

Articles: Sorted By First Author, Year

Article numbers are associated with the Article variable in the data sets (SDcorn and dietfat). Articles with a "*" are in the final database (see Fay, Freedman, Clifford, and Midthune, 1997, Cancer Research 57: 3979-3988). Articles numbered 0 are copied but are not appropriate for the database. Articles numbered 00 have been investigated  but not copied and are not appropriate for some reason. Notes on why the articles are not appropriate are given.
________________________________________________________________________
79.*	Abou El-Ela SH; Prasse KW; Carroll R; Bunce OR.  Effects of Dietary primrose oil and mammary tumorigenesis induced by 7,12-dimethylbenz(a)anthracene.  Lipids 1987;22:1041-1044

106.*Abou-el-Ela SH; Prasse KW; Carroll R; Wade AE; Dharwadkar S; Bunce OR.  Eicosanoid synthesis in 7,12-dimethylbenz (a) anthracene-induced mammary carcinomas in Sprague-Dawley rats fed primrose oil, menhaden oil or corn oil diet.  Lipids 1988;23:948-954

116.*Abou-el-Ela SH; Prasse KW; Farrell RL; Carroll RW; Wade AE; Bunce OR.  Effects of D, L-2 difluoromethylornithine an dindomethacin on mammary fumor promotion in rats fed high n-3 and/or n-6 fat dietss [published erratum appears in Cancer Res 1989 Sep 1;49(17):4946].  Cancer Res 1989;49:1434-1440

37.	Aksoy M; Berger MR; Schmahol D.  The influence of different levels of dietary fat on the incidence and growth of MNU-induced mammary carcinoma in rats.  Nutr Cancer 1987;9:227-235

           -- Fat sources unknown

121.	Aksoy M; Berger MR.  Differential relationship of vitamin A an dE levels in methylnitrosourea-induced Sprague-Dawley rats following prolonged feeding of fatty diets enriched with the vitamins.  J Cancer Res Clin Oncol 1990;116:470-474

	--Diets not in enough detail

118.	Aksoy M; Beth M; Berger MR; Schmahl D.  Effects of different levels of dietary fat on methyl-nitrosourea-induced mammary carcinogenesis in correlation with parameters of fat metabolism in female Sprague-Dawley rats.  Arch Geschwulstforsch 1990;60:109-115

	--Very differnt fiber levels

53.*	Aylsworth CF; Van Vugt Da:  Sylvester PW; Meites J.  Role of estrogen and prolactin in stimulation of carcinogen-induced mammary tumor development by a high-fat diet.  Cancer Res 1984;44:2835-2840

16.*	Aylsworth CF; Jones C; Trosko JE; Meites J; Welsch CW.  Promotion of 7,12 dimethylbenz anthracene-induced mammary tumorigenesis by high dietary fat in the rat:  possible role of intercellular communication.  JNCI 1984;72:637-645

90.*	Aylsworth CF; Cullum ME; Zile MH; Welsch CW.  Influence of dietary retinyl acetate on normal rat mammary gland development and on the enhancement of 7,12-Dimethylbenz anthracene-induced rat mammary tumorigenesis by high levels of dietary fat.  JNCI 1986;76:339-345

36.*	Beth M; Berger MR; V Aksoy M; Schmahl D.  Comparison between the effects of dietary fat level and of calorie intake on methynitrosourea-indicued mammary carcinogenesis in female SD rats.  Int J Cancer 1987;39:737-744

85.*	Beth M; Berger MR; Aksoy M; Schmahl D.  Effect of Vitamin A an dE supplementation to diets containing two differnet fat levels on methylnitrosourea-induced mammary carcinogenesis in female SD-rats.  Br J Cancer 1987;56:445-449

4.*	Boissanneault GA; Elson CE; Pariza MW.  New energy effects of dietary fat on chemically induced mammary carcinogenesis in F344 rats.  JNCI 1986;76:335-338

62.	Boutwell RK; Brush M; Rusch HP.  The stimulating effect of dietary fat on carcinogenesis.  Cancer Res 1949;9:741-74

   	-- Skin tumors

48.	Boylan ES; Cohen LA.  The influence of dietary fat on mammary tumor metastasis in the rat.  Nutr Cancer 1986;8:193-200

	--transplanted tumors

8.*	Braden LM; Carroll KK.  Dietary polyunsaturated fat in relation to mammary carcinogenesis in rats.  Lipids 1986;21:285-288

119.*Bresnick E; Birt DF; Wolterman K; Wheeler M; Markin RS.  Reduction in mammary tumorigenesis in the rat by cabbage and cabbage residue.  Carcinogenesis 1990;11:1159-1163

00.	Brown, RR.  Effects of dietary fat on incidence of spontaneous and induced cancer in mice. Cancer Res 1981; 41:3741-3742.

	--No cancer incidence 

126.*Bunce OR; Abou-El Ela SH.  Eicosanoid synthesis and ornithine decarboxylase activity in mammary tumors of rats fed varying levels and types of N-3 and/or N-6 fatty acids.  Prostaglandine Leukot Essent Fatty Acids 1990;41:105-113

136.	Bunk B; Zhu P; Klinga K; Berger MR; Schmahl D.  Influence of reducing luxury calories in the treatment of experimental mammary carcinoma.  Br J Cancer 1992;65:845-851

	--Only rats with tumors were randomized to the diet groups

157.*Cameron, E; Bland, J. Divergent Effects of omega-6 and omega-3 fatty acids on mammary tumor development in C3H/Heston Mice treated with DMBA. Nutrition Research, 1989; 9: 383-393.

3.*	Carrol KK; Khor HT.  Effects of dietary fat and dose level of 7, 12-dimethylbenz-anthracene on mammary tumor incidence in rats.  Cancer Res 1970;30:2260-2264

45.*	Carroll KK; Khor HT.  Effects of level and type od dietary fat on incidence of mammary tumors induced in female sprague-dawley rats by 7,12-Dimethylbenz anthracene.  Lipids 1971;6:415-420

0.  	Carroll, KK; Hopkins, GJ. Dietary Polyunsaturated Fat Versus Saturated Fat in Relation to Mammary Carcinogenesis. Lipids 1979; 14: 155-158

	--Data same as #26 (see Hopkins, et al)

0.	Carroll, KK; Braden, LM. Dietary Fat and Mammary Carcinogenesis. Nutr Cancer 1985; 6, 254-259.

	--Review, No tumor incidence in new studies.

