ライフサイエンスコーパス: low-fat diet

1 ed with nuts, or a control diet (advice on a low-fat diet).

2 und, become obese on a high fat but not on a low fat diet.

3 red to striatal slices taken from rats fed a low fat diet.

4 t compared with normal littermates even on a low fat diet.

5 Clps-/- mice had normal intake on a low fat diet.

6 rats upon feeding them a high carbohydrate, low fat diet.

7 eficient in linoleate in all subjects on the low fat diet.

8 ns in plasma glucose and insulin only on the low-fat diet.

9 0.022) after the Mediterranean diet than the low-fat diet.

10 experienced adverse glycemic effects of the low-fat diet.

11 n omega-3-acid ethyl esters in patients on a low-fat diet.

12 genotype by choosing a high-carbohydrate and low-fat diet.

13 cells is evident in eNos(-/-) mice even on a low-fat diet.

14 ich participants followed a Mediterranean or low-fat diet.

15 n Bf(-/-)/Ldlr(-/-) and Ldlr(-/-) mice fed a low-fat diet.

16 celerates AT accumulation even in mice fed a low-fat diet.

17 patitis (NASH) and HCC on a high-fat but not low-fat diet.

18 eflects a positive response to statins and a low-fat diet.

19 e lacking MGAT2 have a normal phenotype on a low-fat diet.

20 reas no effects were seen with a traditional low-fat diet.

21 high-fat diet and those consuming a standard low-fat diet.

22 olesterol concentration improved more on the low-fat diet.

23 intake, as an alternative to a conventional low-fat diet.

24 tal and LDL cholesterol-lowering effect of a low-fat diet.

25 d fat, or for 1 week on a single high-fat or low-fat diet.

26 ificantly (1.53 kg; P < 0.001) only with the low-fat diet.

27 or whole-body metabolism when mice are fed a low-fat diet.

28 erol and higher HDL cholesterol) than does a low-fat diet.

29 with the low-carbohydrate diet than with the low-fat diet.

30 ces insulin responsiveness on a high-starch, low-fat diet.

31 t reduced risk of colon cancer if they eat a low-fat diet.

32 terol concentrations in subjects consuming a low-fat diet.

33 and significantly overestimated for the very-low-fat diet.

34 rcentage) in the lower-fat diet and the very-low-fat diet.

35 sceptibility to induction of this trait by a low-fat diet.

36 igh-fat diet converted to phenotype B with a low-fat diet.

37 in the two soybean oils, coconut oil, and a low-fat diet.

38 a high-fat diet compared with controls fed a low-fat diet.

39 ot alter any of the parameters in mice fed a low-fat diet.

40 g wheel) mainly improved IS in animals fed a low-fat diet.

41 A- or MUFA-enriched high-fat diets (HFDs) or low-fat diet.

42 o 11.0 mg/dL}]; P < 0.001) than those on the low-fat diet.

43 in insulin signal transduction in mice fed a low-fat diet.

44 ardiovascular risk factor reduction than the low-fat diet.

45 ss was observed with any low-carbohydrate or low-fat diet.

46 n diet (WD) fatty acid profile or a standard low-fat diet.

47 ther a healthy low-carbohydrate or a healthy low-fat diet.

48 lower after the high-fat diet than after the low-fat diet.

49 nflammation on a high-fat diet compared to a low-fat diet.

50 responses of different MNS blood types to a low-fat diet.

51 duals after the HSF-DHA diet relative to the low-fat diet.

52 insulin receptor beta (IRbeta) in mice fed a low-fat diet.

53 ficant larger decreases for TT carriers on a low-fat diet.

54 recent reports questioned the superiority of low-fat diets.

55 n some people who exercise regularly and eat low-fat diets.

56 alance methods in animals fed both high- and low-fat diets.

57 HDL cholesterol decreased during both low-fat diets.

58 L subclass phenotype A during both high- and low-fat diets.

59 decrease in HDL cholesterol associated with low-fat diets.

