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Items: 1 to 20 of 100

1.

Deletion of connective tissue growth factor ameliorates peritoneal fibrosis by inhibiting angiogenesis and inflammation.

Toda N, Mori K, Kasahara M, Koga K, Ishii A, Mori KP, Osaki K, Mukoyama M, Yanagita M, Yokoi H.

Nephrol Dial Transplant. 2018 Jun 1;33(6):943-953. doi: 10.1093/ndt/gfx317.

PMID:
29165602
2.

Inhibition of CTGF ameliorates peritoneal fibrosis through suppression of fibroblast and myofibroblast accumulation and angiogenesis.

Sakai N, Nakamura M, Lipson KE, Miyake T, Kamikawa Y, Sagara A, Shinozaki Y, Kitajima S, Toyama T, Hara A, Iwata Y, Shimizu M, Furuichi K, Kaneko S, Tager AM, Wada T.

Sci Rep. 2017 Jul 14;7(1):5392. doi: 10.1038/s41598-017-05624-2.

3.

Connective tissue growth factor (CTGF/CCN2) is increased in peritoneal dialysis patients with high peritoneal solute transport rate.

Mizutani M, Ito Y, Mizuno M, Nishimura H, Suzuki Y, Hattori R, Matsukawa Y, Imai M, Oliver N, Goldschmeding R, Aten J, Krediet RT, Yuzawa Y, Matsuo S.

Am J Physiol Renal Physiol. 2010 Mar;298(3):F721-33. doi: 10.1152/ajprenal.00368.2009. Epub 2009 Dec 16.

4.

Matrix metalloproteinase 9 is associated with peritoneal membrane solute transport and induces angiogenesis through β-catenin signaling.

Padwal M, Siddique I, Wu L, Tang K, Boivin F, Liu L, Robertson J, Bridgewater D, West-Mays J, Gangji A, Brimble KS, Margetts PJ.

Nephrol Dial Transplant. 2017 Jan 1;32(1):50-61. doi: 10.1093/ndt/gfw076.

5.

Peritoneal fibrosis and high transport are induced in mildly pre-injured peritoneum by 3,4-dideoxyglucosone-3-ene in mice.

Yokoi H, Kasahara M, Mori K, Kuwabara T, Toda N, Yamada R, Namoto S, Yamamoto T, Seki N, Souma N, Yamaguchi T, Sugawara A, Mukoyama M, Nakao K.

Perit Dial Int. 2013 Mar-Apr;33(2):143-54. doi: 10.3747/pdi.2011.00033. Epub 2012 Nov 1.

6.

Rho-kinase inhibition ameliorates peritoneal fibrosis and angiogenesis in a rat model of peritoneal sclerosis.

Washida N, Wakino S, Tonozuka Y, Homma K, Tokuyama H, Hara Y, Hasegawa K, Minakuchi H, Fujimura K, Hosoya K, Hayashi K, Itoh H.

Nephrol Dial Transplant. 2011 Sep;26(9):2770-9. doi: 10.1093/ndt/gfr012. Epub 2011 Mar 4.

PMID:
21378147
7.

LPA1-induced cytoskeleton reorganization drives fibrosis through CTGF-dependent fibroblast proliferation.

Sakai N, Chun J, Duffield JS, Wada T, Luster AD, Tager AM.

FASEB J. 2013 May;27(5):1830-46. doi: 10.1096/fj.12-219378. Epub 2013 Jan 15.

8.

Anti-connective tissue growth factor (CTGF/CCN2) monoclonal antibody attenuates skin fibrosis in mice models of systemic sclerosis.

Makino K, Makino T, Stawski L, Lipson KE, Leask A, Trojanowska M.

Arthritis Res Ther. 2017 Jun 13;19(1):134. doi: 10.1186/s13075-017-1356-3.

9.

Crucial Role of Mesangial Cell-derived Connective Tissue Growth Factor in a Mouse Model of Anti-Glomerular Basement Membrane Glomerulonephritis.

Toda N, Mori K, Kasahara M, Ishii A, Koga K, Ohno S, Mori KP, Kato Y, Osaki K, Kuwabara T, Kojima K, Taura D, Sone M, Matsusaka T, Nakao K, Mukoyama M, Yanagita M, Yokoi H.

