Academic background
Business career
Book and thesis
Academic conference presentation
Subject
Main Subject
photo
    (Last updated : 2025-07-11 13:55:35)
  ISHIDA Mari
   Hiroshima shudo University  The Faculty of Health Sciences
   Professor
■ Present specialized field
●Specialized field
●Keyword
●The main research themes
●Capable of joint research and research consultation content
■ Academic background
1. 1991/04~1994/03 Hiroshima University Graduate School, Division of Medical Sciences 〔Doctoral course〕 Completed
2. ~1987/03 Hiroshima University Faculty of Medicine Graduated
■ Book and thesis
1. Book Cardiovascular Diseases and Medical Diagnostic Radiation Exposure (Collaboration) 2023/10 Link
2. Thesis Aged Garlic Extract Attenuates CaCl2-Induced Abdominal Aortic Aneurysm Formation by Inhibiting Matrix Metalloproteinase 9 Expression in Macrophages. (Collaboration) 2025/03
3. Thesis Digital hypertension, implementation hypertension, and internationalization - 3 pillars of Japanese Society of Hypertension 2024-2026 advancing hypertension science from Japan to the world in the information network era. (Collaboration) 2025/01
4. Thesis Decreased plasma cell-free mitochondrial DNA may be a new biomarker of tachycardia-induced cardiomyopathy in patients with atrial fibrillation. (Collaboration) 2024/12
5. Thesis Task Shifting in Cardiac Catheterization to Sustain Physicians and Acute Coronary Syndrome Response Centers - Findings From the 2024 Japanese Circulation Society Chugoku-Shikoku Regional Survey. (Collaboration) 2024/10
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■ Academic conference presentation
1. 2024/11/27 DNA damage accumulation impedes cardiac repair after myocardial infarction by diminishing IL-10 expression.
2. 2024/05 Activation of Cgas-sting Axis By DNA Double-strand Breaks In Atherosclerosis: A Possible Link From DNA Damage To Infammation And Cell Senescence (Vascular Discovery 2024 Scientific Session)
3. 2024/05 Plasma mitochondria cell-free DNA is a possible biomarker for atherosclerosis (28th Asian Pacific Society of Cardiology Congress and the 15th Annual Emirates Cardiac Society Congress)
4. 2024/04 S-1-PROPENYLCYTEINE SUPPRESSES INFLAMMATION BY PROMOTING ANTI-INFLAMMATORY M2C MACROPHAGE POLARIZATION THROUGH PROLONGED ACTIVATION OF IL-10 RECEPTOR/STAT3 SIGNALING (International Garlic Symposium 2024)
■ Subject
1. Anatomical Physiology Experiment
2. Anatomical Physiology Experiment
3. Clinical Medicine Ⅰ
4. Clinical Medicine Ⅱ
5. Clinical Medicine Ⅲ
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