60 livers of ethanol-treated rats fed high- or low-fat diets.

61 nts with type 2 diabetes at least as much as low-fat diets.

62 rate) diet or a calorie- and fat-restricted (low-fat) diet.

63 [CI]: 2.91-4.23) compared with those in the low-fat diet (1.16%; 95% CI: 0.80 to 1.98) with a differ

64 or gene main effects and interactions with a low-fat diet (20% from energy) compared with a high-fat

65 0-46% fat) show less lipoprotein benefits of low-fat diets (20-24% fat) than do men with a high-risk

66 that differed in macronutrient composition (low-fat diet: 20-25% fat, 15% protein, and 60-65% carboh

67 rolled consumption of a high-fructose (HFr), low-fat diet (24% of calories).

68 ts and lifestyle changes, a more traditional low-fat diet (25% fat kcals) with flaxseed supplementati

69 d 50% of energy from carbohydrates) and 2) a low-fat diet (25% of energy from fat and 62% of energy f

70 acids [MUFAs], and <50% carbohydrates) or a low-fat diet (28% fat, 12% MUFAs, and >55% carbohydrates

71 in diet, participants consumed an isocaloric low-fat diet (60% of energy from carbohydrate, 20% from

72 5.33 to 9.25 kg] at 12-month follow-up) and low-fat diets (7.99 kg [95% CI, 6.01 to 9.92 kg] at 6-mo

73 ilon study) in which they were assigned to a low-fat diet, a high-fat high-SFA (HSF) diet, and the HS

74 Compared with a low-fat diet, a low-carbohydrate diet program had better

75 Compared with a low-fat diet, a Mediterranean diet enriched with nuts co

76 , and 10 d of eating a constant high-fat and low-fat diet administered in a crossover design.

77 We then put these mice back on a normal low-fat diet, after which the mice exhibited normal body

78 hese disorders includes a high-carbohydrate, low-fat diet and avoidance of those events that promote

79 Lifestyle modifications (low-fat diet and exercise) were associated with improvem

80 perfusion from 10 to 26 IU/g/h in rats fed a low-fat diet and from 17 to 34 IU/g/h in rats fed a high

81 , have impaired glucose tolerance when fed a low-fat diet and independent of body weight.

82 dulates endothelial function compared with a low-fat diet and is associated with a better balance of

83 Two diets, the Low-Fat diet and the Low-Fat Plus diet, designed to be i

84 in the intestine may sensitize the gut to a low-fat diet and to potential accompanying food-borne to

85 This finding was specific to a low-fat diet and was unrelated to other dietary variable

86 12 taxonomic changes specific to the healthy low-fat diet) and others tracked with weight loss (7 tax

87 He was treated with high-protein and low-fat diet, and supplemental formula high in medium ch

88 not eating snacks, following low-calorie or low-fat diets, and limiting portion sizes.

89 High carbohydrate, low fat diets appear to have a more favorable impact on

90 feeding a fat-free diet, which suggests that low-fat diets are likely to be beneficial in lipodystrop

91 rs for cardiovascular disease exists because low-fat diets are typically recommended.

92 ercentage (-2.6% vs -0.9%; P = .03) than the low-fat diet at 18 months.

93 esult in greater weight loss compared with a low-fat diet at 6 months.

94 tes may be more effective than a high-GI and low-fat diet at reducing body weight and controlling glu

95 bohydrate diets are at least as effective as low-fat diets at reducing weight and improving metabolic

96 Finally, switching from a high-fat to a low-fat diet, attenuates the MYC transcriptional program

97 ental LDL-subclass patterns when consuming a low-fat diet: AxA mating (9 families with 19 children),

98 esterol-lowering diet may be preferable to a low-fat diet because of more favorable effects on the CV

99 Compared with a low-fat diet, both cocoa butter and olive oil HFDs induc

100 glyceride levels significantly in rats fed a low-fat diet, but increased values about 2.4-fold in rat