101.	Carroll KK.  Summation:  which fat/how much fat--animals.  Prev Med 1987;16:510-5

	--Review

38.*	Carroll KK; Noble RL. Dietary fat in relation to hormonal induction of 
	mammary and prostatic carcinoma in Nb rats. Carcinogenisis 1987: 8(6); 851-853.

55.*	Carter CA; Milholland RJ; Shea W; Ip MM.   Effect of prostaglandinsythetase inhibitor indomethacin on 7,12-Dimethylbenz anthracene-induced mammary tumorigenesis in rats fed different levels of fat.  Cancer Res 1983;43:3559-3563

115.*Carter CA; Ip MM; Ip C.  A comparison of the effects of the prostaglandin synthesis inhibitors indomethacin and carprofen on 7,12-dimethylbenz [a] anthracene-induced mammary tumorigenesis in rat fed different amounts of essential fatty acid.  Carcinogenesis 1989;10:1369-1374

00.	Cave, WT; Dunn, JT; MacLeod, RM. Effects of iodine defficiency and high-fat diet on N-nitrosonethylurea-induced mammary cancers in rats. Cancer Res 1979; 39:729-734.

	--Different levels of iodine in the different diet groups.

00.	Cave, WT; Erickson-Lucas, MJ. Effects of dietary lipids on lactogenic hormone receptor binding in rat mammary tumors. JNCI, 1982 ; 68: 319-324.

	-- No incidence.

59.	Cave, WT; Jurkowski JJ.  Dietary lipid effects on the growth, membrane composition, and prolactin-binding capacity of rat mammary tumors.  JNCI 1984;73:185-191

	--design of study not clear (when were animals without tumors sacrificed)
 
0.	Cave, WT. Dietary n-3 polyunsaturated fatty acid effects on animal tumorigenesis. FASEB J 1991; 5: 2160-2166.

	--Review

57.*	Chan Po-Chuen; Cohen LA.  Effect of dietary fat, antiestrogen, and antiprolactin on the development of mammary tumors in rats.  J Natl Cancer Inst 1974;52:25-30

56.*	Chan PO-Chuen; Head JF; Cohen LA; Wynder EL.  Influence of dietary fat on the induciton of mammary tumors by N-Nitrosomethylurea;  associated hormone changes and differences between sprague-dawley and F344 rats.  J Natl Cancer Inst 1977;59:1279-1283

2.*	Chan PC; Dao TL.  Enhancement of mammary carcinogenesis by a high-fat diet in fischer, long-evans, and sprague-dawley rats.  Cancer Res 1981;41:164-167

23.*	Chan P-Chuen; Ferguson KA; Dao TL.  Effects of different dietary fats on mammary carcinogenesis.  Cancer Res 1983;43:1079-1083

80.*	Chan P; Dao T.  Effects of dietary fat on age-dependent sensitivity to mammary carcinogenesis.  Cancer Letters 1983;18:245-249

00. 	Chen, RF; Good RA; Engelman RW; Hamada N; Tanaka A; Nonoyama M; Day NK. Suppression of mouse mammary tumor proviral DNA and protooncogene expression: association with nutritional regulation of mammary tumor development. Proc Natl Acad Sci 1990; 87(7):2385-2389.

	--Same data as #162 (Engelman et al)

167.*Chevalier, S; Tuchweber, B; Bhat, PV; Lacroix, A. Dietary Restriction reduces the incidence of NMU-induced mammary tumors and alters retinoid tissue concentrations in rats. Nutr Cancer 1993; 20: 187-196.

54.*	Clinton SK; Imrey PB; Alster JM; Simon J:  Truex R; Visek WJ.  The combined effects of dietary protein and fat on 7,12 Dimethylbenz anthracene-induced breast cancer in rats.  J Nutr 1984;114:1213-1223

72.*	Clinton SK; Mulloy AL; Visek WJ.  Effects of dietary lipid saturation on prolactin secretion, carcinogenesis in rats.  J Nutr 1984;114:1630-1639

	--??I can't figure out why this was excluded??

81.*	Clinton SK; Alster JM; Imrey PB; Nandkumar S; Truex CR; Visek WJ.  Effects of dietary protein, fat and energy intake during an initiation phase study of 7,12-Dimethylenz anthracene-induced breast cancer rats.  J Nutr 1986;116:2290-2302

107.*Clinton SK; Alster JM; Imrey PB; Simon J; Visek WJ.  The combined effects of dietary proein and fat intake during the promotion phase of 7,12-dimethylbenz (a) anthracene-induced breast cancer in rats.  J Nutr 1988;118:1577-1585


63.*	Cohen LA; Chan PC; Wynder EL.  The role of a high-fat diet in enhancing the development of mammary tumors in ovariectomized rats.  Cancer 1981;47:66-71

99.	Cohen LA; Chan P.  Dietary cholesterol and experimental mammary cancer development.  Nutr Cancer 1982;4:99-106

154.    Cohen, LA; Thompson, YM; Maeura, Y; Weisburger, JH. Influence of Dietary Medium-Chain Triglycerides on the Development of N-Methylnitrosourea-induced Rat Mammary Tumors. Cancer Research 1984; 44:5023-5028.

	--Same Data as Article #47

7.*	Cohen LA; Choi K; Weisburger JH; Rose DP.  Effect of varying proportions of dietary fat on the development of N-Nitrosomethylurea-induced rat mammary tumors.  Anticancer Res 1986;6:215-218

17.*	Cohen LA; Thompson DO; Maeura Y; Choi K; Blank ME; Rose DP.  Dietary fat and mammary cancer.  I. promotion effects of different dietary fats on N-Nitrosomethylurea-induced rat mammary tumorigenesis.  JNCI 1986;77:33-42

51.	Cohen LA.  The fat effect on N-nitrosomethylurea (NMU)-induced rat mammary carcinogenesis:  inhibition by (a) voluntary energy expenditure and (b) caloric restriction (meeting abstract). Proc Annu Meet Am Assoc Cancer Res 1987; 28:155.  

	-- Insufficient data. No number of animials in each group.

