Mari Ishida

Last Updated :2023/02/02

Affiliations, Positions
Graduate School of Biomedical and Health Sciences(Medicine), Associate Professor
E-mail
marihiroshima-u.ac.jp
Self-introduction
After graduating from Hiroshima University School of Medicine in 1987, I did my residency at Shizuoka General Hospital and became a cardiologist. After receiving my degree in the First Department of Internal Medicine at Hiroshima University, I spent four years doing research under Dr. Bradford C. Berk, Cardiology Division, University of Washington, Seattle, U.S.A., laying the foundation for my research. Currently, I am engaged in clinical practice of cardiology, research, and education of medical and graduate students. My research focuses on elucidating the pathogenesis of atherosclerotic diseases. Since the incidence of atherosclerotic diseases is high among A-bomb survivors and premature aging syndromes with genomic damage repair abnormalities often have atherosclerosis as a major symptom, we focus on genomic damage and repair abnormalities in the pathogenesis of atherosclerosis. Through this research, we hope to contribute to the prevention and treatment of atherosclerotic diseases, and at the same time, to help elucidate the mechanism of human aging.

Basic Information

Major Professional Backgrounds

  • 1987/04/01, 1987/05/31, Hiroshima University, Hospital, internship
  • 1987/06/01, 1990/03/31, Shizuoka General Hospital, doctor
  • 1990/04/01, 1991/03/31, Kure Memorial Hospital, doctor
  • 1992/04/01, 1994/03/31, Hiroshima University, Graduate School, graduate student
  • 1994/06/22, 1998/09/30, University of Washington, Division of Cardiology, posdoc
  • 1998/10/01, 2002/09/30, Hiroshima University, Department of Clinical Laboratory, doctor
  • 2002/10/01, 2006/02/28, Hiroshima University, Division of Genome Biology, Research Institute for Radiation Biology and Medicine, assistant professor
  • 2006/03/01, 2006/12/31, Hiroshima University, Department of Cardiovascular Physiology and Medicine, Graduate School of Biomedical Sciences, assistant professor
  • 2007/01/01, 2018/01/31, Hiroshima University, Department of Cardiovascular Physiology and Medicine, Graduate School of Biomedical Sciences, associate professor
  • 2018/02/01, 2019/03/31, Hiroshima University, Graduate School of Biomedical & Health Sciences, Associate Professor
  • 2019/04/01, Hiroshima University, Graduate School of Biomedical & Health Sciences, Associate Professor

Educational Backgrounds

  • Hiroshima University, Faculty of Medicine, Japan, 1981/04, 1987/03
  • Hiroshima University, Graduate School, Division of Medical Sciences, Japan, 1991/04, 1994/03

Academic Degrees

  • Doctor of Philosophy in Medical Science, Hiroshima University

Educational Activity

  • [Bachelor Degree Program] School of Medicine : Program of Medicine : Medicine
  • [Master's Program] Graduate School of Biomedical and Health Sciences : Division of Integrated Health Sciences : Program of Biomedical Science
  • [Doctoral Program] Graduate School of Biomedical and Health Sciences : Division of Integrated Health Sciences : Program of Biomedical Science
  • [Doctoral Program] Graduate School of Biomedical and Health Sciences : Division of Biomedical Sciences : Program of Medicine

In Charge of Primary Major Programs

  • Medicine

Research Fields

  • Medicine,dentistry, and pharmacy;Clinical internal medicine;Cardiovascular medicine

Research Keywords

  • signal transduction
  • Pathophysiology Analysis of Cardiovascular Disease
  • senescence
  • DNA damage and damage response

Affiliated Academic Societies

  • The Physiological Society of Japan
  • American Heart Association
  • The Japanese Society of Internal Medicine
  • Japan Atherosclerosis Society
  • The Japanese Circulation society
  • The Japanese Society of Hypertension
  • The Japan Geriatrics Society
  • Japanese college of angiology
  • Japanese vascular biology and medicine organization
  • Japan Society for Medical Education