101 n of the hepatic acyl-CoA pool in mice fed a low-fat diet, but only in males fed a Western diet does

102 While low-carbohydrate and low-fat diets can both lead to weight-loss, a substantia

103 Low-fat diets can increase plasma triacylglycerol and re

104 Ad libitum low-fat diets cause weight loss in nondiabetic populatio

105 The ad libitum low-fat diet caused 6 kg weight loss and decreased highl

106 ectedly, a high-fat, Western-type (but not a low-fat) diet caused death in two-thirds of the beta3-/-

107 previously fasted animals high-carbohydrate, low-fat diets causes a dramatic induction of enzymes-suc

108 ancer rate was 0.42 in those assigned to the low-fat diet compared with 0.46 in the control group (HR

109 insulin resistance, with particular focus on low-fat diets compared with the currently popular low-ca

110 findings, we propose that, especially under low-fat diet conditions, adipose tissue-resident iNKT ce

111 response to feeding of a high carbohydrate, low fat diet, conditions that favor enhanced lipogenesis

112 We showed that iNKT cell-deficient mice on a low-fat diet, considered a normal diet for mice, display

113 A low-fat diet consisted of limited energy intake (1200 to

114 g: 1) a normal low fat (13% kcal) diet, 2) a low fat diet containing n-3 PUFAs, 3) a high fat (41% kc

115 pharmacological inhibition of ACAT2 were fed low fat diets containing various amounts of cholesterol

116 5 weeks of age, groups of animals were fed a low-fat diet containing 5% corn oil (LFCO).

117 corn oil, whereas one group continued on the low-fat diet containing 5% corn oil.

118 weeks of age, groups of animals were fed the low-fat diet containing 5% corn oil.

119 y of evidence from RCTs to determine whether low-fat diets contribute to greater weight loss than par

120 Participants were randomly assigned to a low-fat diet control group or TMD intervention groups [t

121 ented with mixed nuts, or advice to follow a low-fat diet (control group).

122 compared with 10 monkeys fed a low-fructose, low-fat diet (control).

123 mpared to aged-matched control animals fed a low-fat diet, correlating with enhanced alloreactive T c

124 t a high sucrose content in a hypoenergetic, low-fat diet did not adversely affect weight loss, metab

125 le fractured knee joints of mice receiving a low-fat diet did not demonstrate significant differences

126 DIO mice underwent switch to ad libitum low-fat diet (DIO-switch) or caloric restriction (CR) fo

127 Importantly, reversing the maternal HFD to a low-fat diet during a subsequent pregnancy improved feta

128 topics in the field, obesity and the use of low-fat diets early in life, have been the subject of re

129 approximately 1 h/d), eating a low-calorie, low-fat diet, eating breakfast regularly, self-monitorin

130 Refeeding a high carbohydrate/low fat diet enhances fatty acid synthesis by 5- to 20-f

131 B, type I) and apolipoprotein E genes fed a low-fat diet exhibit a constellation of pathologies shar

132 lated from AFABP-KO and WT mice fed high- or low-fat diets exhibited similar rates of basal and norep

133 ith the low-glycemic load diet than with the low-fat diet, expressed in absolute terms (mean [SE], 96

134 In sedentary nondiabetic persons following a low-fat diet, FABP2 Thr54 carriers have lower glucose to

135 mpaired glucose and insulin tolerance in LF (low fat diet)-fed control (AhR(fl/fl)) mice but not in a

136 ice fed a high-fat diet, compared with their low-fat diet-fed counterparts.

137 riatal slices of rats adapted to high fat or low fat diet feeding for 3 days.

138 rol mice were placed on either a high fat or low fat diet for 3.5 months.

139 caused by HFD were rescued by switching to a low fat diet for one month, suggesting a functional role

140 nd non-obese twin pairs consumed recommended low fat diets for 6 weeks before they received a 6-week

141 e of four treatment groups after following a low-fat diet for > or = 8 wk.

