1.The inhibitory effects and mechanism of Pyrin recombination protein on airway inflamation in mouse with bronchial asthma
Guanghai YAN ; Hongmei PIAO ; Changshan AN ; Kohei YAMAUCHI
Chinese Journal of Microbiology and Immunology 2012;32(2):102-107
Objective To investigate the blocking effects of Pyrin domain protein on mouse allergic airway inflammation induced by ovalbumin and its mechanism.Methods Forty male BALB/c mice were randomly divided into 4 groups with 10 mice in each group.Control group:mice were treated with saline;OVA group:mice were sensitized and challenged with OVA; Pyrin domain protein 3 d group:mice were sensitized and challenged as asthmatic group and treated with 100 μg/kg triptolide before challenged; Pyrin domain protein 7 d group:mice were sensitized and challenged as asthmatic group and treated with 100 μg/kg triptolide before challenged.All mice were killed 24 h after final OVA challenge.The left lung was isolated for pathological examination.Lung sections were stained with hematoxylin and eosin(HE),Masson's trichrome.The thickness of bronchial airway,bronchial smooth muscle thickness,and the collagen deposition area were measured by image analysig system.The concentrations of IL-4,IL-5,TNF-α and IFN-γ in BALF were measured by ELISA,the RT-PCR and Western blot was performed to detect the mRNA expression of connective tissue growth factor (CTGF),TGF-β 1 mRNA and NF -kB from the right lung tissues.Results In OVA group,the number of inflammatory cells and the concentrations of IL-4,IL-5,TNF-a in BALF and Bronchial airway thickness,bronchial smooth muscle thickness,the collagen deposition area,CTGF,TGF-β1 mRNA and NF-kB in lung tissue were significantly higher than those in control group(P<0.05).IFN-γ were lower than those in control group( P<0.05 ).While in Pyrin domain protein 3 d group and Pyrin domain protein 7 d group,the number of inflammatory cells,the concentrations of IL-4,IL-5,TNF-α in BALF and bronchial airway thickness,bronchial smooth muscle thickness,the collagen deposition area and NF-kB in lung tissue were significantly lower than those in OVA group,IFN-γwere higher than those in OVA group( P <0.05).In Pyrin domain protein 7 d group CTGF and TGF-β1 mRNA in lung tissue were significantly lower than those in OVA group.Conclusion Pyrin domain protein might inhibits airway inflammation and development of airway remodeling in asthmatic mouse,the possible mechanism might in part by associated with reducing the expression of NF-kB and further inhibiting CTGF,TGF-β1.
2.Clinical Efficacy of Shoes and Custom-made Insoles in Treating Children with Flatfoot
Keiji HASHIMOTO ; Mariko KAMIDANI ; Makiko NAITOH ; Kohei MIYAMURA ; Anri KAMIDE ; Manami HONDA ; Yuko YAMAUCHI ; Takeshi KAMIKUBO ; Masahiro ABO
The Japanese Journal of Rehabilitation Medicine 2014;51(12):794-798
We performed a prospective study to determine whether the walking pattern of children with flatfoot can be influenced by using shoes and custom-modeled insoles. One hundred and thirty-two children (mean age ; 4.20±2.53) who had been referred by a physiatrist, and who were diagnosed with flatfoot at the brace clinic in our institute, were assigned to three groups : The first group was asked to walk barefoot, the second one to walk with shoes without insoles and the last one to walk with shoes with insoles. We measured walking speed, cadence, step length, step width, the duration of right and left stance phases, both double-limb stance phases, both swing phases, walking angle, and toe angle using a 2.4 m sheet-type Gait Analyzer, the Walk Way MW-1000 TM, at the individual's self-selected speed. Compared with the barefoot group, a significant increase was observed in the group using shoes with custom-modeled insoles in both walking speed and step length on both sides, and there were reductions in swing phase and walking angle on both sides (paired t-test ; p<0.002).
3.On Farmer's Lung.
Hiroshi INOUE ; Kohei YAMAUCHI ; Toshihide NAKADATE ; Harumasa ITO ; Hikari NINOMIYA ; Takashi MOURI ; Emi CHIDA ; Yuki KOJIMA ; Kazushige SUGAHARA ; Jun SUZUKI ; Ikuro SATO ; Yasuyuki NISHIJIMA ; Nobukazu TOMICHI ; Kazuki KONISHI
Journal of the Japanese Association of Rural Medicine 1997;45(6):755-759
Farmer's lung is a form of hypersensitivity pneumonitis, which is manifested mainly as an occupational disease among dairy farmers exposed to organic dusts from moldy hay and compost in silos and lofts. In Europe and America, it has been known for many years. In Japan, it frequently occurs in Hokkaido, Iwate and Hokuriku districts during winter months from November to March. The culprit antigens are spores of actinomycetes thermophilus such as Micropolyspora faeni and Thermoactinomyces vulgaris. In recent years, various preventive measures have been taken. For instance, in order to prevent hay from heating by fermentation and the thermophile from thriving, farmers desiccate hay as much as possible and keep it in air-tight plastic containers. The result is a notable decrease in the prevalence rate of this ailment. Nonetheless, with graying the rural population, pulmonary fibrosis caused by chronic exposure to low levels of organic dust is posing a grave health problem in the dairy farming communities. As a prophylactic measure against chronic fibrotic lung disease, there is a need to implement a comprehensive heath control program consisting of continual sanitary checkups at workplace and counseling at an early stage in addition to periodic health examinations. Another health threat which has more recently loomed up in the dairy farming communities is environmental pollution.