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Items: 1 to 20 of 153

1.

Differential effects of dexamethasone and itraconazole on Aspergillus fumigatus-exacerbated allergic airway inflammation in a murine model of mite-sensitized asthma.

Matsuse H, Fukushima C, Fukahori S, Tsuchida T, Kawano T, Nishino T, Kohno S.

Respiration. 2013;85(5):429-35. doi: 10.1159/000345861.

PMID:
23327882
2.

Clearance of Aspergillus fumigatus is impaired in the airway in allergic inflammation.

Fukahori S, Matsuse H, Tsuchida T, Kawano T, Nishino T, Fukushima C, Kohno S.

Ann Allergy Asthma Immunol. 2014 Aug;113(2):180-6. doi: 10.1016/j.anai.2014.05.011.

PMID:
24932688
3.

Effects of anti-inflammatory therapies on recurrent and low-grade respiratory syncytial virus infections in a murine model of asthma.

Matsuse H, Kondo Y, Machida I, Kawano T, Saeki S, Tomari S, Obase Y, Fukushima C, Mizuta Y, Kohno S.

Ann Allergy Asthma Immunol. 2006 Jul;97(1):55-60.

PMID:
16892782
4.

Recurrent respiratory syncytial virus infections in allergen-sensitized mice lead to persistent airway inflammation and hyperresponsiveness.

Matsuse H, Behera AK, Kumar M, Rabb H, Lockey RF, Mohapatra SS.

J Immunol. 2000 Jun 15;164(12):6583-92.

5.

Modulation of airway inflammation by immunostimulatory CpG oligodeoxynucleotides in a murine model of allergic aspergillosis.

Banerjee B, Kelly KJ, Fink JN, Henderson JD Jr, Bansal NK, Kurup VP.

Infect Immun. 2004 Oct;72(10):6087-94.

6.

Effects of primary and secondary low-grade respiratory syncytial virus infections in a murine model of asthma.

Kondo Y, Matsuse H, Machida I, Kawano T, Saeki S, Tomari S, Obase Y, Fukushima C, Kohno S.

Clin Exp Allergy. 2004 Aug;34(8):1307-13.

PMID:
15298574
7.

Second-hand smoke increases bronchial hyperreactivity and eosinophilia in a murine model of allergic aspergillosis.

Seymour BW, Schelegle ES, Pinkerton KE, Friebertshauser KE, Peake JL, Kurup VP, Coffman RL, Gershwin LJ.

Clin Dev Immunol. 2003 Mar;10(1):35-42.

8.

Acetaldehyde at a low concentration synergistically exacerbates allergic airway inflammation as an endocrine-disrupting chemical and as a volatile organic compound.

Kawano T, Matsuse H, Fukahori S, Tsuchida T, Nishino T, Fukushima C, Kohno S.

Respiration. 2012;84(2):135-41. doi: 10.1159/000337112.

PMID:
22538484
9.

The costimulatory molecules CD80, CD86 and OX40L are up-regulated in Aspergillus fumigatus sensitized mice.

Barrios CS, Johnson BD, D Henderson J Jr, Fink JN, Kelly KJ, Kurup VP.

Clin Exp Immunol. 2005 Nov;142(2):242-50.

10.

Ozone inhalation induces exacerbation of eosinophilic airway inflammation and hyperresponsiveness in allergen-sensitized mice.

Kierstein S, Krytska K, Sharma S, Amrani Y, Salmon M, Panettieri RA Jr, Zangrilli J, Haczku A.

Allergy. 2008 Apr;63(4):438-46. doi: 10.1111/j.1398-9995.2007.01587.x.

11.

Elimination of Aspergillus fumigatus conidia from the airways of mice with allergic airway inflammation.

Shevchenko MA, Bolkhovitina EL, Servuli EA, Sapozhnikov AM.

Respir Res. 2013 Jul 27;14:78. doi: 10.1186/1465-9921-14-78.

12.

Antifungal and airway remodeling roles for murine monocyte chemoattractant protein-1/CCL2 during pulmonary exposure to Asperigillus fumigatus conidia.

Blease K, Mehrad B, Lukacs NW, Kunkel SL, Standiford TJ, Hogaboam CM.

J Immunol. 2001 Feb 1;166(3):1832-42.

13.

Effect of respiratory syncytial virus infection on plasmacytoid dendritic cell regulation of allergic airway inflammation.

Tsuchida T, Matsuse H, Fukahori S, Kawano T, Tomari S, Fukushima C, Kohno S.

Int Arch Allergy Immunol. 2012;157(1):21-30. doi: 10.1159/000324676.

PMID:
21894025
14.

Dermatophagoides-farinae-induced pulmonary eosinophilic inflammation in mice.

Yu CK, Yang BC, Lee SC, Wang JY, Hsiue TR, Lei HY.

Int Arch Allergy Immunol. 1997 Jan;112(1):73-82.

PMID:
8980467
15.

An inhalation model of airway allergic response to inhalation of environmental Aspergillus fumigatus conidia in sensitized BALB/c mice.

Hoselton SA, Samarasinghe AE, Seydel JM, Schuh JM.

Med Mycol. 2010 Dec;48(8):1056-65. doi: 10.3109/13693786.2010.485582.

16.

Aspergillus fumigatus synergistically enhances mite-induced allergic airway inflammation.

Fukushima C, Matsuse H, Fukahori S, Tsuchida T, Kawano T, Senjyu H, Kohno S.

Med Sci Monit. 2010 Jul;16(7):BR197-202.

PMID:
20581767
17.

Mannose-binding lectin deficiency alters the development of fungal asthma: effects on airway response, inflammation, and cytokine profile.

Hogaboam CM, Takahashi K, Ezekowitz RA, Kunkel SL, Schuh JM.

J Leukoc Biol. 2004 May;75(5):805-14.

PMID:
14761934
18.

A novel murine model of allergic inflammation to study the effect of dexamethasone on eosinophil recruitment.

Das AM, Flower RJ, Hellewell PG, Teixeira MM, Perretti M.

Br J Pharmacol. 1997 May;121(1):97-104.

19.

Airway remodeling is absent in CCR1-/- mice during chronic fungal allergic airway disease.

Blease K, Mehrad B, Standiford TJ, Lukacs NW, Kunkel SL, Chensue SW, Lu B, Gerard CJ, Hogaboam CM.

J Immunol. 2000 Aug 1;165(3):1564-72.

20.

Galectin-9 in allergic airway inflammation and hyper-responsiveness in mice.

Sziksz E, Kozma GT, Pállinger E, Komlósi ZI, Adori C, Kovács L, Szebeni B, Rusai K, Losonczy G, Szabó A, Vannay A.

Int Arch Allergy Immunol. 2010;151(4):308-17. doi: 10.1159/000250439.

PMID:
19851072
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