Educational Activity

Course in Charge

  1. 2022, Undergraduate Education, Year, Physiology and Biochemistry
  2. 2022, Undergraduate Education, 2Term, Introduction for medical research
  3. 2022, Undergraduate Education, Intensive, Practice for medical research
  4. 2022, Graduate Education (Master's Program) , First Semester, Seminar
  5. 2022, Graduate Education (Master's Program) , First Semester, Research
  6. 2022, Graduate Education (Master's Program) , Second Semester, Research
  7. 2022, Graduate Education (Doctoral Program) , First Semester, Advanced Seminar
  8. 2022, Graduate Education (Doctoral Program) , Second Semester, Advanced Seminar
  9. 2022, Graduate Education (Doctoral Program) , First Semester, Advanced Research
  10. 2022, Graduate Education (Doctoral Program) , Second Semester, Advanced Research
  11. 2022, Graduate Education (Master's Program) , First Semester, Physiology and Biological Chemistry
  12. 2022, Graduate Education (Master's Program) , 1Term, Advanced Lecture on Preventive Medicine for Evidence-based Health Guidance A
  13. 2022, Graduate Education (Doctoral Program) , First Semester, Advanced Seminar on Cardiovascular Physiology and Medicine
  14. 2022, Graduate Education (Doctoral Program) , Second Semester, Advanced Seminar on Cardiovascular Physiology and Medicine
  15. 2022, Graduate Education (Doctoral Program) , First Semester, Advanced Research on Cardiovascular Physiology and Medicine
  16. 2022, Graduate Education (Doctoral Program) , Second Semester, Advanced Research on Cardiovascular Physiology and Medicine