103.	Cohen LA.  Fat and endocrine-responsive cancer in animals.  Prev Med 1987;16:468-474

	--Data already in Database (see articles 7, Cohen, et al, 17, Cohen, et al)

47.*	Cohen LA; Thompson DO.  The influence of dietary medium chain triglycerides on rat mammary tumor development.  Lipids 1987;22:455-461

105.*Cohen LA; Choi KW; Wang CX.  Influence of dietary fat, caloric restriction, and voluntary exercise on N-nitrosomethylurea-induced mammary tumorigenesis in rats.  Cancer Res 1988;48:4276-4283

128.	Cohen LA; Choi K; Backlund JY; Harris R; Wang CX.  Modulation of N-nitrosomethylurea induced mammary tumorigenesis by dietary fat and voluntary exercise.  In Vivo 1991;5:333-344

	--Data is the same as article #105

129.*Cohen LA; Kendall ME; Zang E; Meschter C; Rose DP.  Modulation of N-nitrosomethylurea-induced mammary tumor promotion by dietary fiber and fat [see comments].  J Natl Cancer Inst 1991;83:496-501

173. *Cohen, LA; Chen-Backlund, J-Y; Sepkovic, DW; Sugie, S. Effect of varying proportions of dietary menhaden and corn oil on experimental rat mammary tumor promotion. Lipids 1993; 28: 449-456.

71.	Conybeare G.  Effect of quality and quality of diet on survival and tumor incidence in outbread swiss mice.  Fed Cosmet Toxicol 18:65-75

	-- Did not quantitate mammary tumors

169.*Craig-Schmidt, M; White, MT; Teer, P; Johnson, J; Lane, HW. Menhaden, Coconut, and corn oils and mammary tumor incidence in BALB/c virgin female mice treated with DMBA. Nutr Cancer 1993; 20: 99-106.

19.*	Dao TL; Chan Po-Chuen.  Effect of duration of high fat intake on enhancement of mammary carcinogenesis in rats.  JNCI 1983;71:201-205

00.	Dao, TL; Chan, PC. Hormones and dietary fat as promoters in mammary carcinogenesis. Environ Health Perspect. 1983; 50: 219-225.

	--Review

00.	Davidson, MB; Carroll, KK. Inhibatory effect of a fat free diet on mammary carcinogenesis in rats. Nutr Cancer 1982; 3:207-215.

	--Diets started 8 weeks after DMBA dose.

65.*	Dayton S; Hashinotot S; Wollman J.  Effect of high-oleic and high-linoleic safflower oils on mammary tumors induced in rats by 7,12-Dimethylbenz anthracene.  J Nutr 1977;107:1353-1360

171.*DeWille, JW; Waddell, K; Steinmeyer, C; Farmer, SJ. Dietary fat promotes mammary tumorigenesis in MMTV/v-Ha-ras transgenic mice. Cancer Letters 1993; 69: 59-66.

49.*	Dunning WF; Curtis MR; Maun ME.  The effect of dietary fat and carbohydrate on diethyl-stilbestrol-induced mammary cancer in rats.  Cancer Res 1949;9:354-361

0.	El-Khatib, SM; Cora, EM. Role of High-fat diet in tumorigenesis in C57BL/1 Mice. JNCI 1981; 66:297-301.

	--Diet not in sufficient detail (Mice fed chow.)

162.* Engelman, RW; Day, NK; Chen, R-F; Tomita, Y; Baur-Sardina, I; Dao, ML; Good, RA. Calorie Consumption Level Influences Development of C3H/Ou Breast Adenocarcinoma with Indifference to calorie source. Proc Soc Exp Biol Med 1990; 193: 23-30.

174.* Engelman, RW; Day, NK; Good, RA. Calorie intake during mammary development influences cancer risk: lasting inhibition of C3H/HeOu mammary tumorigenesis by peripubertal calorie restriction. Cancer Res 1994; 54:5724-5730.

34.*   Fernandes G; Yunis EJ; Good RA.  Suppression of adrenocarcinoma by the immunological consepquences of calorie restriction.  Nature 1976;263:504-506

131.* Fischer SM; Conti CJ; Locniskar M; Belury MA; Maldve RE; Lee ML; Leyton J; Slaga TJ; Bechtel DH.  The effect of dietary fat on the rapid development of mammary tumors induced by 7,12-dimethylbenz (a) anthracene in SENCAR mice.  Cancer Res 1992;52:662-666

133.  Fischer SM; Leyton J; Lee ML; Locniskar M; Belury MA; Maldve RE; Slaga TJ; Bechtel DH.  Differential effects of dietary linoleic acid on mouse skin-tumor promotion and mammary carcinogenesis.  Cancer Res 1992;52:2049s-2054s

	--Data same as article #131

109.* Gabriel HF; Melhem MF; rao KN.  Enhancement of DMBA-induced mammary cancer in Wistar rats by unsaturated fat and cholestyramine.  In Vivo 1987;1:303-307

29.*	Gammal EB; Carroll KK; Plunkett ER.  Effects of dietary fat on mammary carcinogenesis by 7,12-dimethylbenz anthracene in rats.  C ancer Res 1967;27:1737-1742

00.	Good, RA; Lorenz, E; Engelman R; Day NK. Experimental approaches to nutrition and cancer: fats, calories, vitamins and minerals. Med Oncol Tumor Pharmacother 1990;7(2-3):183-92.

	--Review

102.	Goodwin PJ; Boyd NF.  Critical appraisal of the evidence that dietary fat intake is related to breast cancer risk in humans.  J Natl Cancer Inst 1987;79:473-485

	--Review

149.* Goshal A; Preisegger KH; Takayama S; Thorgeirsson SS; Snyderwine EG.  Induction of mammary tumors in female Sprague-Dawley rats by the food derived carcinogen.  Carcinogenesis 1994;15:2429-2433

98.	Gridley DS; Kettering JD; Slater JM; Nutter RL.  Modification of spontaneous mammary tumors in mice fed different sources of protein, fat and carhohydrate.  Cancer Lett 1983;19:133-146

	--Very different fiber contents in diets

00.	Habib, NA; Wood, CB; Apostolov, K; Barker, W; et al. Stearoc acid and carcinogenesis. Br J Cancer 1987; 56:455-458.

	--Injected fatty acids.

00. 	Harris, SR; Mehta, RS; Hartle, DK; Broderson, JR; Bunce, OR. Cancer Lett 1994 Nov 25;87(1):9-15.

	--No rats in either group developed tumors

68.*	Hill P; Chan P; Cohen L; Wynder E; Kuno K.  Diet and endocrine-related Cancer.  Cancer 1977;39:1820-1826

156.	Hirose, M; Masuda, A; Ito, N; Kamano,K; Okuyama, H. Effects of dietary perilla oil, soybean oil and safflower oil on 7,12-dimethyllbenz[a]anthracene (DMBA) and 1,2-dimethylhydrazine (DMH)-induced mammary gland and colon carcinogenesis in female SD rats. Carcinogenesis 1990; 11(5):731-735.

