107 results on '"Konishi, Toshiisa"'
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2. Development in additive printing for tissue-engineered bone and tendon regeneration
3. In-vivo evaluation of subcutaneously implanted cell-loaded apatite microcarriers for osteogenic potency
4. Development of a,b-plane-oriented hydroxyapatite ceramics as models for living bones and their cell adhesion behavior
5. A multi-material coating containing chemically-modified apatites for combined enhanced bioactivity and reduced infection via a drop-on-demand micro-dispensing technique
6. COPPER WHITLOCKITE SYNTHESIZED VIA HYDROTHERMAL TRANSFORMATION OF CALCIUM HYDROGEN PHOSPHATE DIHYDRATE
7. REVISITING WET-CHEMICALLY SYNTHESIZED β-TRICALCIUM PHOSPHATE: SOLID-STATE NMR STUDY OF LOCAL STRUCTURE
8. Biodegradable β-tricalcium phosphate cement with anti-washout property based on chelate-setting mechanism of inositol phosphate
9. Novel chelate-setting calcium-phosphate cements fabricated with wet-synthesized hydroxyapatite powder
10. Enhanced early osteogenic differentiation by silicon-substituted hydroxyapatite ceramics fabricated via ultrasonic spray pyrolysis route
11. HYDROTHERMAL TRANSFORMATION OF CALCIUM HYDROGEN PHOSPHATE DIHYDRATE INTO MAGNESIUM WHITLOCKITE
12. AMORPHOUS-PRECURSOR MEDIATED FORMATION OF MAGNESIUM-FREE WHITLOCKITE
13. LOW-TEMPERATURE SYNTHESIS OF TRICALCIUM PHOSPHATE AND RELATED MATERIALS
14. EFFECT OF ORGANOPHOSPHATES ON THE FORMATION OF MAGNESIUM-FREE WHITLOCKITE
15. Retraction: Solid-state nuclear magnetic resonance study of setting mechanism of β- tricalcium phosphate—inositol phosphate composite cements (2019 J. Phys. Mater. 2 034007)
16. Retraction notice to “Effect of copper substitution on the local chemical structure and dissolution property of copper-doped β-tricalcium phosphate” [Acta Biomaterialia Volume 91, June 2019, Pages 72-81]
17. Solid-state nuclear magnetic resonance study of setting mechanism of beta-tricalcium phosphate-inositol phosphate composite cements
18. RETRACTED: Solid-state nuclear magnetic resonance study of setting mechanism of β-tricalcium phosphate—inositol phosphate composite cements
19. RETRACTED: Effect of copper substitution on the local chemical structure and dissolution property of copper-doped β-tricalcium phosphate
20. Preparation of chitosan-hydroxyapatite composite mono-fiber using coagulation method and their mechanical properties
21. Anisotropic coating of a-plane oriented hydroxyapatite via a drop-on-demand micro-dispensing technique.
22. Anisotropic coating of a-plane oriented hydroxyapatite via a drop-on-demand micro-dispensing technique
23. Bioresorbability of chelate-setting calcium-phosphate cement hybridized with gelatin particles using a porcine tibial defect model
24. Fabrication of chelate-setting α-tricalcium phosphate cement using sodium citrate and sodium alginate as mixing solution and its in vivo osteoconductivity
25. Preparation and Characterization of β-Tricalcium Phosphate Powders with High Solubility for Chelate-Setting Calcium-Phosphate Cements
26. Preparation of chitosan-hydroxyapatite composite mono-fiber using coagulation method and their mechanical properties
27. Preparation of chitosan-HAp composite fiber for artificial ligament
28. Surface modification of alpha-tricalcium phosphate with inositol phosphate for cement fabrication
29. Effects of Adding Polysaccharides and Citric Acid into Sodium Dihydrogen Phosphate Mixing Solution on the Material Properties of Gelatin-Hybridized Calcium-Phosphate Cement
30. Injectable chelate-setting hydroxyapatite cement prepared by using chitosan solution: Fabrication, material properties, biocompatibility, and osteoconductivity
31. EFFECTS OF ADDITION OF α-TRICALCIUM PHOSPHATE POWDERS ON MATERIAL PROPERTIES OF THE CHELATE-SETTING HYDROXYAPATITE CEMENT
32. Evaluation of resistance to fragmentation of injectable calcium-phosphate cement paste using X-ray microcomputed tomography
33. Fabrication and Characterization of Chelate-Setting β-Tricalcium Phosphate Cements with Enhanced Bioresorbability
34. Effect of copper substitution on the local chemical structure and dissolution property of copper-doped β-tricalcium phosphate.
35. Fabrication of chelate‐setting α‐tricalcium phosphate cement using sodium citrate and sodium alginate as mixing solution and its in vivo osteoconductivity.
36. NMR Structural Characterization of Mg-Containing Nano-Apatite
37. In Vivo Evaluation of Chelate-Setting Cement Fabricated from Hydroxyapatite Including Bone Minerals Using a Rabbit’s Tibia Model
38. Development of Bioresorbable Calcium-Phosphate Cements Hybridized with Gelatin Particles and their In Vivo Evaluation Using Pig’s Tibia Model
39. Biocompatibility of Silver-Containing Calcium-Phosphate Cements with Anti-Bacterial Properties
40. Preparation of α-Tricalcium Phosphate Powders Surface-Modified with Inositol Phosphate for Cement Fabrication
41. A multi-material coating containing chemically-modified apatites for combined enhanced bioactivity and reduced infection via a drop-on-demand micro-dispensing technique.
42. In vitro and in vivo antimicrobial properties of silver-containing hydroxyapatite prepared via ultrasonic spray pyrolysis route
43. Fabrication of Novel Biodegradableα-Tricalcium Phosphate Cement Set by Chelating Capability of Inositol Phosphate and Its Biocompatibility
44. Novel chelate-setting calcium-phosphate cements fabricated with wet-synthesized hydroxyapatite powder
45. In Vitro Evaluation of Chelate-Setting Cements Fabricated from Silicon-Containing Apatite Powder Using Osteoblastic Cells
46. Adsorption Behavior of Sodium Inositol Hexaphosphate on the Surface of Hydroxyapatite
47. Comparative Study on Bioresorbability of Chelate-Setting Cements with Various Calcium-Phosphate Phase Using Rabbit Model
48. In Vitro Biological Evaluation of Anti-Tumor Effect of the Chelate-Setting Hydroxyapatite Cement
49. Ultrastructural Observation of Hydroxyapatite Ceramics with Preferred Orientation to a-plane Using High-resolution Transmission Electron Microscopy
50. Fabrication of chelate-setting cement from hydroxyapatite powder prepared by simultaneously grinding and surface-modifying with sodium inositol hexaphosphate and their material properties
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