理工学部 教授

Satoka Aoyagi

  (青柳 里果)

Profile Information

Affiliation
Professor, Faculty of Science and Technology Department of Science and Technology , Seikei University
Degree
Doctor (Engineering)(Waseda University)

Contact information
aoyagist.seikei.ac.jp
J-GLOBAL ID
200901091291128843
researchmap Member ID
5000010522

External link

Papers

 124
  • Md Foyzur Rahman, Ariful Islam, Md Monirul Islam, Md Al Mamun, Lili Xu, Takumi Sakamoto, Tomohito Sato, Yutaka Takahashi, Tomoaki Kahyo, Satoka Aoyagi, Kozo Kaibuchi, Mitsutoshi Setou
    International journal of molecular sciences, 25(14), Jul 21, 2024  
    Mass spectrometry imaging (MSI) is essential for visualizing drug distribution, metabolites, and significant biomolecules in pharmacokinetic studies. This study mainly focuses on imipramine, a tricyclic antidepressant that affects endogenous metabolite concentrations. The aim was to use atmospheric pressure matrix-assisted laser desorption/ionization (AP-MALDI)-MSI combined with different dimensionality reduction methods to examine the distribution and impact of imipramine on endogenous metabolites in the brains of treated wild-type mice. Brain sections from both control and imipramine-treated mice underwent AP-MALDI-MSI. Dimensionality reduction methods, including principal component analysis, multivariate curve resolution, and sparse autoencoder (SAE), were employed to extract valuable information from the MSI data. Only the SAE method identified phosphorylcholine (ChoP) as a potential marker distinguishing between the control and treated mice brains. Additionally, a significant decrease in ChoP accumulation was observed in the cerebellum, hypothalamus, thalamus, midbrain, caudate putamen, and striatum ventral regions of the treated mice brains. The application of dimensionality reduction methods, particularly the SAE method, to the AP-MALDI-MSI data is a novel approach for peak selection in AP-MALDI-MSI data analysis. This study revealed a significant decrease in ChoP in imipramine-treated mice brains.
  • Satoka Aoyagi, Daisuke Hayashi, Yoshiharu Murase, Naoya Miyauchi, Akiko N. Itakura
    e-Journal of Surface Science and Nanotechnology, Feb 25, 2023  
  • Akiko N. ITAKURA, Yoshiharu MURASE, Taro YAKABE, Naoya MIYAUCHI, Masahiro KITAJIMA, Satoka AOYAGI
    Vacuum and Surface Science, 64(12) 568-574, Dec 10, 2021  
  • Akiko N. Itakura, Naoya Miyauchi, Yoshiharu Murase, Taro Yakabe, Masahiro Kitajima, Satoka Aoyagi
    Scientific Reports, 11(1), Dec, 2021  
    <title>Abstract</title>The dynamics of hydrogen in metals with mixed grain structure is not well understood at a microscopic scale. One of the biggest issues facing the hydrogen economy is “hydrogen embrittlement” of metal induced by hydrogen entering and diffusing into the material. Hydrogen diffusion in metallic materials is difficult to grasp owing to the non-uniform compositions and structures of metal. Here a time-resolved “operando hydrogen microscope” was used to interpret local diffusion behaviour of hydrogen in the microstructure of a stainless steel with austenite and martensite structures. The martensite/austenite ratios differed in each local region of the sample. The path of hydrogen permeation was inferred from the time evolution of hydrogen permeation in several regions. We proposed a model of hydrogen diffusion in a dual-structure material and verified the validity of the model by simulations that took into account the transfer of hydrogen at the interfaces.
  • Satoka AOYAGI, Tomomi AKIYAMA, Natsumi SUZUKI, Naoya MIYAUCHI, Akiko N. ITAKURA
    Vacuum and Surface Science, 64(10) 472-475, Oct 10, 2021  

Misc.

 76

Books and Other Publications

 9

Presentations

 88

Teaching Experience

 7

Research Projects

 13

Academic Activities

 1
  • Planning, Management, etc.
    Versailles Project on Advanced Materials and Standards (VAMAS), Mar 1, 2019 - Present