PROFILE

MIZUNO Hiroshi, M.D., Ph.D.


Department of Plastic and Reconstructive Surgery

Short Biography

1990-1995
Residency, Plastic and Reconstructive Surgery, National Defense Medical College
1995-1998
Staff Surgeon, Japan Self Defense Force Hospital Yokosuka
1999-2001
Visiting Fellowship, Plastic and Reconstructive Surgery, UCLA School of Medicine
2002-2006
Assistant Professor, Department of Plastic and Reconstructive Surgery, Nippon Medical School
2006-2010
Associate Professor, Department of Plastic and Reconstructive Surgery, Nippon Medical School
2010-Present
Professor and Chairman, Department of Plastic and Reconstructive Surgery, Juntendo University Faculty of Medicine
 

Main Research Topics and Interests
Clinical and Research Interest

  • Breast Reconstruction, Wound Healing, Blepharoplasty, Adipose-derived Stem Cells, Regenerative Medicine, Tissue Engineering

Main Research Topics and Interests

  • Adipose-derived stem cells for wound repair and regeneration
  • Adipose-derived stem cells for bone engineering
  • Adipose-derived stem cells for soft tissue repair
  • Adipose-derived stem cells for therapeutic angiogenesis
  • Free fat grafting physiology

Publications (in English)

  • Original Articles: 88
  • Review Articles: 33
  • Books: 14
  • h-Index: 29 (Web of Science)
  • Sum of Times Cited: 13,172 (Web of Science)

Recent Main Publications

  • Tanaka R, Ito-Hirano R, Fujimura S, Arita K, Hgiwara H, Mita T, Itoh M, Kawaji H, Ogawa T, Watada H, Masuda H, Asahara T and Mizuno H Ex vivo conditioning of peripheral blood mononuclear cells of diabetic patients promotes vasculogenic wound healing Stem Cells Translational Medicine 10: 895-909, 2021
  • Senda D, Orgun D, Shimizu A, Shimoji K, Miyajima M, Arai H, Mizuno H and Komuro Y Quantitative analysis of change in intracranial volume after posterior cranial vault distraction and frontal orbital advancement/remodeling J Craniofas Surg 30: 23-27, 2019
  • Shingyochi Y, Kanazawa S, Tajima S, Tanaka R, Mizuno H and Tobita M A low-level carbon dioxide laser promotes fibroblast proliferation and migration through activation of Akt, ERK, and JNK PLOS ONE 12: e168937, 2017
  • More

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