	--All diet groups had 100% tumors by the end of the study

41.	Hopkins GJ; West CE; Hard GC.  Effect of dietary fats on the incidence of 7,12-dimethylbenz (a) anthracene-induced tumors in rats.  Lipids 1975;11:328-333

	--Source of fat not given in sufficient detail (~20% of the fat is unknown). Tumor incidence not restricted to mammary tumors.

0. 	Hopkins GJ; Hard GC; West CE.  Carcinogenesis induced by 7,12-dimethylbenz (a) anthracene in C3H-A fB Mice: Influence of different dietary fats. JNCI 1978; 60:849-853.

	--Too many other types of tumors examined. 

26.*	Hopkins GJ; Carroll KK.  Relationship between amount and type of dietary fat in promotion of mammary carcinogenesis induced by 7,12-dimethylbenz anthracene.  JNCI 1979;62:1009-1012

15.*	Hopkins GJ; Kennedy TG; Carrol KK.  Polyunsaturated fatty acids as promoters of mammary carcinogenesis induced in sprague dawley rats by 7,12-dimethylbenz anthracene.  JNCI 1981;66:517-522

110.	Hubbard NE; Erickson KL.  Effect of dietary linoleic acid level on lodgment, proliferation and survival of mammary tumor metastases.  Cancer Letter 1989;44:117-125

	--Transplanted tumors

0.	Hunter, JE; Ip, C; Hollenbach, EJ. Isomeric Fatty acids and tumororigenesis: a commmentary on recent work. Nutr Cancer 1985; 7:199-209.

	--Review

76.	Ip C; Sinha D.  Anticarcinogenic  effect of selenium in rats treated with dimethylbenz anthracene and fed different levels and types of fat. Carcinogenesis (Lond.), 1981; 2: 435-438.

	--Data repeated in #94 (Ip)

97.	IP C.  Modification of mammary cacinogenesis and tissue peroxidation by selenium dificiencey and dietary fat.  Nutr Cancer

	--Control group same as in #78 (Ip, Sinha)

75.	--Same as 97, i.e. the same article was copied twice. 

	--See above

66.*	Ip C; Yip P; Bernardis LL.  Role of prolactin in the promotion of Dimethylbenz antracene-induced mammary tumors by dietary fat.  Cancer Res 1980;40:374-378

9.*	Ip c; Ip M.  Inhibition of mammary tumorigenesis by a reduction of fat intake after carcinogen treatment in young versus adult rats.  Cancer Letters 1980;11:35-42

46.*	Ip C. Ability of dietary fat to overcome the resistance of mature female rats to 7,12-Dimethylbenz anthracene-induced mammary tumorigenesis.  Cancer Res 1980;40:2785-2789

60.	Ip C; Sinha D.  Neoplastic growth of carcinogen-treated mammary transplants as influenced by fat intake of donor and host.  Cancer Lett 1981;11:277-283

	-- Transplanted tumors 

78.*	Ip C ; Sinha DK.  Enhancement of mammary tumorigenesis by dietary selenium deficiency in rats with high polyunsaturated fat intake.  Cancer Res 1981;41:31-34

94.*	Ip C. Factors influencing the anticarcinogenic efficacy of selenium in dimethylbenz anthracene-induced mammary tumorigenesis in rats.  Cancer Res 1981;41:2683-2686

52.*	Ip C; Ip MM. Serum Estrogens and estrogen responsiveness in 7,12-Dimethylbenz antracene-induced mamary tumors as influenced by dietary fat.  JNCI  1981;66:291-295

158.	Ip, C. Modification of Mammary Carcinogenesis an tissue peroxidation by selenium deficency and dietary fat. Nutr Cancer 1981; 2:136-142.

	--Control Group also used in #78 (Ip, Sinha)

0.	Ip C. Dietary vitamin E intake and mammary carcinogenesis in rats. Carcinogenesis 1982; 3(12): 1453-1456.

	-- Vitamin E added to all groups. (Just 25%  stripped corn oil vs. 5% stripped corn oil, at different vitamin E levels.)

1.*	Ip c; Carter CA; Ip MM.  Requirement of essential fatty acid for mammary turmorigenesis in the rat.  Cancer Res 1985;45:1997-20001

43.*	Ip C; White G.  BCG-modulated mammary carcinogenesis is dependent on the schedule of immunization but is not affected by dietary fat.  Cancer Letters 1986;31:87-96

96.	Ip C.  Fat essential fatty acid in mammary carcinogenesis.  Am J Clin Nutr 1987;45:218-224

150.    Ip C. Quantitative Assessment of Fat and Calorie as Risk Factors in Mammary Carcinogenesis in an Experimental Model. Recent Progress in Research on Nutrition and Cancer 1990: 107-117.

	--Tumor incidence data not present. tumor yeild is not incidence, see Fig 4

145.	Ip C.  Controversial issues of dietary fat and experimental mammary carcinogenesis.  Prev Med 1993;22:728-737		

	--Mostly review, for new study diets not in enough detail

00. 	Ip, C; Scimeca, JA;Thompson, HJ. Conjugated linoleic acid. A powerful anticarcinogen from animal fat sources. Cancer 1994 Aug 1;74(3 Suppl):1050-4.

	--Review. 

00.    	Istfan, NM; Wan, JM; Bistrial, BR; Chen, ZY. Cancer Lett 1994; Nov 11;86(2):177-86.

	--Transplanted tumors

108.	Jacobson EA; James KA; Frei JV; Carroll KK.  The effects of dietary fat on long-term growth and mammary tumorigenesis in female Sprague-Dawley rats given a low dose of DMBA.  Nutr Cancer 1988;11:221-227

	--Does not explicitly give the number of animals at risk

172.* Jacobson, EA; James, KA; Newmark, HL; Carroll, KK. Effects of dietary fat, calcium, and vitamin D on growth and mammary tumorigenesis induced by 7,12-Dimethylbenz(a)anthracene in female Sprague-Dawley rats. Cancer Res 1989; 49: 6300-6303.

33.*	Jurkowski JJ; Cave Jr WT.  Dietary effects of menhaden oil on the growth and membrane lipid composition of rat mammary tumors.  JNCI 1985;74:1145-1150

20.	Kalamegham R; Carroll KK.  Reversal of Promotional Effect of high-fat diet on mammary tumorigenesis by subsequent lowering of dietary fat.  Nutr Cancer 1984;6:22-31

	--Diets began 8 weeks after DMBA administration

112.* Kamano K; Okuyama H; Konishi R; Nagasawa H.  Effects of a high-linoleate and a high-alpha- linolenate diet on spontaneous mammary tumourigenesis in mice.  Anticancer Res 1989;9:1903-1908

25.	Karmali R; Marsh J; Fuchs C.  Effect of Omega-3 fatty acids on growth of a rat Mammary tumor.  JNCI 1984;73:457-461

	--No incidence data.