142 effects of 10.2 g psyllium/d adjunctive to a low-fat diet for >/=8 wk in individuals with mild-to-mod

143 at feeding, but reduces after switching to a low-fat diet for 1 d.

144 nto two groups and consumed either a high-or low-fat diet for 16 wk.

145 thionein transgenic mice were fed a high- or low-fat diet for 5 months to induce obesity.

146 Psyllium offers a potential adjunct to a low-fat diet for the treatment of hypercholesterolemia i

147 h modified Lieber-DeCarli ethanol-containing low-fat diets for 4 weeks.

148 The effectiveness of low-fat diets for long-term weight loss has been debated

149 ns with 8 animals of each sex fed a high- or low-fat diet from each strain.

150 eviously reported that during refeeding on a low-fat diet, glucose tolerance is normal but insulin-de

151 be randomised into either a Mediterranean or low fat diet group for a 3 month intervention period.

152 the low-carbohydrate diet group than in the low-fat diet group (mean change, -12.9% vs. -6.7%; P < 0

153 s in insulin and HOMA-IR was observed in the low-fat diet group (P=0.02 and P=0.04, respectively).

154 2 patients were enrolled, 500 (49.9%) in the low-fat diet group and 502 (50.1%) in the Mediterranean

155 of the low-carbohydrate diet group than the low-fat diet group completed the study (76% vs. 57%; P =

156 An opposite effect was observed in the low-fat diet group, although in this group the T allele

157 vels, and more adverse symptoms than did the low-fat diet group.

158 not change during the 10-wk interval in the low-fat diet group.

159 ition in the high-fat diet group than in the low-fat diet group.

160 baseline (n = 3,375), those assigned to the low-fat diet had a breast cancer rate of 0.27 compared w

161 CCK-KO mice fed a low-fat diet had a reduced acute insulin response to glu

162 An isocaloric low-fat diet has been shown to slow androgen-sensitive L

163 vious studies comparing low-carbohydrate and low-fat diets have not included a comprehensive behavior

164 When maintained on a low-fat diet, HDL isolated from both strain C57BL/6J (B6

165 The low-fat "diet-heart hypothesis" has been controversial f

166 (2)): 35.8 +/- 2.9] or a calorie-restricted, low-fat diet (High Carb; BMI: 36.7 +/- 4.6) for 6 wk.

167 tolerance in lean mice, and 3) exercise and low-fat diet improve glucose tolerance in obese mice but

168 ness of the Mediterranean diet to a standard low fat diet in terms of differences in insulin sensitiv

169 ter the Mediterranean diet compared with the low-fat diet in all patients.

170 The MED/LC diet was superior to the low-fat diet in decreasing intrahepatic, intrapericardia

171 tolerated and safe when used adjunctive to a low-fat diet in individuals with mild-to-moderate hyperc

172 safety of psyllium when used adjunctive to a low-fat diet in men and women with hypercholesterolemia.

173 ugment the cholesterol-lowering effects of a low-fat diet in persons with hypercholesterolemia.

174 , the Mediterranean diet was superior to the low-fat diet in preventing major cardiovascular events.

175 ed fat, is as efficacious as the traditional low-fat diet in producing weight loss and may be more be

176 ious than a conventional, energy-restricted, low-fat diet in reducing cardiovascular disease risk.

177 er the HSF and HSF-DHA diets relative to the low-fat diet in the APOE3/E4 group (P < 0.015).

178 icles (subclass pattern B) can be induced by low-fat diets in healthy subjects with large LDL particl

179 the concept that both hyperinsulinemia and a low-fat diet increase DNL, and that DNL contributes to h

180 Low-fat diets increase plasma triacylglycerol and decrea

181 improvement in lipid profiles from long-term low-fat diet intake in the APOA5 rs964184 risk allele.