Sci Rep. 2017 Feb 13;7:42114. doi: 10.1038/srep42114.

10.

Pleiotrophin triggers inflammation and increased peritoneal permeability leading to peritoneal fibrosis.

Yokoi H, Kasahara M, Mori K, Ogawa Y, Kuwabara T, Imamaki H, Kawanishi T, Koga K, Ishii A, Kato Y, Mori KP, Toda N, Ohno S, Muramatsu H, Muramatsu T, Sugawara A, Mukoyama M, Nakao K.

Kidney Int. 2012 Jan;81(2):160-9. doi: 10.1038/ki.2011.305. Epub 2011 Aug 31.

11.

TGF-β1-VEGF-A pathway induces neoangiogenesis with peritoneal fibrosis in patients undergoing peritoneal dialysis.

Kariya T, Nishimura H, Mizuno M, Suzuki Y, Matsukawa Y, Sakata F, Maruyama S, Takei Y, Ito Y.

Am J Physiol Renal Physiol. 2018 Feb 1;314(2):F167-F180. doi: 10.1152/ajprenal.00052.2017. Epub 2017 Oct 4.

12.

SAHA Suppresses Peritoneal Fibrosis in Mice.

Io K, Nishino T, Obata Y, Kitamura M, Koji T, Kohno S.

Perit Dial Int. 2015 May-Jun;35(3):246-58. doi: 10.3747/pdi.2013.00089. Epub 2014 Mar 1.

13.

TNP-470, an angiogenesis inhibitor, suppresses the progression of peritoneal fibrosis in mouse experimental model.

Yoshio Y, Miyazaki M, Abe K, Nishino T, Furusu A, Mizuta Y, Harada T, Ozono Y, Koji T, Kohno S.

Kidney Int. 2004 Oct;66(4):1677-85.

14.

The dipeptide alanyl-glutamine ameliorates peritoneal fibrosis and attenuates IL-17 dependent pathways during peritoneal dialysis.

Ferrantelli E, Liappas G, Vila Cuenca M, Keuning ED, Foster TL, Vervloet MG, Lopéz-Cabrera M, Beelen RH.

Kidney Int. 2016 Mar;89(3):625-35. doi: 10.1016/j.kint.2015.12.005. Epub 2016 Jan 8.

PMID:
26880457
15.

Octreotide lessens peritoneal injury in experimental encapsulated peritoneal sclerosis model.

Ertilav M, Hur E, Bozkurt D, Sipahi S, Timur O, Sarsik B, Akcicek F, Duman S.

Nephrology (Carlton). 2011 Aug;16(6):552-7. doi: 10.1111/j.1440-1797.2011.01460.x.

PMID:
21382127
16.
17.

22-Oxacalcitriol prevents progression of peritoneal fibrosis in a mouse model.

Hirose M, Nishino T, Obata Y, Nakazawa M, Nakazawa Y, Furusu A, Abe K, Miyazaki M, Koji T, Kohno S.

Perit Dial Int. 2013 Mar-Apr;33(2):132-42. doi: 10.3747/pdi.2011.00234. Epub 2012 Oct 2.

18.

Gremlin promotes peritoneal membrane injury in an experimental mouse model and is associated with increased solute transport in peritoneal dialysis patients.

Siddique I, Curran SP, Ghayur A, Liu L, Shi W, Hoff CM, Gangji AS, Brimble KS, Margetts PJ.

Am J Pathol. 2014 Nov;184(11):2976-84. doi: 10.1016/j.ajpath.2014.07.018. Epub 2014 Sep 3.

19.

A high-density collagen xerogel thread prevents the progression of peritoneal fibrosis.

Aoki S, Takezawa T, Nagase K, Oshikata-Mitazaki A, Morito S, Sakumoto T, Masuda M, Yamamoto-Rikitake M, Akutagawa T, Toda S.

Biomater Sci. 2018 Dec 18;7(1):125-138. doi: 10.1039/c8bm00536b.

PMID:
30406776
20.

Coincidence of connective tissue growth factor expression with fibrosis and angiogenesis in postoperative peritoneal adhesion formation.

Thaler K, Mack JA, Berho M, Grotendorst G, Wexner SD, Abramson SR.

Eur Surg Res. 2005 Jul-Aug;37(4):235-41.

PMID:
16260874

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