tolerable Upper Intake
Level of Copper. European Commission, Brussels; 2003.
106) National Health and Medical Research Council, Australian Government Department of Health and Ageing,
New Zealand Ministry of Health. Nutrient Reference Values for Australia and New Zealand. National
Health and Medical Research Council, Canberra; 2006.
107) Qiu Q, Zhang F, Zhu W, et al. Copper in diabetes mellitus: A meta-analysis and systematic review of plasma
and serum studies. Biol Trace Elem Res. 2017;177(1):53-63.
108) Eljazzar S, Abu-Hijleh H, Alkhatib D, et al. The role of copper intake in the development and management
of type 2 diabetes: A systematic review. Nutrients. 2023;15(7):1655.
109) He P, Li H, Liu C, et al. U-shaped association between dietary copper intake and new-onset hypertension.
Clin Nutr. 2022;41(2):536-542.
110) Grammer TB, Kleber ME, Silbernagel G, et al. Copper, ceruloplasmin, and long-term cardiovascular and
total
mortality
(the
Ludwigshafen
Risk
and
Cardiovascular
Health
Study).
Free
Radic
Res. 2014;48(6):706-715.
111) Nielsen FH. Manganese, molybdenum, boron, and other trace elements. In: Marriott BP, Birt DF, Stalling
VA, Yates AA, eds. Present Knowledge in Nutrition: Basic Nutrition and Metabolism. 11th ed. Academic
Press, San Diego, CA; 2020:485-500.
112) Gunshin H, Allerson CR, Polycarpou-Schwarz M, et al. Iron-dependent regulation of the divalent metal ion
transporter. FEBS Lett. 2001;509(2):309-316.
113) 藤代瞳, 姫野誠一郎. 生体内カドミウム・マンガン輸送における亜鉛輸送体 ZIP8 の役割. 生化
336