151.    Karmali, RA. Eicosanoids in neoplasia. Prev Med 1987; 16:493-502.

	--Review. No  incidence data.

153.*  Karmali, RA; Donner, A; Gobel, S; Shimamura, T. Effect of n-3 and n-6 Fatty Acids on 7,12 Dimethylbenz(a)anthracene-induced mammary tumorigenesis. AntiCancer Research 1989; 9:1161-8. 

70.*	Katsuda Y.  Effect of semisynthetic diets containing various amounts of corn oil upon development of DMBA-induced mammary cancer.  J Kansai Med Univ 1981;33:360-379

143.	Kendall ME; Cohen LA.  Effect of dietary fiber on mammary tumorigenesis, estrogen metabolism, and lipid excretion in female rats.  In Vivo 1992;6:239-245

	--Same data as #129 (Cohen, et al)

27.	King MM; Bailey DM; Gibson DD; Pitha JV; McCay PB.  Incidence and growth of mammary tumors induced by 7,12-dimethylbenz [a] anthracene as related to the dietary content of fat and antioxidant.  JNCI 1979;63:657-663

	--Same Data as #100 (McCay et al) (which is also #40)

0.	King,MM; McCay, PB. Modulation of Tumor Incidence and Possible Mechanisms of Inhibition of Mammary Carcinogenesis by Dietary Antioxidants. Cancer Res (Suppl) 1983; 43: 2485s-2490s.

	--Same data as article # 27 (King, et al)

148.	Kitagawa H; Noguchi M.  Comparative effects of piroxicam and esculetin on incidence, proliferation, an cell kinetics of mammary carcinomas induced by 7,12-dimethylbenz [a] anthracene in rat on high- and low-fat diets.  Oncology 1994;51:401-410.

	--Very different fiber values. 
 
32.	Klurfeld DM; Weber MM; Kritchevsky D.  Comparison of dietary carbohydrates for promotion of DMBA-induced mammary tumorigenesis in rats

	--Experiment on dietary carbohydrates not fats

5.	Klurfeld DM; Weber MM; Kritchevsky D. Inhibition of Chemically induced mammary and colon tumor promotion by caloric restriction in rats fed increased dietary fat.  Cancer Res 1987;47:2759-2762

	--Same data as article #6 (Kritchevsky, et al)

00. 	Klurfeld, Lloyd, Buck, Davis, Tulp, Kritchevsky (1987) Fed Proc 46:436.
  
	--Not enough detail on the fat.

113.	Klurfeld DM; Welch CB; Lloyd LM; Kritchevsky D.  Inhibition of DMBA-induced mammary tumorigenesis by caloric restriction in rats fed high-fat diets.  Int J Cancer 1989;43:922-925

	--Same Data as #6 (Kritchevsky, et al)

159. 	Klurfeld, DM; Welsch, CB; Davis, MJ; Kritchevsky, D. Determination of Degree of Energy Restriction Necessary to Reduce DMBA-Induced Mammary tumororigenesis in rats during the promotion phase. J Nutr 1989; 119:286-291.

	--Same Data as #11 (Ruggeri, et al)

176.* Klurfeld, DM; Lloyd, LM; Welch, CB; Davis, MJ; Tulp, OL; Kritchevsky, D. Reduction of enhanced mammary carcinogenesis in LA/N-cp (corpulent) rats by energy restriction. Proc Soc Exp Biol Med 1991; 196: 381-384.
 
82.	Kollmorgen GM; King MM; Lehman AA; Fischer Gerhard; Longley RE; Daggs BJ; Sansing WA.  The methanol extraction residue of bacillus calmette-guerin protects against 7,12-dimethylbenz(a)anthracene-induced rat mammary carcinoma (40693).  Proceedings of the Society for Experimental Biology and Medicine 162, 410-415 (1979)

	--Data look for control group looks the same as  #165 (Kollmorgen, et al)

165.* Kollmorgen, GM; Sansing, WA; Lehman, AA; Fischer, G; Longley, RE; Alexander, SS Jr; King, MM; McCay, PB. Inhibition of Lymphocyte Function in Rats Fed High-Fat Diets. Cancer Res 1979; 39: 3458-3462.

77.*	Kollmorgen GM; King MM; Roszel JF; Daggs BJ; Longley RE.  The influence on dietary fat and non-specific immunotherapy on carcinogen-induced rat mammary adenocarcinoma.  Vet Pathol 1981;18:82-91

166.	Kort, WJ; Zondervan, PE; Hulsman, LOM; Weijma, IM; Hulsmann, WC; Westbroek, DL. Spontaneous Tumor Incidence in Female Brown Norway Rats After Lifelong Diets High and Low Linoleic Acid. JNCI 1985; 74:529-536.

	--Too many other competing cancers

138.	Kristiansen E; Madsen C; Meyer O; Roswall K; Thorup I.  Effects of high-fat diet on incidence of spontaneous tumors in Wistar rats.  Nutr  Cancer 1993;19:99-110

	-- Too many different types of tumors

12.	Kritchevsky D; Weber MM; Klurfeld DM.  Dietary fat versus caloric content in initiation and promotion of 7,12-dimethylbenz anthracene-induced mammary turmorigenesis in rats.  Cancer Res 1984;44:3174-3177

	--Very different fiber contents in diets

6.*	Kritchevsky D; Weber MM; Buck CL; Klurfield DM.  Calories, fat and cancer.  Lipids 1986;21:272-274

160. * Kritchevsky, D; Welsch, CB; Klurfeld, DM. Response of Mammary tumors to caloric restriction for different time periods during the promotion phase. Nutr Cancer 1989; 12:259-269.

122.	Kritchevsky D.  Influence of caloric restriction and exercise on tumorigenesis in rats.  Proc Soc Exp Biol Med 1990;193:35-38

	--Review

123.* Kumaki T; Noguchi M.  Effects of high dietary fat on the total DNA and receptor contents in rats with 7,12-dimethylbenz [a] anthracene-induced mammary carcinoma.  Oncology 1990;47:352-358

84.*	Lane HW; Butel JS; Howard C; Shepherd F; Halligan R; Medina.  The role of high levels of dietary fat in 7,12Dimethylbenzanthracene-induced mouse mammary tumorigenesis: lack of an effect on lipid peroxidation.  Carcinogenesis 1985;6:403-407

170.	Lane, HW; Teer, P; Keith, RE; White, MT; Strahan, S. Reduced energy intake and moderate exercise reduce mammary tumor incidence in virgin female BALB/c mice treated with 7,12-Dimethylbenz(a)anthracene. J Nutr 1991; 121: 1883-1888.

