保健衛生学部

SUGAMA JUNKO

  (須釜 淳子)

Profile Information

Affiliation
Professor, Fujita Health University
Degree
博士(保健学)(金沢大学)

J-GLOBAL ID
200901084794521937
researchmap Member ID
1000120786

Papers

 480
  • Sayuri Nakamura, Naoko Kageura, Makoto Oe, Yuko Matsui, Tomomi Horiguchi, Terumi Ueda, Natsuko Seto, Toshihiko Yanagita, Junko Sugama
    Journal of International Nursing Research, 3(1) e2023-0010, Feb 23, 2024  
  • Tomomi Horiguchi, Sayuri Nakamura, Yuko Matsui, Terumi Ueda, Naoko Kageura, Makoto Oe, Natsuko Seto, Toshihiko Yanagita, Junko Sugama
    Diabetology International, Oct 25, 2023  
  • 沖田 翔平, 高田 千嘉, 大江 真琴, 須釜 淳子, 大桑 麻由美
    日本創傷・オストミー・失禁管理学会誌, 27(3) 515-524, Oct, 2023  
  • 津田 裕子, 紺家 千津子, 松本 勝, 小柳 礼恵, 仲上 豪二朗, 須釜 淳子, 真田 弘美
    日本創傷・オストミー・失禁管理学会誌, 27(2) 400-400, Jun, 2023  
  • Kohei Ogura, Maho Endo, Takashi Hase, Hitomi Negami, Kohsuke Tsuchiya, Takumi Nishiuchi, Takeshi Suzuki, Kazuhiro Ogai, Hiromi Sanada, Shigefumi Okamoto, Junko Sugama
    Clinical proteomics, 20(1) 9-9, Mar 9, 2023  
    BACKGROUND: Aspiration pneumonia (AP), which is a major cause of death in the elderly, does present with typical symptoms in the early stages of onset, thus it is difficult to detect and treat at an early stage. In this study, we identified biomarkers that are useful for the detection of AP and focused on salivary proteins, which may be collected non-invasively. Because expectorating saliva is often difficult for elderly people, we collected salivary proteins from the buccal mucosa. METHODS: We collected samples from the buccal mucosa of six patients with AP and six control patients (no AP) in an acute-care hospital. Following protein precipitation using trichloroacetic acid and washing with acetone, the samples were analyzed by liquid chromatography and tandem mass spectrometry (LC-MS/MS). We also determined the levels of cytokines and chemokines in non-precipitated samples from buccal mucosa. RESULTS: Comparative quantitative analysis of LC-MS/MS spectra revealed 55 highly (P values < 0.10) abundant proteins with high FDR confidence (q values < 0.01) and high coverage (> 50%) in the AP group compared with the control group. Among the 55 proteins, the protein abundances of four proteins (protein S100-A7A, eukaryotic translation initiation factor 1, Serpin B4, and peptidoglycan recognition protein 1) in the AP group showed a negative correlation with the time post-onset; these proteins are promising AP biomarker candidates. In addition, the abundance of C-reactive protein (CRP) in oral samples was highly correlated with serum CRP levels, suggesting that oral CRP levels may be used as a surrogate to predict serum CRP in AP patients. A multiplex cytokine/chemokine assay revealed that MCP-1 tended to be low, indicating unresponsiveness of MCP-1 and its downstream immune pathways in AP. CONCLUSION: Our findings suggest that oral salivary proteins, which are obtained non-invasively, can be utilized for the detection of AP.

Misc.

 233

Books and Other Publications

 5

Presentations

 53

Research Projects

 68