Research Activities

Academic Papers

  1. DNA Damage Induced by Radiation Exposure from Cardiac Catheterization An Analysis in Patients and Operators, INTERNATIONAL HEART JOURNAL, 63(3), 466-475, 202205
  2. A Combination of Iohexol Treatment and Ionizing Radiation Exposure Enhances Kidney Injury in Contrast-Induced Nephropathy by Increasing DNA Damage, RADIATION RESEARCH, 197(4), 384-395, 202204
  3. Relationship between official Twitter ambassadors and the Number of Retweets in the annual congress-Tweet the meeting-, Circ. Rep., 3, 414-418, 202106
  4. How to deal with hypertension in the COVID-19 era-the impact "ON" and "OF" hypertension., Hypertens Res. 45:548-550. 2022, 45, 548-550, 20220301
  5. Current Diversity Issues in Cardiovascular Workplaces in the Chugoku District- Results From 2 Questionnaire Surveys., Circ. Rep., 4, 59-65, 202105
  6. Impact of Tweeting Summaries by the Japanese Circulation Society Official Account on Article Viewership-Pilot Trial, CIRCULATION JOURNAL, 86(4), 715-720, 202204
  7. Effects of insulin on calcium metabolism and platelet aggregation., Hypertension, 28(2), 209-212, 19960801
  8. Dietary salt decreases cytosolic calcium in platelets from Dahl salt-sensitive rats., American Journal of Physiology, 269, R1225-R1229, 19951101
  9. Role of intracellular sodium concentration and autonomic nervous systems in blood pressure requlation., Hypertension Research, 17, 17-22, 19940401
  10. Platelet calcium handling in spontaneously hypertensive rats and in three strains of normotensive rats., Journal of Hypertension, 11(5), 509-514, 19930501
  11. Na+ - Ca2+ exchange modulates Ca2+ handling of human platelets by altering intracellular Ca2+ store size., Journal of Hypertension, 11(10), 1089-1095, 19931001
  12. Primary Aldosteronism with ipsilateral adrenal cyst: report of a case., Endocrine Journal, 40(5), 619-624, 19931001
  13. Familial influence upon NaCl sensitivity in patients with essential hypertension., Journal of Hypertension, 10(9), 1089-1094, 19920901
  14. Time-course of changes in intracellular cations and blood pressure with salt loading in patients with essential hypertension, Journal of Hypertension, 9(6), S302-S303, 19911201
  15. Role of intracellular cation abnormalities in development of left ventricular hypertrophy., Journal of Cardiovascular Pharmacology, 17(S2), S107-S109, 19910201
  16. Angiotensin I-converting enzyme gene polymorphism and salt sensitivity in essential hypertension., Hypertension, 27, 569-572, 19960301
  17. Platelet Ca2+ is not increased in stroke-prone spontaneously hypertensive rats : comparative study with spontaneously hypertensive rats, Hypertension, 27(6), 1312-1317, 19960601
  18. Modulation of target tissue response to angiotensin and sodium sensitivity in Japanese patients with essential hypertension, Hypertension Research, 19(3), 141-145, 19960901
  19. Lack of effect of ouabain on calcium homeostasis in rat platelets:comparative study with human platelets., American Journal of Physiology, 266, R651-R657, 19940301
  20. Effects of age and sex on sodium chloride sensitivity:association with plasma renin activity., Clinical Nephrology, 42(6), 376-380, 19941201
  21. Erythrocyte sodium cannot predict hypotensive effects of calcium channel blockers., Japanese Journal of Nephrology, 35(11), 1227-1231, 19931101
  22. Haploinsufficiency of Rad51B Causes Centrosome Fragmentation and Aneuploidy in Human Cells., Cancer Res., 66, 20060401
  23. Haploinsufficiency of the Mus81-Eme1 endonuclease activates the intra-S-phase and G2/M checkpoints and promotes rereplication in human cells., Nucleic Acids Res., 34, 880-92, 20060401
  24. ★, XRCC3 deficiency results in a defect in recombination and increased endoreduplication in human cells., EMBO J., 23, 670-80, 20040401
  25. Matrix metalloproteinase-9 contributes to human atrial remodeling during atrial fibrillation., J Am Coll Cardiol, 43, 818-25, 20040401
  26. Effect of amlodipine and cilazapril treatment on platelet Ca2+ handling in spontaneously hypertensive rats., Hypertens. Res., 26, 901-6, 20030401
  27. The third cytoplasmic loop of the angiotensin II type 1 receptor exerts differential effects on extracellular signal-regulated kinase (ERK1/ERK2) and apoptosis via Ras- and Rap1-dependent pathways., Circ Res, 86(7), 729-36, 20000401
  28. Angiotensin II induces transactivation of two different populations of the platelet-derived growth factor beta receptor. Key role for the p66 adaptor protein Shc., J. Biol. Chem., 275(21), 15926-32, 20000401
  29. p38 Kinase is a negative regulator of angiotensin II signal transduction in vascular smooth muscle cells: effects on Na+/H+ exchange and ERK1/2., Circ Res, 83(8), 824-31, 19980401
  30. Angiotensin II stimulates tyrosine phosphorylation of phospholipase C-gamma-associated proteins. Characterization of a c-Src-dependent 97-kD protein in vascular smooth muscle cells., Circ Res, 81(4), 550-7, 19970401
  31. c-Src is required for oxidative stress-mediated activation of big mitogen-activated protein kinase 1., J. Biol. Chem., 272(33), 20389-94, 19970401
  32. Angiotensin II signal transduction in vascular smooth muscle cells: role of tyrosine kinases, Keio J. Med., 46(2), 61-8, 19970401
  33. Lack of increase in platelet Ca2+ and Na+ in deoxycorticosterone acetate-salt hypertensive rats., Am. J. Physiol., 267, R1288-93, 19940401
  34. Role of the JNK pathway in thrombin-induced ICAM-1 expression in endothelial cells., Cardiovascular Research, 68(2), 289-298, 20051101
  35. ★, Mnk1 is required for angiotensin II-induced protein synthesis in vascular smooth muscle cells., Circulation Research, 93(12), 1218-24, 20031212
