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Items: 1 to 20 of 464

1.

Inhalation of toluene diisocyanate vapor induces allergic rhinitis in mice.

Johnson VJ, Yucesoy B, Reynolds JS, Fluharty K, Wang W, Richardson D, Luster MI.

J Immunol. 2007 Aug 1;179(3):1864-71.

2.

Exposure and immunological determinants in a murine model for toluene diisocyanate (TDI) asthma.

Matheson JM, Johnson VJ, Vallyathan V, Luster MI.

Toxicol Sci. 2005 Mar;84(1):88-98. Epub 2004 Dec 8.

PMID:
15590891
3.

Immune mediators in a murine model for occupational asthma: studies with toluene diisocyanate.

Matheson JM, Johnson VJ, Luster MI.

Toxicol Sci. 2005 Mar;84(1):99-109. Epub 2004 Dec 8.

PMID:
15590890
4.

TDI can induce respiratory allergy with Th2-dominated response in mice.

Ban M, Morel G, Langonné I, Huguet N, Pépin E, Binet S.

Toxicology. 2006 Jan 20;218(1):39-47. Epub 2005 Nov 3.

PMID:
16271432
5.
6.

Importance of inflammatory and immune components in a mouse model of airway reactivity to toluene diisocyanate (TDI).

Matheson JM, Lange RW, Lemus R, Karol MH, Luster MI.

Clin Exp Allergy. 2001 Jul;31(7):1067-76.

PMID:
11467998
7.
8.

Role of intercellular adhesion molecule-1 in a murine model of toluene diisocyanate-induced asthma.

Furusho S, Myou S, Fujimura M, Kita T, Yasui M, Kasahara K, Nakao S, Takehara K, Sato S.

Clin Exp Allergy. 2006 Oct;36(10):1294-302.

PMID:
17014439
10.
11.

Interleukin-4-independent production of Th2 cytokines by nasal lymphocytes and nasal eosinophilia in murine allergic rhinitis.

Okano M, Satoskar AR, Abe M, Harn DA Jr, Okano M, Nishizaki K, Takeda Y, Yoshino T, Brombacher F, Satoskar AA.

Allergy. 2000 Aug;55(8):723-31.

12.

Oropharyngeal aspiration: an alternative route for challenging in a mouse model of chemical-induced asthma.

De Vooght V, Vanoirbeek JA, Haenen S, Verbeken E, Nemery B, Hoet PH.

Toxicology. 2009 May 2;259(1-2):84-9. doi: 10.1016/j.tox.2009.02.007. Epub 2009 Feb 28.

PMID:
19428947
13.

A nasal allergy model developed in the guinea pig by intranasal application of 2,4-toluene diisocyanate.

Tanaka K, Okamoto Y, Nagaya Y, Nishimura F, Takeoka A, Hanada S, Kohno S, Kawai M.

Int Arch Allergy Appl Immunol. 1988;85(4):392-7.

PMID:
2833445
15.

IFATS collection: Immunomodulatory effects of adipose tissue-derived stem cells in an allergic rhinitis mouse model.

Cho KS, Park HK, Park HY, Jung JS, Jeon SG, Kim YK, Roh HJ.

Stem Cells. 2009 Jan;27(1):259-65. doi: 10.1634/stemcells.2008-0283.

16.

Signals through CD40 play a critical role in the pathophysiology of Schistosoma mansoni egg antigen--induced allergic rhinitis in mice.

Hattori H, Okano M, Kariya S, Nishizaki K, Satoskar AR.

Am J Rhinol. 2006 Mar-Apr;20(2):165-9.

PMID:
16686380
17.

An essential role for dendritic cells in human and experimental allergic rhinitis.

KleinJan A, Willart M, van Rijt LS, Braunstahl GJ, Leman K, Jung S, Hoogsteden HC, Lambrecht BN.

J Allergy Clin Immunol. 2006 Nov;118(5):1117-25. Epub 2006 Aug 28.

PMID:
17088138
18.

Immunological determinants of ventilatory changes induced in mice by dermal sensitization and respiratory challenge with toluene diisocyanate.

Tarkowski M, Vanoirbeek JA, Vanhooren HM, De Vooght V, Mercier CM, Ceuppens J, Nemery B, Hoet PH.

Am J Physiol Lung Cell Mol Physiol. 2007 Jan;292(1):L207-14. Epub 2006 Sep 8.

19.

Amelioration of experimental allergic rhinitis with suppression of topical immune responses by lack of IL-27/WSX-1 signaling.

Shimanoe Y, Miyazaki Y, Hara H, Inokuchi A, Yoshida H.

Ann Allergy Asthma Immunol. 2009 Mar;102(3):223-32. doi: 10.1016/S1081-1206(10)60085-3.

PMID:
19354069
20.

STAT1 is involved in the pathogenesis of murine allergic rhinitis.

Hattori H, Rosas LE, Okano M, Durbin JE, Nishizaki K, Satoskar AR.

Am J Rhinol. 2007 Mar-Apr;21(2):241-7.

PMID:
17424888

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