	--There is considerable ambiguity about the total kcal/day (see log)

0.	Lane, HW; Teer, P; Keith, RE; Strahan, S; White, MT.  The effect of diet, exercise and  7,12-Dimethylbenz(a)anthracene on food intake, body composition and carcass energy levels in virgin female BALB/c mice. J Nutr 1991; 121: 1876-1882.

	--Same animals as #170, gives different info.

161.* Lasekan, JB; Clayton, MK; Gendron-Fitzpatrick, A; Ney, DM. Dietary olive and safflower oils in promotion of DMBA-induced mammary tumorigenesis in rats. Nutr Cancer 1990; 13:153-163.

00.	Lasekan, JB; Ney, DM. Mammary tumor lipids and plasma lipoproteins in DMBA-intubated rats fed olive and safflower oils. Nutr Cancer 1990; 14(2):117-126.

	--No incidence. (Probably reported in #162?) 

87.	Lavik PS; Baumann CA. Further studies on the tumor-promoting action of fat.  Cancer Res 1943;3:749-756

	--Most tumors skin not mammary

64.	Lee SY; Rogers AE.  Dimethylbenzanthracene mammary tumorigenesis in Sprague-Dawley rats fed diets differing in content of beef tallow or rapeseed oil.  Nutr Res 1983;3:361-371

	--Incidence from Table 2 does not match with incidence from Figure 1.

00.	Leung, FC, Aylsworth, CF; Meltes, J. Counteraction of underfeeding-induced inhibition of mammary tumor growth in rats by prolactin and estrogen administration. Proc Soc Exp Biol Med 1983; 173:159-163.

	--No incidence.

146.* Li HW; Zhao W; Sarkar NH.  Dietary regulation of mammary tumorigenesis in RIII/Sa mice:  investigation of a possible mechanism.  Cancer Lett 1994;79:199-211

100.	McCay PB; King MM; Pitha JV.  Evidence that the effectiveness of antioxidants as inhibitors of 7,12-dimethylbenz(a)anthracene-induced mammary tumors is a function of dietary fat composition.  Cancer Res 1981;41:3745-3748

40.	--Same Article as #100. (Copied twice) O.K. since #40 is not in database.

114.	McCormick DL; Spicer AM; Hollister JL.  Differential effects of tranylcypromine and imidazole on mammary carcinogenesis in rats fed low and high fat diets.  Cancer Res 1989;49:3168-3172

	--Very different fiber content in diets

142.* Mehta RS; Harris SR; Gunnett CA; Bunce OR; Hartle DK.  The effects of patterned calorie-restricted diets on mammary tumor incidence and plasma endothelin levels in DMBA-treated rats.  Carcinogenesis 1993;14:1693-1696

0.	Mizukami, Y; Nonomura, A; Noguchi, M; Taniya, T; Thomas, M; Nakamura, S; Miyazaki, I.  Effects of High and Low Dietary fat and indomethacin on tumor growth, hormone receptor status and growth factor expression in DMBA-induced rat breast cancer. Int J Tiss Reac 1992; XIV(6): 269-276.

	--Number of rats at risk not given.

00.	Moore, C; Tittle, PW. Muscle activity, body fat, and induced rat mammary tumors. Surgery 1973; 73:329-332.

	--Exercise experiment.

141.* Nakayama M; Ju HR; Sugano M; Hirose N Ueki T; Doi F; Eynard AR.  Effect of dietary fat and cholesterol on dimethylbenz [a] - anthracene-induced mammary tumorigenesis in Sprague-Dawley rats.  Anticancer Res 1993;13:691-698

124.	Noguchi M; Kumaki T; Taniya T; Koyasaki N; Miyazaki I.  [Effect of high dietary fat on the total DNA and receptor contents in rats with 7,12-dimethylbenz [A] anthracene-induced mammary carcinoma].  Nippon Geka Gakkai Zasshi 1990;91:1603-1607

	--Data same as article #123 (Kumaki, et al)

127.	Noguchi M; Taniya T; Koyasaki N; Kumaki T; Miyazaki I; Mizukami Y.  Effects of the prostaglandin synthetase inhibitor indomethacin on tumorigenesis, tumor proliferation, cell kinetics, and receptor contents of 7,12-dimethylbenz (a) anthracene-induced mammary carcinoma in Sprague-Dawley rats fed a high- or low-fat diet.  Cancer Res 1991;51:2683-2689

	--Very different levels of fiber

137.	Noguchi M; Ohta N; Kitagawa H; Earashi M; Thomas M; Miyazaki I; Mizukami Y.  Effects of switching from a high-fat diet toa low-fat diet on tumor proliferation and cell kinetics of 7,12-dimethylbenz (a) anthracene-induced mammary carcinoma in rats.  Oncology 1992;49:246-25

	--Very different fiber values.

140.	Noguchi M; Ohta N.  Influences of high dietary fat and/or indomethacin on tumor proliferation and cell kinetics of 7,12-diemthylbenz (a) anthracene-induced mammary carcinomas in rats.  In Vivo 1993;7:53-57

	--High fat diet also high fiber, low fat diet also low fiber

144.	Noguchi M; Kitagawa H; Miyazaki I; Mizukami Y.  Influence of esculetin on incidence, proliferation, and cell kinetics of mammary carcinomas induced by 7,12-dimethlbenz [a] anthracene in rats on high- and low-fat diets.  Jpn J Cancer Res 1993;84:1010-1014

	--High fat diet also high fiber, low fat diet also low fiber

95.*	Olson LM; Clinton SK; Everitt JI; Johnston PV; Visek WJ.  Lymphocyte activation cell-mediated cytotoxicity and their relationship to dietary fat-enhanced mammary tumorigenesis in C3H/OUJ mice.  J Nutr 1987;117:955-963

67.*	Oyaizu N; MoriiS; Saito K; Katsuda Y; Matsumoto J.  Mechanism of growth enhancement of 7,12-Dimethylbenz anthracene-induced mammary tumors in rats given high polyunsaturated fat diet.  Jpn J Cancer Res 1985;76:676-683

168.* Parenteau, H; Ho, T-FL; Eckel, LA; Carroll, KK. Effects of a long-chain fatty amine on mammary carcinogenesis induced in female Sprague-Dawley rats by DMBA. Nutr Cancer 1992; 17:235-241.

