Funding
| Period | Funding Program | Project Title |
| 2025 – 2027 | JSPS KAKENHI Grant-in-Aid for Scientific Research (B) | Elucidating novel neurotoxicity mechanisms mediated by chemical-induced glial activation and identification of biomarkers |
| 2024 – 2025 | JSPS KAKENHI Grant-in-Aid for Challenging Research (Pioneering) | Exploratory study on upstream molecular mechanisms of chemical-induced neurotoxicity based on glia–neuron interaction disruption |
| 2024 – 2026 | ERCA (Environment Research and Technology Development Fund) Innovative Research and Development (Early-Career Researchers A) | Development of practical assessment methods for the combined risks of co-exposure to pesticides on the central nervous system |
| 2024 | The First Bank of Toyama Scholarship Foundation Grant for Research Activities | Identification of novel neurotoxicity biomarkers using chemical-induced neuroinflammation as an indicator |
| 2023 – 2024 | The Kato Memorial Bioscience Foundation The 34th (FY2022) Kato Memorial Research Grant | Elucidation of mechanisms and development of novel biomarkers for neurotoxicity induced by neuroinflammation |
| 2022 – 2023 | JSPS KAKENHI Grant-in-Aid for Early-Career Scientists | Elucidation of pesticide-induced neurotoxicity mechanisms via neuroinflammation and identification of microRNA biomarkers |
| 2019 – 2021 | JSPS KAKENHI Grant-in-Aid for Early-Career Scientists | Development of a novel risk assessment method to detect "stress response disruption" caused by environmental chemicals |
| 2017 – 2018 | JSPS KAKENHI Grant-in-Aid for Research Activity Start-up | Elucidation of mechanisms underlying "stress vulnerability" induced by environmental chemicals and establishment of biomarkers |
| 2017 | The Sumitomo Foundation Fiscal 2017 Grant for Environmental Research Projects | Development of a novel impact assessment method to detect "stress response disruption" caused by environmental chemicals |
| 2016 – 2017 | JSPS KAKENHI Grant-in-Aid for JSPS Fellows | Environmental chemical sensitivity governed by stress: Evaluation of combined risks of stress and environmental chemicals |