Faculty Database - SUZUKI KITARU

■ Books and Papers

1.	2024/01	Article	Material Design of Porous Hydroxyapatite Ceramics via Inverse Analysis of an Estimation Model for Bone-Forming Ability Based on Machine Learning and Experimental Validation of Biological Hard Tissue Responses Materials (Collaboration)
2.	2023/08	Article	Growth of Submillimeter SrTaO₂N Single Crystals by an NH₃-Assisted SrCl₂ Flux Method Dalton Transactions (Collaboration)
3.	2023/04	Article	Machine Learning Model for Predicting the Material Properties and Bone Formation Rate and Direct Inverse Analysis of the Model for New Synthesis Conditions of Bioceramics Industrial & Engineering Chemistry Research 62,pp.5898-5906 (Collaboration)
4.	2022/04	Article	Preparation of antimicrobial calcium phosphate/protamine composite powders with fluoride ions using octacalcium phosphate Journal of Materials Science: Materials in Medicine 33,pp.35 (Collaboration)
5.	2023	Book	「Chapter 8 Reconstruction of three-dimensional tissues using a tissue engineering approach involving an apatite-fiber scaffold and radial-flow bioreactor」「Current Human Cell Research and Applications, Vol.6: Cell Technology Processing」 pp.106-120 (Collaboration)
6.	2022/02	Article	Preparation of protamine-adsorbed calcium phosphate powders and their antibacterial property Journal of Asian Ceramic Societies 10(1),pp.230-240 (Collaboration)
7.	2022/01	Article	Living reactions of tissue-engineered bone derived from apatite-fiber scaffold in rat subcutaneous tissues Journal of the Ceramic Society of Japan 130(1),pp.65-73 (Collaboration)
8.	2021/12	Article	Influence of Culture Period on Osteoblast Differentiation of Tissue-Engineered Bone Constructed by Apatite-Fiber Scaffolds Using Radial-Flow Bioreactor International Journal of Molecular Sciences 22,pp.13080 (Collaboration)
9.	2017/03	Article	Histological evaluations of apatite-fiber scaffold cultured with mesenchymal stem cells by implantation at rat subcutaneous tissue Bio-Medical Materials and Engineering 28,pp.57-64 (Collaboration)
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■ Conference Presentations

1.	2024/05	Assessing of osteoclast at porous hydroxyapatite ceramics with well-controlled crystallographic anisotropy and microstructure (World Biomaterials Congress 2024)
2.	2024/05	Development of apatite ceramics based on innovative crystal anisotropy control technology (World Biomaterials Congress 2024)
3.	2024/05	Development of Hydroxyapatite Ceramics Scaffolds with Vascular Endothelial Growth Factor for Regeneration of Vascular and Bone Tissue and its evaluation (World Biomaterials Congress 2024)
4.	2023/12	Development of anti-bacterial apatite-coated Ti implant loaded with basic fibroblast growth factor (The 21st Asian BioCeramics Symposium)
5.	2023/11	Construction of Estimation Model of Bone Formation for Porous Hydroxyapatite Ceramics by Machine Learning (11th International Symposium on Inorganic Phosphate Materials 2023)
6.	2023/11	Fabrication of apatite-/iber scaffold with optimized pore structure for bioarti/icial livers containing blood vessels (11th International Symposium on Inorganic Phosphate Materials 2023)
7.	2023/10	Effect of crystallographic anisotropy of hydroxyapatite on osteoblast differentiation and osteoclast activity (Bioceramics 33)
8.	2023/10	Fabrication of ceramics in the CaO-P₂O₅-SiO₂-B₂O₃ system for adoptive immunotherapy and their anti-tumor effects (Bioceramics 33)
9.	2023/10	Immobilization of silver ions on fiber-reinforced plastics with different calcium carbonate contents and their antibacterial properties (Bioceramics 33)
10.	2023/10	Prediction of bone formation rate of artificial bone by machine learning considering variation of experimental results (Bioceramics 33)
11.	2023/07	CO-CULTURE OF HEPG2 CELLS AND HUVECS USING APATAITE CERAMICS FOR CONSTRUCTION OF REGENERATED LIVER ORGANOIDS CONTIANING BLOOD VESSELS (Biomaterials International Conference 2023)
12.	2023/07	CONSTRUCTION OF A MODEL ESTIMATING BONE-FORMING ABILITY OF BIOCERAMICS UTILIZING MACHINE LEARNING AND ITS VALIDATION BY IN VIVO EXPERIMENTS (Biomaterials International Conference 2023)
13.	2023/07	Loading of basic fibroblast growth factor on apatite-coated titanium with anti-bacterial property and its material properties (Biomaterials International Conference 2023)
14.	2023/07	SUSTAINABILITY AND RECOVERY OF ANTIBACTERIAL PROPERTY OF SILVER ION MODIFIED FIBER-REINFORCED PLASTICS (Biomaterials International Conference 2023)
15.	2023/06	Construction of a Model Estimating Bone-Forming Ability of Bioceramics Utilizing Machine Learning and Its Inverse Analysis to Verify Material Properties (International Symposium on Inorganic and Environmental Materials)
16.	2023/06	Material property of chelate-setting cement from hydroxyapatite powder with high specific surface area and their cytotoxicity (International Symposium on Inorganic and Environmental Materials)
17.	2023/06	Predictive machine learning model constructure for bone formation rate using scanning electron microscope images (International Symposium on Inorganic and Environmental Materials)
18.	2022/12	Imparting Multiple Functions to Porous Hydroxyapatite Ceramics with Osteoinductivity by Immobilizing Two Types of Metal Ions (20th Asian Bioceramics Symposium)
19.	2022/12	Relationship Between Crystallographic Anisotropy of Hydroxyapatite and Osteoclast Activity (20th Asian Bioceramics Symposium)
20.	2021/12	Prediction of properties and bone formation rate for bioceramics and design of synthesis conditions with machine learning (The International Chemical Congress of Pacific Basin Societies 2021　Virtual Congress)
21.	2016/12	Living reactions at rat subcutaneous tissue by implantation of tissue-engineered bone reconstructed from rat bone marrow mesenchymal stem cells using apatite-fiber scaffold settled into radial flow-type bioreactor. (16th Asian BioCeramics symposium)
22.	2015/12	Histological evaluations of apatite-fiber scaffold cultured with mesenchymal stem cells by implantation at rat subcutaneous tissue. (15th Asian BioCeramics symposium)
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■ Academic Qualifications

1.	2011/04～2015/03	Department of Applied Chemistry, School of Science and Technology, Meiji University, Graduated,
2.	2015/04～2017/03	〔Doctorial Course (1st Semester)〕 Applied Chemistry Program, Graduate School of Science and Technology, Meiji University, Completed,

■ researchmap Researcher Code

R000056849

■ Current Specialized Field

Biomaterials

■ KAKENHI Researcher Number

70983807

■ Courses and Lectures taught or delivered in the past

1.	Basic Chemistry 1
2.	Experiments in Basic Chemistry 1
3.	Introduction to Applied Chemistry 1
4.	Leading-edge Chemistry
5.	Experiments in Applied Chemistry 2
6.	Chemistry of Materials
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