182 s in REE and TEE that were greatest with the low-fat diet, intermediate with the low-glycemic index d

183 from this study indicate that a high-fiber, low-fat diet intervention is associated with reduced ser

184 indings suggest that the long-term effect of low-fat diet intervention on bodyweight depends on the i

185 ning plant sterol esters incorporated into a low-fat diet is a beneficial adjunct in the dietary mana

186 ild-to-moderate hypercholesterolemia after a low-fat diet lead-in phase lasting >/=8 wk.

187 In mice fed the low-fat diet, leptin activated STAT3 signaling when admi

188 domly divided into three groups: (1) control low-fat diet (LF-SED; 15% of calories from fat), (2) hig

189 in HFD-fed WT mice dropped ~ 50% relative to low fat diet (LFD) fed controls.

190 ir parents, and divided into HFD and normal (low) fat diet (LFD) groups.

191 7BL/6 mice were fed an HFD (60% fat kcal) or low-fat diet (LFD) (10% fat kcal) for 8 or 12 weeks.

192 ung (age 25 days) Sprague-Dawley rats with a low-fat diet (LFD) alone or with vitamin D depletion (LF

193 nd cholesterol esters (CEs) in response to a low-fat diet (LFD) and a moderate-fat diet (MFD) and ass

194 were fed with high-fat diet (HFD) or normal low-fat diet (LFD) and subjected to a protocol of ovalbu

195 Sprague-Dawley rats were fed either a HFD or low-fat diet (LFD) for 4 weeks.

196 iet (SFD), a high-trans-fat diet (TFD), or a low-fat diet (LFD) for 4 wk prior to mating, and remaine

197 We compared the effects of an LGD and a low-fat diet (LFD) on body composition and components of

198 e and female mice were fed either a purified low-fat diet (LFD) or high-fat diet (HFD) (40% kcals fro

199 from small intestine of C57BL/6J mice fed a low-fat diet (LFD) or high-fat diet (HFD) for 12 weeks.

200 As adults, offspring were fed either a low-fat diet (LFD) or high-fat diet (HFD) for 6 wk.

201 elevated fat mass and decreased lean mass on low-fat diet (LFD), accompanied by leptin resistance and

202 Male C57Bl/6N mice were fed a low-fat diet (LFD), HFD, or HFD+Nitrate (4 mmol/L sodium

203 57BL/6J mice were divided into three groups: low-fat diet (LFD), high-fat diet (HFD) and HFD suppleme

204 ntly increased when compared with mice fed a low-fat diet (LFD).

205 high-fat diet (HFD-S), similar to mice fed a low-fat diet (LFD).

206 ched to HFD supplemented with 10% HPMC, or a low-fat diet (LFD).

207 In the present study, male mice were fed a low-fat diet (LFD, 10% kcal), HFD (45% kcal), or a HFD a

208 nd VMH FA levels, rats were trained to eat a low-fat diet (LFD; 13.5%) or an HFD in 3 h/day and were

209 diet options (low-carbohydrate diet [LCD] or low-fat diet [LFD]) before choosing and were allowed to

210 session) and sedentary rats fed either chow (low-fat diet [LFD]; normal insulin sensitivity) or a hig

211 the presence of an up-titration regiment and low-fat diet, lomitapide is generally well tolerated and

212 Rats received a low-fat diet (Low-Fat) or one enriched with either satur

213 Both low-carbohydrate and low-fat diets lowered weight and improved metabolic risk

214 n diet and lipid-lowering drugs or on strict low-fat diet (<10% of calories) without lipid drugs; and

215 rcise recommendation, and group meetings, or low-fat diet (<30% energy from fat, <300 mg of cholester

216 (</=45% of energy from carbohydrates) versus low-fat diets (</=30% of energy from fat) on metabolic r

217 r in monounsaturated fat, however, eucaloric low-fat diets may increase plasma triacylglycerol concen

218 rate diet lost more weight than those on the low-fat diet (mean [+/-SD], -5.8+/-8.6 kg vs. -1.9+/-4.2

219 e, the decrease in REE was greatest with the low-fat diet (mean [95% CI], -205 [-265 to -144] kcal/d)

220 One received low-fat diet, medium-chain triglyceride supplementation,

221 Western diet (WD) gut microbiome toward the low-fat-diet microbiome state.

222 wever, in hepatocytes from animals given the low-fat diet, most of the differences between the variou

223 /genotype) as well as from rats fed high- or low-fat diets (n=8/treatment) were analyzed in parallel

224 5) with the high-fat diet and to 7% with the low-fat diet (NS).

