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    Results: 1 to 20 of 231

    1.

    The high-fat diet-fed mouse: a model for studying mechanisms and treatment of impaired glucose tolerance and type 2 diabetes.

    Winzell MS, Ahrén B.

    Diabetes. 2004 Dec;53 Suppl 3:S215-9.PMID: 15561913 [PubMed - indexed for MEDLINE]Related articlesFree article

    2.

    Long-term inhibition of dipeptidyl peptidase IV improves glucose tolerance and preserves islet function in mice.

    Reimer MK, Holst JJ, Ahrén B.

    Eur J Endocrinol. 2002 May;146(5):717-27.PMID: 11980629 [PubMed - indexed for MEDLINE]Related articlesFree article

    3.

    Dipeptidyl peptidase IV inhibition improves impaired glucose tolerance in high-fat diet-fed rats: study using a Fischer 344 rat substrain deficient in its enzyme activity.

    Mitani H, Takimoto M, Hughes TE, Kimura M.

    Jpn J Pharmacol. 2002 Apr;88(4):442-50.PMID: 12046988 [PubMed - indexed for MEDLINE]Related articlesFree article

    4.

    Temporal and dietary fat content-dependent islet adaptation to high-fat feeding-induced glucose intolerance in mice.

    Winzell MS, Magnusson C, Ahrén B.

    Metabolism. 2007 Jan;56(1):122-8.PMID: 17161234 [PubMed - indexed for MEDLINE]Related articles

    5.

    Altered beta-cell distribution of pdx-1 and GLUT-2 after a short-term challenge with a high-fat diet in C57BL/6J mice.

    Reimer MK, Ahrén B.

    Diabetes. 2002 Feb;51 Suppl 1:S138-43.PMID: 11815473 [PubMed - indexed for MEDLINE]Related articlesFree article

    6.

    Glomerular structural and functional changes in a high-fat diet mouse model of early-stage Type 2 diabetes.

    Wei P, Lane PH, Lane JT, Padanilam BJ, Sansom SC.

    Diabetologia. 2004 Sep;47(9):1541-9. Epub 2004 Aug 27.PMID: 15338127 [PubMed - indexed for MEDLINE]Related articles

    7.

    Chronic intake of high-fat and high-sucrose diets differentially affects glucose intolerance in mice.

    Sumiyoshi M, Sakanaka M, Kimura Y.

    J Nutr. 2006 Mar;136(3):582-7.PMID: 16484528 [PubMed - indexed for MEDLINE]Related articlesFree article

    8.

    C57BL/6 mice fed high fat diets as models for diabetes-accelerated atherosclerosis.

    Schreyer SA, Wilson DL, LeBoeuf RC.

    Atherosclerosis. 1998 Jan;136(1):17-24.PMID: 9544727 [PubMed - indexed for MEDLINE]Related articles

    9.

    Increased plasma dipeptidyl peptidase IV (DPP IV) activity and decreased DPP IV activity of visceral but not subcutaneous adipose tissue in impaired glucose tolerance rats induced by high-fat or high-sucrose diet.

    Kirino Y, Kamimoto T, Sato Y, Kawazoe K, Minakuchi K, Nakahori Y.

    Biol Pharm Bull. 2009 Mar;32(3):463-7.PMID: 19252296 [PubMed - indexed for MEDLINE]Related articlesFree article

    10.

    Improved glucose tolerance and insulin secretion by inhibition of dipeptidyl peptidase IV in mice.

    Ahrén B, Holst JJ, Mårtensson H, Balkan B.

    Eur J Pharmacol. 2000 Sep 15;404(1-2):239-45.PMID: 10980284 [PubMed - indexed for MEDLINE]Related articles

    11.

    C57BL/6J and A/J mice fed a high-fat diet delineate components of metabolic syndrome.

    Gallou-Kabani C, Vigé A, Gross MS, Rabès JP, Boileau C, Larue-Achagiotis C, Tomé D, Jais JP, Junien C.

    Obesity (Silver Spring). 2007 Aug;15(8):1996-2005.PMID: 17712117 [PubMed - indexed for MEDLINE]Related articles

    12.

    7-But-2-ynyl-9-(6-methoxy-pyridin-3-yl)-6-piperazin-1-yl-7,9-dihydro-purin-8-one is a novel competitive and selective inhibitor of dipeptidyl peptidase IV with an antihyperglycemic activity.

    Yamazaki K, Yasuda N, Inoue T, Nagakura T, Kira K, Shinoda M, Saeki T, Tanaka I.

    J Pharmacol Exp Ther. 2006 Dec;319(3):1253-7. Epub 2006 Sep 15.PMID: 16980568 [PubMed - indexed for MEDLINE]Related articlesFree article

    13.

    Increase in DPP-IV in the intestine, liver and kidney of the rat treated with high fat diet and streptozotocin.

    Yang J, Campitelli J, Hu G, Lin Y, Luo J, Xue C.

    Life Sci. 2007 Jul 4;81(4):272-9. Epub 2007 May 21.PMID: 17583752 [PubMed - indexed for MEDLINE]Related articles

    14.

    Angiotensin converting enzyme inhibition lowers body weight and improves glucose tolerance in C57BL/6J mice maintained on a high fat diet.

    Weisinger RS, Stanley TK, Begg DP, Weisinger HS, Spark KJ, Jois M.

    Physiol Behav. 2009 Aug 4;98(1-2):192-7. Epub 2009 May 22.PMID: 19465040 [PubMed - indexed for MEDLINE]Related articles

    15.

    SMXA-5 mouse as a diabetic model susceptible to feeding a high-fat diet.

    Kobayashi M, Io F, Kawai T, Nishimura M, Ohno T, Horio F.

    Biosci Biotechnol Biochem. 2004 Jan;68(1):226-30.PMID: 14745189 [PubMed - indexed for MEDLINE]Related articlesFree article

    16.

    Intraperitoneal PACAP administration decreases blood glucose in GK rats, and in normal and high fat diet mice.

    Yada T, Sakurada M, Filipsson K, Kikuchi M, Ahrén B.

    Ann N Y Acad Sci. 2000;921:259-63.PMID: 11193831 [PubMed - indexed for MEDLINE]Related articles

    17.

    Reducing plasma free fatty acids by acipimox improves glucose tolerance in high-fat fed mice.

    Ahrén B.

    Acta Physiol Scand. 2001 Feb;171(2):161-7.PMID: 11350276 [PubMed - indexed for MEDLINE]Related articles

    18.

    Characterization of diabetes-related traits in MSM and JF1 mice on high-fat diet.

    Kobayashi M, Ohno T, Tsuchiya T, Horio F.

    J Nutr Biochem. 2004 Oct;15(10):614-21.PMID: 15542353 [PubMed - indexed for MEDLINE]Related articles

    19.

    Long-term effect of fish oil diet on basal and stimulated plasma glucose and insulin levels in ob/ob mice.

    Steerenberg PA, Beekhof PK, Feskens EJ, Lips CJ, Höppener JW, Beems RB.

    Diabetes Nutr Metab. 2002 Aug;15(4):205-14.PMID: 12416657 [PubMed - indexed for MEDLINE]Related articles

    20.

    Inhibition of the progression of type 2 diabetes in the C57BL/6J mouse model by an anti-diabetes herbal formula.

    Winters WD, Huo YS, Yao DL.

    Phytother Res. 2003 Jun;17(6):591-8.PMID: 12820223 [PubMed - indexed for MEDLINE]Related articles

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