Restoration of original bone shape application of rhBMP-2 and absorbable membrane
スポンサーリンク
概要
著者
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Kawakami Toshiyuki
Hard Tissue Pathology Matsumoto Dental University Institute For Dental Science
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Yamada Masahide
Hard Tissue Pathology, Matsumoto Dental University Institute for Dental Science
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Yamada Masahide
Hard Tissue Pathology Matsumoto Dental University Institute For Dental Science
関連論文
- Expression of HSP in Dental Root Pulp Cells due to Experimental Orthodontic Mechanical Stress
- Immunohistochemical Characteristics of Odontogenic Neoplasms and Their Physiological Counterparts
- Role of Heparanase in the Release of Heparan Sulphate Binding Growth Factors in Odontogenic Tumors
- Wingless-type Protein-1 (Wnt-1) Expression in Primary Conventional and Unicystic Ameloblastomas and Their Recurrent Tumors
- Notch signaling in malignant tranceforming of odontogenic tumor(Oral Session,The 16th Annual Meeting of the Society for Hard Tissue Regenerative Biology in Matsumoto Dental University)
- Expression of Morphogenesis Regulation Factors in Mandibular Condylar Cartilage of Young Mice(13^ Annual Meeting of the Society for Hard Tissue Regenerative Biology)
- A Three-dimensional Finite Element Analysis for the Biomechanical Characteristics of Orthodontic Anchorage Micro-implant
- Improvement of Adhesion and Spreading of Human Gingival Fibroblasts to RGD-grafted Titanium Surface
- Cell culture in vivo by means of diffusion chamber system
- Immunohistochemical Study of Notch Signaling Proteins in the Calcifying Epithelial Odontogenic Tumor (Pindborg Tumor)
- BMPs and Related Factors Appearing in the Mouse Periodontal Tissues Due to Orthodontic Mechanical Stress
- Immunohistochemical Observation of Notch Signaling in a Case of Calcifying Cystic Odontogenic Tumor
- Immunohistochemical Examination of Developing Mandibular Angle in Fetal Mice(International Symposium of Maxillofacial and Oral Regenerative Biology in Okayama 2005)
- Restoration of original bone shape application of rhBMP-2 and absorbable membrane
- Possibility of Odontoblasts Activity Up-Regulation due to Orthodontic Mechanical Stress in Mice