Your search keyword '"Kamitakahara M"' showing total 3 results

1. Design of bioresorbable calcium phosphate cement with high porosity via the addition of bioresorbable polymers.

Author

Kamitakahara M, Kato K, Umetsu M, Yoshihara K, and Yoshida Y

Abstract

Novel calcium phosphate cements (CPCs) that can be resorbed into the human body need to be developed. One approach for improving bioresorbability is reducing the content of calcium phosphate in CPCs; however, this may induces difficulties in setting the cement and increases the risk of decay. Adding bioresorbable polymers to a liquid solution can shorten the setting time and inhibit decay during setting. A novel bioresorbable polymer, phosphorylated pullulan (PPL), was recently reported. The effect of adding PPL to α-tricalcium phosphate (α-TCP)-based CPCs was examined and compared to that of adding bioresorbable polymers such as collagen, chitosan, and alginate. Collagen did not significantly inhibit the conversion of α-TCP to hydroxyapatite (HA), and its combination with calcium phosphate decreased the setting time and suppressed decay; chitosan decreased the setting time when combined with calcium phosphate; and alginate inhibited the conversion of α-TCP to HA and contributed to suppressing the decay. In contrast, PPL slightly inhibited the conversion of α-TCP to HA; however, its combination with calcium phosphate decreased the setting time. Thus, selecting bioresorbable polymers can help effectively control the properties of CPCs., Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

2. Synthesis of bioactive HEMA-MPS-CaCl2 hybrid gels: effects of catalysts in the sol-gel processing on mechanical properties and in vitro hydroxyapatite formation in a simulated body fluid.

Author

Uchino T, Ohtsuki C, Kamitakahara M, Miyazaki T, Hayakawa S, and Osaka A

Subjects

Biocompatible Materials, Bone Substitutes chemistry, Gels, Humans, Body Fluids chemistry, Calcium Chloride chemistry, Methacrylates chemistry, Silanes chemistry

Abstract

We investigated synthetic conditions for the fabrication of bioactive hybrid gels from monomers of 2-hydroxyethylmethacrylate (HEMA) and 3-methacryloxypropyltrimethoxysilane (MPS) in combination with CaCl(2), at a starting molar ratio of HEMA: MPS : CaCl(2) of 9 : 1 : 1. Hydroxyapatite formation, essential to show bone bonding, was observed on the HEMA- MPS-CaCl( 2) hybrid gels with the added catalysts NH(3) or HCl with a molar ratio to MPS of 0.1, but not on the hybrid gel with HCl at a molar ratio to MPS of 1. The mechanical properties of the gels were dependent on the catalysts, which may affect the microstructures that develop during sol-gel processing.

Published

2009

3. Review paper: behavior of ceramic biomaterials derived from tricalcium phosphate in physiological condition.

Author

Kamitakahara M, Ohtsuki C, and Miyazaki T

Subjects

Bone Substitutes therapeutic use, Cell Culture Techniques, Materials Testing, Biocompatible Materials chemistry, Bone Regeneration physiology, Bone Substitutes chemistry, Calcium Phosphates chemistry, Ceramics chemistry, Tissue Engineering trends

Abstract

Various calcium phosphates are used for bone repair. Although hydroxyapatite (HA) sintered ceramics are widely used due to their osteoconductivity, its bioresorbability is so low that HA remains in the body for a long time after implantation. In contrast, tricalcium phosphate (TCP) ceramics show resorbable characters during bone regeneration, and can be completely substituted for the bone tissue after stimulation of bone formation. Therefore, much attention is paid to TCP ceramics for scaffold materials for supporting bone regeneration. This paper reviews bioresorbable properties of calcium phosphate ceramics derived from beta-TCP and alpha-TCP.

Published

2008