225 bic exercise or moderate lifestyle activity; low-fat diet of about 1200 kcal/d.

226 found no effect from a high vegetable/fruit, low-fat diet on breast cancer prognosis.

227 e long-term effects of physical exercise and low-fat diet on the progression of coronary artery disea

228 ethanol for dietary carbohydrate in high-and low-fat diets on energy expenditure and body composition

229 tested the long-term effects of high-fat and low-fat diets on males of two inbred strains of mice and

230 regardless of whether the animals were fed a low fat diet or a high fat/high cholesterol diet.

231 when they were maintained on either a basal low fat diet or a western-type high fat/high cholesterol

232 respectively) by hepatocytes from rats fed a low-fat diet or a diet supplemented with the correspondi

233 female mice were fed either a Lean-inducing low-fat diet or a GDM-inducing high-fat diet for 6 weeks

234 )-transduced regeneration tissues were fed a low-fat diet or a high-fat diet and treated with vehicle

235 g induced by alternating feeding mice with a low-fat diet or a high-fat diet in a 1-week switch proto

236 KO and wild-type (WT) littermates were fed a low-fat diet or a high-fat diet to investigate the effec

237 mor biology can be altered by either a vegan low-fat diet or eliminating simple carbohydrates accompa

238 d 2, 8, and 18 months were fed 16 weeks of a low-fat diet or HFD.

239 After 10 days of exposure to a low-fat diet or high-fat diet (HFD), we performed large-

240 nephropathy, we treated 1) C57BL/6J mice on low-fat diet or high-fat diet with FXR agonists (GW4064

241 notype were at lower risk if they consumed a low-fat diet (OR, 0.2; 95% CI, 0.1-0.5) relative to thos

242 tensity, evidence from RCTs does not support low-fat diets over other dietary interventions for long-

243 eported less hunger than those receiving the low-fat diet (P = .04).

244 uring the high-fat diet, and 3.2% during the low-fat diet (P = 0.4, 0.19, respectively).

245 diet and -0.19 mmol/L [-7.4 mg/dL] with the low-fat diet; P = 0.2).

246 Compared with participants on low-fat diets, persons on low-carbohydrate diets experie

247 After an additional 14 weeks on a low-fat diet, plasma cholesterol levels decreased from 2

248 The low-fat diet provided 18.8% of energy from fat with a ra

249 dress these issues, we designed two diets: a low-fat diet providing approximately 20% of energy as fa

250 ultimately leading to early mortality under low-fat diet provision.

251 ated with the changes from baseline with the low-fat diet (r = -0.74, P = 0.01), as well as with the

252 Compared with recipients of the low-fat diet, recipients of the low-carbohydrate diet ha

253 With rising obesity, despite low-fat diet recommendations, there is an increased inte

254 t tristearin-supplemented high-carbohydrate, low-fat diet reduced FGF21 expression and plasma levels.

255 ch diet of maternal milk, and substituting a low-fat diet reduced UCP2, restored mitochondrial coupli

256 atic overexpression of VLDLR combined with a low-fat diet regimen induces regression of advanced plaq

257 Treatment with HD-Ad-VLDLR together with a low-fat diet regimen resulted in reduced lesion size (cr

258 , -0.37, and -0.45 with the AAD, Step I, and low-fat diets, respectively (P < 0.0001).

259 48 +/- 0.18 mmol/L with the AAD, Step I, and low-fat diets, respectively.

