Y. Kinoshita scite author profile

We began this study by synthesizing apatite fibers (AFs) and silicon-containing apatite fibers (Si-AFs) using a homogeneous precipitation method. Next, we have successfully fabricated three-dimensional apatite fiber scaffolds (AFSs) and silicon-containing apatite fiber scaffolds (Si-AFSs) using the above the AFs and Si-AFs, respectively. Finally, we successfully enhanced the mechanical properties of the scaffolds using carbon beads (CBs) with diameters of 20 μm and 150 μm, and conducted uniaxial pressing of the green compacts. These were named "AFS100," "AFS300," "Si-AFS100," and "Si-AFS300" based on the AF (or Si-AF)/CB ratio. In the study, these scaffolds with enhanced mechanical property were implanted into porcine tibia, muscle and fat, and their osteoconduction and osteoinduction were examined. The boneformation rates of Si-AFS100 and Si-AFS300 were higher than those of AFS100 and AFS300, while the bone-formation rates of AFS100 and Si-AFS100, were higher than those of AFS300 and Si-AFS300. These results indicated that addition of Si and controlled porosity may promote osteoconduction. Furthermore, AFS100 and Si-AFS100 exhibited osteoinductivity in muscle in the absence of osteoblasts. In conclusion, Si-AFS100 with enhanced mechanical properties has high osteoconductivity and osteoinductivity and can be expected to be used as a scaffold material and next-generation artificial bone filler for promoting bone formation. ARTICLE HISTORY

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Effects of storage of jaws in saline and of velocity of loading on the force required to extract the rat mandibular first molar

Chiba

Kinoshita

Nakamura

et al. 1982

Archives of Oral Biology

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Fabrication and Evaluation of Silicon-Containing Apatite Fiber Scaffolds for Bone Tissue Engineering

Kinoshita

Best

Aizawa

2012

Phosphorus Research Bulletin

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The aim of this work is to develop a highly-functional tissue engineering scaffold from silicon-containing apatite fibres (Si-AF). Firstly, Si-AFs were synthesized by a homogeneous precipitation method. Starting solution with a Ca/(P+Si) ratio of 1.67 was prepared by mixing Ca(NO 3 ) 2 4H 2 O, (NH 4 ) 2 HPO 4 , Si(OC 2 H 5 ) 4 (TEOS), (NH 2 ) 2 CO and HNO 3 . The concentrations of TEOS in the starting solution were 0 (AF), 0.8 (0.8Si-AF) and 1.6 (1.6Si-AF) mass%. Next, Si-AF scaffolds (Si-AFS) were fabricated by firing the compacts consisting of Si-AF and carbon beads of 150 m diameter. The resulting Si-AFSs were characterized using X-ray diffractometry (XRD), Fourier transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM) and inductively coupled plasma atomic emission spectrometry (ICP-AES). Results showed that the material properties of the 0.8Si-AFS were similar to those of the conventional AFS without silicon. Consequently, we can conclude that the 0.8Si-AFS offers as a potential novel scaffold material, creating a three-dimensional cell culture environment.

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Y. Kinoshita

The effect of hypofunction on the mechanical properties of the periodontium in the rat mandibular first molar

Estimation of the remaining periodontal ligament from attachment‐level measurements

Silicon-containing apatite fiber scaffolds with enhanced mechanical property express osteoinductivity and high osteoconductivity

Effects of storage of jaws in saline and of velocity of loading on the force required to extract the rat mandibular first molar

Fabrication and Evaluation of Silicon-Containing Apatite Fiber Scaffolds for Bone Tissue Engineering

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