  36. Shear stress-mediated extracellular signal-regulated kinase activation is regulated by sodium in endothelial cells. Potential role for a voltage-dependent sodium channel., J. Biol. Chem., 274(29), 20144-50, 19990716
  37. Agonist-stimulated cytoskeletal reorganization and signal transduction at focal adhesions in vascular smooth muscle cells require c-Src., J. Clin. Invest., 103(6), 789-97, 19990301
  38. Angiotensin II stimulates p21-activated kinase in vascular smooth muscle cells: role in activation of JNK., Circ Res, 82(12), 1272-8, 19980629
  39. Activation of extracellular signal-regulated kinases (ERK1/2) by angiotensin II is dependent on c-Src in vascular smooth muscle cells., Circ Res, 82(1), 7-12, 19980109
  40. Angiotensin II activates pp60c-src in vascular smooth muscle cells., Circ Res, 77(6), 1053-9, 19951201
  41. Beneficial effect of T-type calcium channel blockers on endotheial function in patients with essential hypertension., Hypertens Res, 28(11), 889-894, 20051101
  42. Angiotensin II-induced Osteopontin Expression in Vascular Smooth Muscle Cells Involves Gq/11, Ras, ERK, Src and Ets-1., Hypertension Research, 31(5), 987-998, 20080501
  43. Nifedipine interferes with migration of vascular smooth muscle cells via inhibition of Pyk2-Src axis., J Atheroscler Thromb, 16(3), 230-238, 20090601
  44. The ATR-Chk1 pathway plays a role in the generation of centrosome aberrations induced by Rad51C dysfunction., Nucleic Acids Res., 37(12), 3959-3968, 20090701
  45. Apoptosis is not increased in myocardium overexpressing type 2 angiotensin II receptor in transgenic mice, HYPERTENSION, 37(6), 1394-1398, 20010601
  46. Role of DNA Damage in Cardiovascular Disease, CIRCULATION JOURNAL, 78(1), 42-50, 201401
  47. Smoking Cessation Reverses DNA Double-Strand Breaks in Human Mononuclear Cells, PLOS ONE, 9(8), 20140805
  48. Osteoprotegerin Prevents Development of Abdominal Aortic Aneurysms, PLOS ONE, 11(1), 20160119
  49. DNA damage in lymphocytes induced by cardiac CT and comparison with physical exposure parameters., Eur Radiol., doi:10.1007/s00330-016-4519-8, 1-7, 201608
  50. EPA Prevents the Development of Abdominal Aortic Aneurysms through Gpr-120/Ffar-4, PLOS ONE, 11(10), 20161020
  51. DNA damage in lymphocytes induced by cardiac CT and comparison with physical exposure parameters, EUROPEAN RADIOLOGY, 27(4), 1660-1666, 201704
  52. Fish oil omega-3 polyunsaturated fatty acids attenuate oxidative stress-induced DNA damage in vascular endothelial cells, PLos One, 12(11), e0187934, 201711
  53. XRCC3 polymorphism is associated with hypertension-induced left ventricular hypertrophy, HYPERTENSION RESEARCH, 41(6), 426-434, 20180601
  54. Chromosomal Abnormalities in Human Lymphocytes after Computed Tomography Scan Procedure, RADIATION RESEARCH, 190(4), 424-432, 20181001
  55. DNA Damage and Senescence-Associated Inflammation in Cardiovascular Disease, BIOLOGICAL & PHARMACEUTICAL BULLETIN, 42(4), 531-537, 201904
  56. JSH Statement: Asahikawa declaration in promotion of diversity by the Japanese society of hypertension-the JSH Asahikawa declaration., Hypertens Res, 42, 1483-1484, 201901
  57. Genetic Prediction of Atherosclerosis - Significance of Polymorphisms in Bone Morphogenetic Protein Signaling Molecule Genes., Circ J, 83(4), 709-710, 20190325
  58. Elevated Plasma Renin Activity Caused by Accelerated-malignant Hypertension in a Patient with Aldosterone-producing Adenoma Complicated with Renal Insufficiency, INTERNAL MEDICINE, 58(21), 3107-3111, 2019
  59. ★, Biological Effects of Low-Dose Chest CT on Chromosomal DNA, RADIOLOGY, 295(2), 439-445, 202005
  60. Coronavirus Disease 2019 (COVID-19) Information for Cardiologists -Systematic Literature Review and Additional Analysis-, CIRCULATION JOURNAL, 84(6), 1039-1043, 20200525
  61. Disruption of Osteoprotegerin has complex effects on medial destruction and adventitial fibrosis during mouse abdominal aortic aneurysm formation, PLOS ONE, 15(7), 20200702
  62. Potential Role of Twitter at annual Congress in Japan -Narrative Literature Review of "Tweet the Meeting"-, Circ Rep, 1, 401-404, 201901
  63. Recommendations for Maintaining the Cardiovascular Care System Under the Conditions of the COVID-19 Pandemic - 1st Edition, April 2020, Circ J, 84(11), 2023-2026, 20201023
  64. Two-Year Experience in "Tweeting the Meeting" During the Scientific Sessions - Rapid Report From the Japanese Circulation Society –, Circ Rep, 2, 691-694, 20200901
  65. Evaluating Individual Radiosensitivity for the Prediction of Acute Toxicities of Chemoradiotherapy in Esophageal Cancer Patients, RADIATION RESEARCH, 195(3), 244-252, 202103
  66. Cardiology Department Practices in the First Wave of the Coronavirus Disease Pandemic-A Nationwide Survey in Japan by the Japanese Circulation Society., Circ Rep, 3(3), 137-141, 20210205
  67. Cardiology Department Policy in Japan After Coronavirus Disease-2019 (COVID-19)-Descriptive Summary of 2nd Nationwide Survey by the Japanese Circulation Society., Circ Rep., 3(2), 100-104, 20210129
  68. Joint Declaration on COVID-19 by the Japan Stroke and Japanese Circulation Societies., Circ Rep., 2(6), 343-344, 20200513
  69. Smad4 regulates the nuclear translocation of Nkx2-5 in cardiac differentiation, SCIENTIFIC REPORTS, 11(1), 20210211
  70. S-1-Propenylcysteine promotes IL-10-induced M2c macrophage polarization through prolonged activation of IL-10R/STAT3 signaling, SCIENTIFIC REPORTS, 11(1), 20211117
  71. New Vision, Mission, and Values of the Japanese Circulation Society, CIRCULATION JOURNAL, 85(12), 2248-+, 202112