104.	Pariza MW.  Dietary fat, calorie restricition, ad libitum feeding, and cancer risk.  Nutr Rev 1987;45:1-7

	--Review

152.    Pariza, MW. Fat, calories, and mammary carcinogenesis: net energy effects. Am J Clin Nutr 1987;45:261-3.

	--Data same as #4 (Boissanneault, et al)

0.	Pennycuik, PR; Fogerty, AC; Willcox, ME; Ferris, MC; Baxter, RI; Johnson, AR; Aust J Biol Sci 1979; 32:309-316.

	--diet no given in enough detail. (diet based on  "conventional foodstuffs", e.g. beef, lamb, milk, cheese)

00. 	Pollard, Luckert (1985) JNCI 74:1347-1349. 
   
	--Mostly colon cancer. 

30.	Rao GA; Abraham S.  Brief Communication:  Enhanced growth rate of transplanted mammary adenocarcinoma induced in C3H mice by dietary linoleate.  JNCI 1976;56:431-432

	--transplanted tumors

0.	Rao, GN; Hasseman, JK. Influence of Corn Oil and Diet on Body Weight, Survival, and Tumor Incidences in F344/N Rats. Nutr Cancer 1993; 19: 21-30.

	--Only control groups. Not groups with different fat intake. (6100 rats).

86.*	Rogers AE; Wetsel WC.  Mammary Carcinogenesis in rats fed differenct amounts and types of fat.  Cancer Res 1981;41:3735- 3737

10.*	Rogers AE; Conner, B;  Boulanger CC; Lee S.  Mammary turmorigenesis in rats fed diets high in lard.  Lipids 1986;21:275-280

00. 	Rogers, AE; Lee, SY. Chemically-induced mammary gland tumors in rats: modulation by dietary fat. Prog Clin Biol Res 1986; 222:255-282.

	--Review

00. 	Rose, DP; Connolly, JM; Meschter, CL. Effect of dietary fat on human breast cancer growth and lung metastasis in nude mice. JNCI 1991 Oct 16; 83(20):1491-5.

	--Transplanted tumors

11.*	Ruggeri BA; Klurfeld DM; Kritchevsky D.  Biochemical alterations in 7,12-dimethyllbenz anthracene-induced mammary tumors from rats subjects to caloric restriction.  Biochemica et biophysica acta 1987;929:239-246

164.* Ruggeri, BA; Klurfeld, DM; Kritchevsky, D; Furlanetto, RW. Calorie Restriction and 7,12-Dimethylbenz(a)anthracene-induced mammary tumor growth in rats: Alterations in Circulating Insulin, Insulin-like growth factors I and II, and epidermal growth factor.  Cancer Res 1989; 49: 4130-4134.

00.	Ruggeri, BA; Klurfeld, DM; Kritchevsky, D; Furlanetto, RW. Growth factor binding to 7,12-Dimethylbenz(a)anthracene-induced mammary tumors from rats subject to chronic caloric restriction. Cancer Res 1989; 49: 4135-4141.

	--No incidence. Same animals as #164 above.

0.	Sandstrom, R; Gelin, J; Lundholm, K. The effect of indomethacin on food and water intake, motor activity and survival in tumor-bearing rats. Eur J Cancer 1990; 26(7): 811-814.

	--transplanted tumors.

42.*	Sarkar NH; Fernandes G; Telang NT; Kourides IA; Good RA.  Low-calorie diet prevents the development of mammary tumors in C3H mice and reduces circulating prolactin level, murine mammary tumor virus expression, and proliferation of mammary alveolar cels.  Proc Natl Acad Sci 1982;79:7758-7762

18.*	Selenskas Sl; Ip MM; Ip C.  Similarity between trans fat and saturated fat in the modification of rat mammary carcinogenesis.  Cancer Res 1984;44:1321-1326

117.* Shao RP; Dao ML; Day NK; Good RA.  Dietary manipulation of mammary tumor development in adult C3H/Bi mice.  Proc Soc Exp Biol Med 1990;193:313-317

73.*	Silverman J; Shellabarger CJ; Holtzman S; Stone JP; Weisburger JH.  Effect of dietary fat on X-ray-induced mammary cancer in sprague-dawley rats JNCI 1980;64:631-634

111.* Silverman J; Powers J; Stromberg P; Pultz JA; Kent S.  Effects on C3H mouse mammary cancer of changing from a high fat to a low fat diet before, at, or after puberty.  Cancer Res 1989;49:3857-3860

21.*	Silverstone H; Tannenbaum A.  The effect of the proportion of dietary fat on the rate of formation of mammary carcinoma in mice.  Cancer Res 448-453

0.	Sinha, DK, Gebhard, RL; Pazik, JE. Inhibition of mammary carcinogenesis in rats by dietary restriction. Cancer Letters 1988; 40:133-141.

	--diet no given in enough detail.

69.*	Sugihara H.  Suppression of growth of DMBA-induced mammary cancers in female rats fed on coconut oil diets.  J Kansai Med Univ 1974;26:72-88

155.* Sundram, K; Khor, HT; Augustune, SHO; Pathmanathan, R. Effect of Dietary Palm Palm Oils on Mammary Carcinogenesis in Female Rats Induced by 7,12-Dimethylbenz(a)anthracene. Cancer Research 1989; 49:1447-1451.

61.	Sylvester PW; Aylsworth CF; Meites J.  Relationship of hormones to inhibition of mammary tumor development by underfeeding during the critical period after carcinogen administration.  Cancer Res 1981;41:1384-1388

	--diet not in sufficient detail (fed chow)


0.	Sylvester, PW; Aylsworth, CF; Van Vugt, DA; Meites, J. Influence of underfeeding during the "critical period" or thereafter on carcinogen-induced mammary tumors in rats. Cancer Res 1982, 42: 4943-4947.