260 72 +/- 0.11 mmol/L with the AAD, Step I, and low-fat diets, respectively.

261 Refeeding a high carbohydrate/low fat diet resulted in a 4- to 5-fold increase of nucl

262 A switch from high-fat to low-fat diet reversed these outcomes, with switched C57B

263 ped" to match the FM of mice maintained on a low-fat diet (standard diet [SD] mice).

264 ight loss in a diet-dependent manner; on the low-fat diet subjects with higher pre-diet daily plastic

265 When mice were fed a low-fat diet supplemented with taurocholic acid, but not

266 h dietary support including high-protein and low-fat diets supplemented with medium-chain triglycerid

267 Low-fat diets tend to improve low-density lipoprotein ch

268 urve after the test meal was lower after the low-fat diet than after the high-fat diet (P < 0.04).

269 e low-carbohydrate diet vs. -4.8 kg with the low-fat diet) than fat-free mass (change, -3.3 kg vs. -2

270 On a low fat diet, the Clps-/- mice did not have steatorrhea.

271 On a low fat diet, the Slc10a2-/- mice did not have steatorrh

272 In hepatocytes from rats fed the low-fat diet, the association of radioactivity with the

273 n1LKO mice are similar to control mice fed a low-fat diet, they are protected against insulin resista

274 n sedentary nondiabetic subjects following a low-fat diet, Thr54 FABP2 carriers have lower glucoregul

275 ndomly assigned to 1 of 4 groups: TNF-a(F/F) low-fat diet (TNF-a(F/F) LFD), TNF-a(F/F,)(LyzMCre) LFD,

276 used GM-CSF-deficient (Csf2(-/-)) mice fed a low fat diet to test the hypothesis that adipose tissue

277 od, we switched half of the obese group to a low-fat diet to induce weight loss.

278 These findings do not support the use of low-fat diets to prevent weight gain.

279 he remaining pups were fed either a high- or low-fat diet until PND105, when tissues were obtained fo

280 ts with breast cancer randomly assigned to a low-fat diet versus control.

281 The subjects consumed a very-low-fat diet (VLFD; 11% of energy as fat), a Step I diet

282 hat country, age, sex, smoking, alcohol use, low-fat diet, waist circumference, recent weight gain (>

283 ies suggested that a 1-week, low-calorie and low-fat diet was associated with decreased intraoperativ

284 igher than concentrations observed after the low-fat diet was consumed.

285 A low-fat diet was not significantly associated with adver

286 The Low-Fat diet was relatively typical of a low-fat U.S. di

287 drate, low glycemic index, high-protein, and low-fat diets was inconsistent.

288 knockout (LKO) mice fed a high-carbohydrate, low-fat diet, we show that hepatic SCD1 deficiency incre

289 (n = 122) aged 50-75 y who were following a low-fat diet were genotyped and underwent oral-glucose-t

290 several lipid lowering treatments including low fat diet when compared with LDL pattern A individual

291 11 transporter expression in comparison with low-fat diet, whereas liver-to-feces RCT was preserved a

292 = 0.01) in participants who were assigned to low-fat diets, whereas there was no significant genotype

293 lacking CTRP10 develop obesity with age on a low-fat diet while maintaining an otherwise healthy meta

294 with these in vitro findings, feeding mice a low fat diet with ethanol for 4 weeks resulted in a sign

295 icacy of 2 moderate-carbohydrate diets and a low-fat diet with different GIs on weight loss and the m

296 Finally, feeding mice a low-fat diet with ethanol resulted in significantly redu

297 e to placebo in subjects already consuming a low-fat diet, with no effect on serum HDL or triacylglyc

298 ry greatly in their lipoprotein responses to low-fat diets, with some of this variation being attribu

299 owever, because it lowers HDL cholesterol, a low-fat diet without substantial weight loss may not be

300 , in type 2 diabetes patients, an ad libitum low-fat diet would cause greater weight loss than would