Invited Lecture, Oral Presentation, Poster Presentation

  1. DNA damage and inflammatory cytokine expression induced by radiation exposure from cardiac catheterization -An analysis in patients and operators-, Jin Y, Ishida T, Sakai C, Yamaki T, Kunii H, Nakazato K, Ishida M, Tashiro S, Takeishi Y, The 84rd Annual Scientific Meeting of the Japanese Circulation Society, 2020/07/27, Without Invitation, English
  2. Cigarette smoke extract induces DNA damage and accelerates cellular senescence in human endothelial cells., Ishida M, Ueda K, Sakai C, Yoshizumi M, Ishida T, ESH-ISH 2021, 2021/04/11, Without Invitation, English
  3. Impaired DNA damage response promotes atherosclerosis by enhancing cellular senescence and proinflammatory activation., Sakai C, Ishida M, Ueda K, Tashiro S, Yoshizumi M, Ishida T, The 5th International Symposium of the Network-type Joint Usage/Research Center for Radiation Disaster Medical Science, 2021/02/08, Without Invitation, English
  4. Cigarette smoke-induced nuclear and mitochondrial DNA damage evokes an innate immune response., Ueda K, Ishida M, Sakai C, Yoshizumi M, Ishida T., The 5th International Symposium of the Network-type Joint Usage/Research Center for Radiation Disaster Medical Science, 2021/02/08, Without Invitation, English
  5. Cigarette smoke extract induces the release of nuclear and mitochondrial DNA into the cytosol and chronic inflammation via activation of the cGAS-STING pathway., Ueda K, Ishida M, Sakai C, Yoshizumi M, Ishida T, 2020/12/03, Without Invitation, Japanese
  6. Role of XRCC3 polymorphism in hypertension-induced left ventricular hypertrophy, Sakai C, Ishida M, Tashiro S, Yoshizumi M, Ishida T, 2020/12/02, Without Invitation, Japanese
  7. Impaired DNA damage response promotes atherosclerosis by enhancning senescence and proinflammatory activation., Sakai C, Ishida M, Tashiro S, Yoshizumi M, Ishida T, ESC congress 2020, 2020/08/29, Without Invitation, English, European Society of Circulation, Web
  8. Role of Impaired DNA Damage Response in the Initiation and Progression of Atherosclerosis., Sakai C, Ishida M, Tashiro S, Yoshizumi M, Ishida T, The 84th Annual Scientific Meeting of the Japanese Circulation Society, 2020/07/27, Without Invitation, English
  9. Influence of Different Iodinated Contrast Material on the Induction of DNA Damage by Cardiac CT., Sakane H, Fukumoto W, Sakai C, Ishida M, Tashiro S, Awai K., RSNA 2019, 2019/12/01, Without Invitation, English
  10. Assessment of DNA damage Induced by Different Tube Voltage CT Scan Using gH2AX Focus Assay, Sakane H, Fukumoto W, Sakai C, Ishida M, Tashiro S, Awai K., RSNA 2019, 2019/12/01, Without Invitation, English
  11. Omega-3 fatty acids attenuate oxidative stress-induced DNA damage in vascular endothelial cells, 坂井千恵美、石田万里、吉栖正生、石田隆史, 2018/12/14, Without Invitation, Japanese
  12. DNA damage in peripheral blood lymphocytes Induced by low-dose chest CT: Comparison with standard dose chest CT., H. Sakane, C. Sakai, M. Ishida, W. Fukumoto, S. Tashiro, K. Awai., RSNA 2018, 2018/11/25, Without Invitation, English
  13. DNA damage and inflammatory cytokine expression induced by radiation exposure from cardiac catheterization-an analysis in patients and operators., Yuichiro Jin, Takafumi Ishida, Shunsuke Watanabe, Lin Shi, Chiemi Sakai, Masayoshi Oikawa, Atsushi Kobayashi, Takayoshi Yamaki, Hiroyuki Kunii, Kazuhiko Nakazato, Mari Ishida, Satoshi Tashiro, Yasuchika Takeishi, American Heart Association, Scientific Session 2018., 2018/11/10, Without Invitation, English
