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Items: 1 to 20 of 99

1.

Effects of lysed Enterococcus faecalis FK-23 on experimental allergic rhinitis in a murine model.

Zhu L, Shimada T, Chen R, Lu M, Zhang Q, Lu W, Yin M, Enomoto T, Cheng L.

J Biomed Res. 2012 May;26(3):226-34. doi: 10.7555/JBR.26.20120023. Epub 2012 May 9.

2.

[Anti-allergic effects of the probiotic preparations of enterococcus on experimental allergic rhinitis in mice].

Zhu LP, Zhang QZ, Shimada T, Enomoto T, Cheng L.

Zhonghua Er Bi Yan Hou Tou Jing Wai Ke Za Zhi. 2013 Jul;48(7):555-62. Chinese.

PMID:
24313204
3.

Effects of lysed Enterococcus faecalis FK-23 on allergen-induced serum antibody responses and active cutaneous anaphylaxis in mice.

Shimada T, Cheng L, Yamasaki A, Ide M, Motonaga C, Yasueda H, Enomoto K, Enomoto T, Shirakawa T.

Clin Exp Allergy. 2004 Nov;34(11):1784-8.

PMID:
15544605
4.

Effect of lysed Enterococcus faecalis FK-23 on allergen-induced immune responses and intestinal microflora in antibiotic-treated weaning mice.

Shimada T, Cheng L, Shi HB, Hayashi A, Motonaga C, Tang J, Enomoto K, Enomoto T.

J Investig Allergol Clin Immunol. 2007;17(2):70-6.

5.

Oral administration of Enterococcus faecalis FK-23 suppresses Th17 cell development and attenuates allergic airway responses in mice.

Zhang B, An J, Shimada T, Liu S, Maeyama K.

Int J Mol Med. 2012 Aug;30(2):248-54. doi: 10.3892/ijmm.2012.1010. Epub 2012 May 24.

PMID:
22641478
6.

Effect of lysed Enterococcus faecalis FK-23 (LFK) on allergen-induced peritoneal accumulation of eosinophils in mice.

Shimada T, Cheng L, Ide M, Fukuda S, Enomoto T, Shirakawa T.

Clin Exp Allergy. 2003 May;33(5):684-7.

PMID:
12752599
7.

Enhancement of anti-allergic effects mediated by the Kampo medicine Shoseiryuto (Xiao-Qing-Long-Tang in Chinese) with lysed Enterococcus faecalis FK-23 in mice.

Shimada T, Kondoh M, Motonaga C, Kitamura Y, Cheng L, Shi H, Enomoto T, Tsuruta D, Ishii M, Kobayashi H.

Asian Pac J Allergy Immunol. 2010 Mar;28(1):59-66.

8.
9.

Listeriolysin O derived from Listeria monocytogenes inhibits the effector phase of an experimental allergic rhinitis induced by ovalbumin in mice.

Yamamoto K, Kawamura I, Tominaga T, Nomura T, Ito J, Mitsuyama M.

Clin Exp Immunol. 2006 Jun;144(3):475-84.

10.

Antiallergic Effects of Trichostatin A in a Murine Model of Allergic Rhinitis.

Cho JS, Kang JH, Han IH, Um JY, Park IH, Lee SH, Lee HM.

Clin Exp Otorhinolaryngol. 2015 Sep;8(3):243-9. doi: 10.3342/ceo.2015.8.3.243. Epub 2015 Aug 13.

11.

Antidepressant drug, desipramine, alleviates allergic rhinitis by regulating Treg and Th17 cells.

Zhang Y, Zhen H, Yao W, Bian F, Mao X, Yang X, Jin S.

Int J Immunopathol Pharmacol. 2013 Jan-Mar;26(1):107-15.

PMID:
23527713
12.

IL-16 variability and modulation by antiallergic drugs in a murine experimental allergic rhinitis model.

Akiyama K, Karaki M, Kobayshi R, Dobashi H, Ishida T, Mori N.

Int Arch Allergy Immunol. 2009;149(4):315-22. doi: 10.1159/000205577. Epub 2009 Mar 17.

PMID:
19295235
13.

Antiallergic Function of KR62980, a Peroxisome Proliferator-Activated Receptor-γ Agonist, in a Mouse Allergic Rhinitis Model.

Lee JE, Zhang YL, Han DH, Kim DY, Rhee CS.

Allergy Asthma Immunol Res. 2015 May;7(3):256-64. doi: 10.4168/aair.2015.7.3.256. Epub 2015 Mar 5.

14.

Anti-allergic effects of So-Cheong-Ryong-Tang, a traditional Korean herbal medicine, in an allergic rhinitis mouse model.

Mo JH, Lee SE, Wee JH, Lee JE, Rhee CS, Lee CH, Kim DY.

Eur Arch Otorhinolaryngol. 2013 Mar;270(3):923-30. doi: 10.1007/s00405-012-2152-y. Epub 2012 Aug 19.

PMID:
22903755
15.

[Effect of adipose-derived mesenchymal stem cells (ADSC) on the T cell immune status of allergic rhinitis mouse model].

Li G, Liu Y, Shen C, Wen Z, Zhang S, Yang K.

Zhonghua Er Bi Yan Hou Tou Jing Wai Ke Za Zhi. 2016 Jan;51(1):50-6. doi: 10.3760/cma.j.issn.1673-0860.2016.01.008. Chinese.

PMID:
26791769
16.

Effects of Bifidobacterium Breve Feeding Strategy and Delivery Modes on Experimental Allergic Rhinitis Mice.

Ren JJ, Yu Z, Yang FL, Lv D, Hung S, Zhang J, Lin P, Liu SX, Zhang N, Bachert C.

PLoS One. 2015 Oct 7;10(10):e0140018. doi: 10.1371/journal.pone.0140018. eCollection 2015.

17.

[Development of allergic airway disease model in mice].

Han L, Sun YQ, Fu QL, Wen WP, Shi JB.

Zhonghua Er Bi Yan Hou Tou Jing Wai Ke Za Zhi. 2013 Mar;48(3):224-8. Chinese.

PMID:
23755788
18.

Attenuation of airway hyperreactivity and T helper cell type 2 responses by coumarins from Peucedanum praeruptorum Dunn in a murine model of allergic airway inflammation.

Xiong YY, Wu FH, Wang JS, Li J, Kong LY.

J Ethnopharmacol. 2012 May 7;141(1):314-21. doi: 10.1016/j.jep.2012.02.037. Epub 2012 Feb 28.

PMID:
22401763
19.

Effects of lysed Enterococcus faecalis FK-23 on allergen-induced peritoneal accumulation of eosinophils and serum total IgE concentration in inbred mice.

Shimada T, Zhu LP, Yin M, Motonaga C, Li HB, Shi HB, Enomoto K, Enomoto T, Cheng L.

Asian Pac J Allergy Immunol. 2008 Jun-Sep;26(2-3):137-41.

20.

The effect of topical FK506 (tacrolimus) in a mouse model of allergic rhinitis.

Shin JH, Park HR, Kim SW, Park CS, Cho JH, Park YJ, Kim SW.

Am J Rhinol Allergy. 2012 Mar-Apr;26(2):e71-5. doi: 10.2500/ajra.2012.26.3743.

PMID:
22487280
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