Your search keyword '"Hideki Senoh"' showing total 5 results

1. Multi‐organ carcinogenicity by inhalation exposure to 2‐Bromopropane in rats

Author

Hideki Senoh, Tatsuya Kasai, Shigeyuki Hirai, Yusuke Furukawa, Kyohei Misumi, Yuko Goto, Kenji Takanobu, Michiharu Matsumoto, Shoji Fukushima, and Shigetoshi Aiso

Subjects

Public Health, Environmental and Occupational Health

Published

2023

2. Comparison of single or multiple intratracheal administration for pulmonary toxic responses of nickel oxide nanoparticles in rats

Author

Kenji Takanobu, Hideki Senoh, Hitomi Kondo, Shoji Fukushima, Makoto Ohnishi, Yumi Umeda, Shigetoshi Aiso, Masaaki Suzuki, and Hirokazu Kano

Subjects

Male, Necrosis, Original, Phagocytosis, Inflammation, 010501 environmental sciences, Pharmacology, 01 natural sciences, Toxicology, Random Allocation, 03 medical and health sciences, 0302 clinical medicine, Nickel, medicine, Animals, Nickel oxide, Lung, 0105 earth and related environmental sciences, Lung toxicity, Injection, Intratympanic, Dose-Response Relationship, Drug, medicine.diagnostic_test, Inhalation, business.industry, Public Health, Environmental and Occupational Health, Nanomaterial, 030210 environmental & occupational health, Rats, Inbred F344, Rats, BALF, Bronchoalveolar lavage, medicine.anatomical_structure, Intratracheal administration, Toxicity, Nanoparticles, Rat, medicine.symptom, business, Bronchoalveolar Lavage Fluid

Abstract

Objectives In this study, we focused on the qualitative and quantitative differences of the lung lesions induced by single or multiple intratracheal administration of nickel oxide nanoparticles (NiO). Methods Male rats were randomized into groups receiving intratracheal administrations in a single dose or two to four divided doses of 2 mg/kg/bw. Bronchoalveolar lavage fluid (BALF) analyses were performed at 3 and 28 d post-dose. Histopathological analyses were performed at 28 and 91 d post-dose. Results BALF analyses revealed pulmonary injury, inflammation, and increases in the parameters indicating processing the foreign material in all the NiO-treated groups. Histopathological analyses showed the phagocytosis of NiO by alveolar macrophages, degeneration and necrosis of alveolar macrophages, and inflammatory responses. In the comparison between single and multiple administrations, the trend for stronger toxicity effects was observed after multiple application at 3 d post-dose, while the obvious toxicity effects were also seen in case of single administration. No particular differences of lung lesions depending on the frequency of administration at 28 and 91 d post-dose were evident. Conclusion Intratracheal NiO administration induced strong toxic response thoroughly even by single administration. Therefore, single administration was concluded to be applicable to assess the inhalation toxicity of nanomaterials and can be used in the screening test.

Published

2017

3. Quantitative evaluation of local pulmonary distribution of TiO2in rats following single or multiple intratracheal administrations of TiO2nanoparticles using X-ray fluorescence microscopy

Author

Hideki Senoh, Masashi Gamo, Takeshi Sasaki, Masaaki Suzuki, Shoji Fukushima, Hirokazu Kano, Guihua Zhang, and Naohide Shinohara

Subjects

Pathology, medicine.medical_specialty, Lung, Chemistry, Tio2 nanoparticles, 02 engineering and technology, 021001 nanoscience & nanotechnology, 010403 inorganic & nuclear chemistry, Toxicology, Multiple dosing, 01 natural sciences, Lung lobe, 0104 chemical sciences, medicine.anatomical_structure, Microscopy, medicine, Distribution (pharmacology), 0210 nano-technology

Abstract

Uneven pulmonary nanoparticle (NP) distribution has been described when using single-dose intratracheal administration tests. Multiple-dose intratracheal administrations with small quantities of NPs are expected to improve the unevenness of each dose. The differences in local pulmonary NP distribution (called microdistribution) between single- and multiple-dose administrations may cause differential pulmonary responses; however, this has not been evaluated. Here, we quantitatively evaluated the pulmonary microdistribution (per mesh: 100 μm × 100 μm) of TiO2 in lung sections from rats following one, two, three, or four doses of TiO2 NPs at a same total dosage of 10 mg kg(-1) using X-ray fluorescence microscopy. The results indicate that: (i) multiple-dose administrations show lower variations in TiO2 content (ng mesh(-1) ) for sections of each lobe; (ii) TiO2 appears to be deposited more in the right caudal and accessory lobes located downstream of the administration direction of NP suspensions, and less so in the right middle lobes, irrespective of the number of doses; (iii) there are not prominent differences in the pattern of pulmonary TiO2 microdistribution between rats following single and multiple doses of TiO2 NPs. Additionally, the estimation of pulmonary TiO2 deposition for multiple-dose administrations imply that every dose of TiO2 would be randomly deposited only in part of the fixed 30-50% of lung areas. The evidence suggests that multiple-dose administrations do not offer remarkable advantages over single-dose administration on the pulmonary NP microdistribution, although multiple-dose administrations may reduce variations in the TiO2 content for each lung lobe. Copyright © 2016 John Wiley & Sons, Ltd.