  14. Radiation sensitivity of patients with the past history of lung cancer, 2018/04/15, Without Invitation, Japanese
  15. Role of XRCC3 in cardiac hypertrophy., Chiemi Sakai, Mari Ishida, Andi Ariyandy, Takamasa Mizuta, Kiyoshi Miyagawa, Satoshi Tashiro, Masao Yoshizumi, Takafumi Ishida, The 1st JCS Council Forum on Basic Cardiovascular Reserch, 2018/01/06, Without Invitation, English
  16. Role of tumor necrosis factor-related apoptosis-inducing ligand(TRAIL)-osteoprotegerin (OPG) axis in the development of abdominal aortic aneurysm, Bumdelger Batmunkh, Hiroki Kokubo, Ryo Kamata, Masayuki Fujii, Takafumi Ishida, Mari Ishida, Koichi Yoshimura, Masao Yoshizumi, 2017/07/06, Without Invitation, English
  17. XRCC3 polymorphism is associated with hypertension-induced left ventricular hypertrophy., Chiemi Sakai, Mari Ishida, Andi Ariyandy, Takamasa Mizuta, Keitaro Ueda, Masao Yoshizumi , Takafumi Ishida, 2017/03/17, Without Invitation, English
  18. XRCC3 Polymorphism and hypertension-induced left ventricle hypertrophy., Andi Ariyandy, Chiemi Sakai, Mari Ishida, Masao Yoshizumi, Satoshi Tashiro, Kiyoshi Miyagawa and Takafumi Ishida., The 1st International Symposium of the network-type Joint Usage/Research Center for Radiation Disaster Medical Science, 2017/02/22, Without Invitation, English
  19. 22. DNA Double-strand Breaks in Blood Lymphocytes of Patients Undergoing Coronary CT: Comparison with the Physical CT Radiation Exposure Index., Wataru Fukumoto, | Mari Ishida | Satoshi Tashiro | Kenji Kajiwara, | Makoto Iida, | Kazuo Awai, MD | Chikako Fujioka, RT | Masao Kiguchi, RT, RSNA2015, 2015/12/02, Without Invitation, English
  20. Fish oils, eicosapentaenoic acid and docosahexaenoic acid, attenuate oxidative stress-induced DNA damage in vascular endothelial cells., Chiemi Sakai, Mari Ishida, Yasuki Kihara, MasaoYoshizumi, Takafumi Ishida, ESC Congress 2015, 2015/08/30, Without Invitation, English
  21. Smoking and DNA Damage., Mari Ishida, Takafumi Ishida, Yasuki Kihara, Masao Yoshizumi, The 78th Annual Scientific Meeting of the Japanese Circulation Society, 2014/03/22, Without Invitation, Japanese
  22. The effect of ezetimibe on lipid and glucose metabolism in patients with hypercholesteromia., 2013, Without Invitation, Japanese
  23. Eicosapentaenoic Acid Rreduces Formation of Abdominal Aortic Aneurysm in Osteoprotegerin Knock Out Mice., Bumdelger Batmunkh, Mari Ishida, Masayuki Fujii, Chiemi Sakai, Takafumi Ishida, Masao Yoshizumi, The 76th Annual Scientific Meeting of the Japanese Circulation Society, 2012, Without Invitation, English

External Funds

Acceptance Results of Competitive Funds

  1. 2019

Social Activities

History as Peer Reviews of Academic Papers

  1. 2020, Hypertension Research, Others, 4
  2. 2021, Experimental and Molecular Pathology, Others, 1
  3. 2021, Hypertension Research, Others, 2
  4. 2021, International Heart Journal, Others, 3
  5. 2021, Journal of Cardiology, Others, 3
  6. 2021, PLOS One, Others, 1
  7. 2021, Scientific Reports, Others, 1
  8. 2022, The Journal of Biochemistry, Others, 1
  9. 2022, Scientific Reports, Others, 1
  10. 2020, Cells, Others, 1
  11. 2020, International Journal of Environmental Research and Public Health, Others, 2
  12. 2020, International Journal of Molecular Sciences, Others, 2
  13. 2020, International Heart Journal, Others, 2
  14. 2020, J. Biochem, Others, 1
  15. 2020, Journal of Atherosclerosis and Thrombosis, Others, 1