	--diet not in sufficient detail (fed chow)

24.*	Sylvester PW; Ip C; Ip MM.  Effects on high dietary fat on the growth and development of ovarian-independent carcinogen-induced mammary tumors in rats.  Cancer Res 1986;436:763-769

31.*	Sylvester PW; Russell M; Ip MM; Ip C.  Comparative effects of different animal and vegetable fats fed before and during carcinogen administration on mammary tumorigenesis, sexual maturation, and endocrine function in rats.  Cancer Res 1986;46:757-762

120.* Takata T; Minoura T; Takada H; Sakaguchi M; Yamamura M; Hicki K; Yamamoto M.  Specific inhibitory effect of dietary eicosapentaenoic acid on N-nitroso-N-methylurea-induced mammary carcinogenesis in female Sprague-Dawley rats.  Carcinogenesis 1990;11:2015-9

39.	Tannebaum A; Silverstone H.  The influence of the degree of caloric restriction on the formation of skin tumors and hepatomas in mice.  Cancer Res 724-727

	--Skin tumors  and Hepatomas not mammary tumors

88.*	Tannenbaum A.  The initiation and growth of tumors.  Am J Cancer 1940;38:335-350

35.*	Tannenbaum A.  The genesis and growth of tumors III.  Effects of a high-fat dietary.  Cancer Res 1942;2:468-475

92.*	Tannebaum A.  The genesis and growth of tumors.  Cancer Res 1942;2:460-467

91.*	Tannebaum A.  The dependence of tumor formation on the composition of the caloric-restricted diet as well as on the degree of restriction.  Cancer Res 1945;5:616-625

89.*	Tannenbaum A.  The dependence of tumor formation on the degree of caloric restriction.  Cancer Res 1945;5:609-615

14.	Thompson HJ; Meeker D; Tagliaferro AR; Roberts JS.  Effect of energy intake on the promotion of mammary carcinogenesis by dietary fat.  Nutr Cancer 1985;7:37-41

	--Different design. Restricted for 17 weeks then ad lib 17-32 weeks.

50.*	Thompson HJ; Ronan AM; Ritacco KA; Tagliaferro AR; Meeker LD.  Effect of exercise on the induction of mammary carcinogenesis.  Cancer Res 1988;48:2720-2723

00.	Thompson, HJ; Ronan, AM; Ritacco, KA; Tagliaferro, AR. Effect of type and amount of dietary fat on the enhancement of rat mammary tumorigenesis by exercise. Cancer Res. 1989; 49:1904-1908.

	--Exercise forced for all rats.

93.*	Tinsley IJ; Schmitz JA; Pierce DA.  Influence of dietary fatty acids on the incidence of mammary tumors in the C3H mouse.  Cancer Res 1981;41:1460-1465

13.	Tucker MJ.  The effect of long-term food restriction on tumors in rodents.  Int J Cancer 1979;23:803-807

	--Fat content unclear. Fed barley, oats, etc.

44.*	Visscher MB; Ball ZB; Barnes RH; Sivertsen I.  The influence of caloric restriction upon the incidence of spontaneous mammary carcinoma in mice.  Surgery; 48-55

58.*	Wagner DA; Naylor PH; Kim U; Shea W; Ip C; Ip MM.  Interaction of dietary fat and the thymus in the induction of mammary tumors by 7,12-Dimethylbenz anthracene.  Cancer Res 1982;42:1266-1273

135.	Walker BE.  No effect of adult dietary fat on tumors induced prenatally by diethylstilbestrol.  Nutr Cancer 1992;17:161-169

	--Some of the mice became pregnant

00.	Walker, BE. Tumors in Female Offspring of Control and diethylstilbestrol-exposed mice fed high-fat diets. JNCI 1990; 82: 50-54.

	-- Different diets in mothers. Incidence in offspring.

163.	Watanabe, M; Sugano, M. Effects of dietary cis- and trans-monene fats on 7,12-dimethylbenz[a]anthracene-induced rat mammary tumors. Nutr Rept Intl 1986; 33: 163-169.

	--There is no difference between the fatty acid compositions except trans vs. cis.

28.	Waxler SH; Brecher G; Beal SL.  The effect of fat-enriched diet on the incidence of spontaneous mammary tumors in obese mice.  Proceedings of the Society for Experimental Biology and Medicine 1979; 162, 365-368

	--Diet not in sufficient detail (fed chow).

74.*	Welsch CW; Dehoog JV.  Influence of caffeine consumption on 7,12-dimethylbenz (a) anthracene-induced mammary gland tumorigenesis in female rats fed a chemically defined diet containing standard and high levels of unsaturated fat.  Cancer Res 1988;48:2074-2077

125.	Welsch CW; House JL; Herr BL; Eliasberg SJ; Welsch MA.  Enhancement of mammary carcinogenesis by high levels of dietary fat:  a phenomenon dependent on ad libitum feeding [see comments].  J Natl Cancer Inst 1990;82:1615-1620

	--Tumor incidence data is not given

132.	Welsch CW.  Relationship between dietary fat and experimental sammary tumorigenesis:  a review and critique.  Cancer Res 1992;52:2040s-2048s

	--Review

147.	Welsch CW.  Interrelationship between dietary lipids and calories  and experimental mammary gland tumorigenesis.  Cancer 1994;74:1055-1062

	--Review 

83.	Wetsel WC; Roger AE; Newberne PM.  Dietary fat and DMBA mammary carcinogenesis in rats.  Cancer Det and Prev 1981;4:535-543

	--Possibly this is the same data as #86 (Rogers, et al)

22.*	White FR; White J; Mider GB; Kelly MG; Heston WE; David PW.  Effect of caloric restriction on mammary-tumor formation in stain C3H mice and on the response of strain DBA to painting with methylcholantrene.  JNCI 43-48

175.* Williams, CM; Maunder, K. The influence of dietary fatty acid on N-ethyl-N-nitrosourea-induced mammary tumor incidence in the rat and on the composition of inositol- and ethanolamine-phospholipids of normal and tumor mammary tissue. Brit J Nutr 1994; 71: 543-552.


0.	Yanagi, S, et al. Effects of margarine on hepatocarcinogenesis... Oncology 1984; 41:101-105.

	--Copied for basal diet of #130,139.

0.	Yanagi, S; Yamashita, M; Sakamoto, M; Kumazawa, K; Imai, S. Comparative effects of butter, margarine, safflower oil and dextrin on mammary tumorigenesis in mice and rats. In "The pharmacological effect of lipids III: Role of lipids in cancer research", Kabara, JJ (editor), 1988.

	--Diet not in enough detail, basal diet fat = "crude fat"
 
130.	Yanagi S; Yamashita M; Tsuyuki M; Morimoto J; Haga S; Imai S.  Milk cream does not enhance 2, 7-dimethylbenz [a] anthracene-induced mammary tumorigenesis.  Cancer Lett 1992;61:141-145

	--Diet not in enough detail, basal diet fat = "crude fat"

139.	Yanagi S; Yamashita M; Imai S.  Sodium Butyrate inhibits the enhancing effect of high fat diet on mammary tumorigenesis.  Oncology 1993;50:201-204

	--Diet not in enough detail, basal diet fat = "crude fat"

134.* Zevenbergen JL; Verschuren PM; Zaalberg J; Van Stratum P; Vles RO.  Effect of the amount of dietary fat on the development of mammary tumors in BALB/c-MTV mice.  Nutr Cancer 1992;17:9-18