Published

2016

4. Quantitative evaluation of the pulmonary microdistribution of TiO2nanoparticles using X-ray fluorescence microscopy after intratracheal administration with a microsprayer in rats

Author

Masashi Gamo, Shoji Fukushima, Hideki Senoh, Naohide Shinohara, Masaaki Suzuki, Takeshi Sasaki, Guihua Zhang, and Hirokazu Kano

Subjects

Detection limit, Reproducibility, Pathology, medicine.medical_specialty, Lung, Chemistry, Radiochemistry, Tio2 nanoparticles, X-ray fluorescence, Toxicology, Fluorescence, medicine.anatomical_structure, Microscopy, medicine, Fluorescence microscope

Abstract

The unevenness of pulmonary nanoparticle (NP) distribution, which hinders the establishment of an absolute dose–response relationship, has been described as one of the limitations of intratracheal administration techniques for toxicological assessment of inhaled NPs. Quantification of the NP microdistribution would facilitate the establishment of a concentration–response relationship in localized regions of the lung; however, such quantitative methods have not been reported. Here, we established a quantitative method for evaluating pulmonary TiO2 NP microdistribution in rats using X-ray fluorescence microscopy. Ti intensity in lung sections from rats intratracheally administered 10 mg kg–1 TiO2 NPs with a microsprayer was measured using X-ray fluorescence with a 100 µm beam size. Ti reference samples were prepared by dropping different concentrations of Ti solutions on glass slide or lung sections of untreated rat. Ti intensity increased linearly with Ti content in the reference samples on both substrates. The detection limit of TiO2 was estimated to be 6.3 ng mm–2. The reproducibility was confirmed for measurements done in the short- (2 weeks) and long-term (6 months). The quantitative results of TiO2 NP microdistribution suggested that more TiO2 NPs were distributed in the right caudal and accessory lobes, which are located downstream of the administration direction of the NP suspension, and the lower portion of each lobe. The detection rates of TiO2 NPs were 16.6–25.0%, 5.19–15.6%, 28.6–39.2%, 21.4–38.7% and 10.6–23.2% for lung sections from the right cranial, middle, caudal, accessory and left lobes, respectively. Copyright © 2015 John Wiley & Sons, Ltd.

Published

2015

5. Carcinogenicity and Chronic Toxicity after Inhalation Exposure of Rats and Mice to N,N ‐Dimethylformamide

Author

Shigetoshi Aiso, Tomoshi Nishizawa, Heihachiro Arito, Hideki Senoh, Taijiro Matsushima, Kasuke Nagano, and Seigo Yamamoto

Subjects

Male, medicine.medical_specialty, Hepatoblastoma, Pathology, Carcinoma, Hepatocellular, Time Factors, Bilirubin, Mice, Random Allocation, chemistry.chemical_compound, Internal medicine, Administration, Inhalation, medicine, Animals, Chronic toxicity, Carcinogen, Inhalation exposure, Dose-Response Relationship, Drug, Inhalation, business.industry, Body Weight, Liver Neoplasms, Public Health, Environmental and Occupational Health, Dimethylformamide, Hepatocellular adenoma, medicine.disease, Rats, Inbred F344, digestive system diseases, Rats, Dose–response relationship, Endocrinology, Liver, chemistry, Female, business

Abstract

Carcinogenicity and chronic toxicity of N,N-Dimethylformamide (DMF) were examined by inhalation exposure of groups of 50 rats and 50 mice of both sexes to DMF vapor at a concentration of 0, 200, 400 or 800 ppm (v/v) for 6 h/d, 5 d/wk, for 104 wk. In rats, incidences of hepatocellular adenomas and carcinomas significantly increased in the 400 and 800 ppm-exposed groups and in the 800 ppm-exposed group, respectively. The hepatocellular adenoma did not increase significantly in the 400 ppm-exposed female rats, but its incidence exceeded a range of historical control data in the Japan Bioassay Research Center (JBRC). In mice, incidences of hepatocellular adenomas and carcinomas significantly increased in all the DMF-exposed groups. Incidence of hepatoblastomas significantly increased in the 200 and 400 ppm-exposed male mice, and 4 cases of hepatoblastomas in the 400 ppm-exposed female mice and the 800 ppm-exposed male mice exceeded the range of historical control data of the JBRC. Incidences of altered cell foci increased in the liver of exposed rats and mice in an exposure concentration-related manner, and those foci were causally related to the hepatocellular tumors. Liver weights increased in both rats and mice exposed to DMF at 200 ppm and above. Increased levels of gamma-GTP, ALT, AST and total bilirubin in exposed rats of both sexes and AST and ALT in exposed mice of both sexes were noted. It was concluded that 2-yr inhalation exposure to DMF increased incidences of hepatocellular adenomas and carcinomas in rats and incidences of hepatocellular adenomas, carcinomas and hepatoblastomas in mice, and that hepatocarcinogenicity of DMF was more potent in mice than in rats.

Published

2004