Publication
2013
1) M. Honda, T. Konishi, M. Mizumoto, M. Aizawa, gIn vitro evaluation of anti-tumor effect of the chelate-setting hydroxyapatite cement using inositol hexaphosphateh, Key Engineer. Mater., in press.
2) Y. Nakashima, M. Honda, T. Konishi, M. Mizumoto, M. Aizawa, gIn vitro evaluation of Chelate-setting Cements Fabricated from Silicon-containing Apatite Powder Using Osteoblastic Cellsh, Key Engineer. Mater., in press.
3) T. Konishi, S. Takahashi, M. Mizumoto, M. Honda, K. Kida, Y. Horiguchi, K. Oribe, K. Ishii, H. Morisue, Y. Toyama, M. Matsumoto, M. Aizawa, gComparative Study of Bioresorbability of Chelate-setting Cements with Various Calcium-Phosphate Phase Using Rabbith, Key Engineer. Mater., in press.
4) T. Konishi, M. Mizumoto, M. Honda, M. Aizawa, gAdsorption Behavior of Sodium Inositol Hexaphosphate on the Surface of Hydroxyapatiteh, Key Engineer. Mater., in press.
2) Y. Nakashima, M. Honda, T. Konishi, M. Mizumoto, M. Aizawa, gIn vitro evaluation of Chelate-setting Cements Fabricated from Silicon-containing Apatite Powder Using Osteoblastic Cellsh, Key Engineer. Mater., in press.
3) T. Konishi, S. Takahashi, M. Mizumoto, M. Honda, K. Kida, Y. Horiguchi, K. Oribe, K. Ishii, H. Morisue, Y. Toyama, M. Matsumoto, M. Aizawa, gComparative Study of Bioresorbability of Chelate-setting Cements with Various Calcium-Phosphate Phase Using Rabbith, Key Engineer. Mater., in press.
4) T. Konishi, M. Mizumoto, M. Honda, M. Aizawa, gAdsorption Behavior of Sodium Inositol Hexaphosphate on the Surface of Hydroxyapatiteh, Key Engineer. Mater., in press.
2012
1) T. Konishi, Y. Horiguchi, M. Mizumoto, M. Honda, K. Oribe, H. Morisue, K. Ishii, Y. Toyama, M. Matsumoto, M. Aizawa, "Novel chelate-setting calcium-phosphate cements fabricated with wet-synthesized hydroxyapatite powder", J. Mater. Sci. Mater. Med. (Online First).
2) E.S. Thian, T. Konishi, Y. Kawanobe, P.N. Lim, B. Ho, C. Choong, M. Aizawa, gZinc-substituted hydroxyapatite: a biomaterial with enhanced bioactivity and antibacterial properties, J. Mater. Sci. Mater. Med. (Online First).
3) M. Honda, K. Kikushima, Y. Kawanobe, T. Konishi, M. Mizumoto, M. Aizawa, "Enhanced early osteogenic differentiation by silicon-substituted hydroxyapatite ceramics fabricated via ultrasonic spray pyrolysis route", 23, 2923-2932 (2012).
3) Y. Kawanobe, M. Honda, T. Konishi, M. Mizumoto, Y. Habuto, N. Kanzawa, M. Aizawa, gPreparation of silver-containing hydroxyapatite powder by ultrasonic spray-pyrolysis technique and its antibacterial propertyh, Key Eng. Mater., 493-494, 678-683 (2012).
4) Y. Nakashima, M. Honda, T. Konishi, M. Mizumoto, M. Aizawa, gFabrication of chelate-setting cement using silicon-substituted hydroxyapatite and its propertyh, Key Engineer. Mater., 493-494, 370-374 (2012).
5) H. Konishi, M. Honda, M. Aizawa, N. Kanzawa, gBiochemical Studies of the Potential Anti-tumor Activity of Novel Chelate-Setting Apatite Cementsh, Key Engineer. Mater., 493-494, 315-319 (2012).
6) M. Aizawa, T. Miki, Y. Yasutomi, M. Honda, H. Yoshimura, gHydroxyapatite Ceramics Including Bone Minerals Promote Differentiation of Osteoblasts Derived from Rat Bone Marrow Cellsh, Key Engineer. Mater., 493-494, 320-324 (2012).
7) H. Funao, K. Ishii, S. Nagai, A. Sasaki, T. Hoshikawa, M. Aizawa, Y. Okada, K. Chiba, S. Koyasu, Y. Toyama and M. Matsumoto, gEstablishment of a Real-Time, Quantitative, and Reproducible Mouse Model of Staphylococcus Osteomyelitis Using Bioluminescence Imagingh, Infect. Immun., 80, 733-741 (2012).
8) T. Konishi, Z. Zhuang, M. Mizumoto, M. Honda, M. Aizawa, gFabrication of Chelate-setting Cement from Hydroxyapatite Powder Prepared by Simultaneously Grinding and Surface-modifying with Sodium Inositol Hexaphosphate and Their Material Propertiesh, J. Ceram. Soc. Jpn, 120, 159-165 (2012).
9) T. Konishi, Z. Zhuang, M. Mizumoto, M. Honda, M. Aizawa, gFabrication of chelate-setting cements from hydroxyapatite powders surface-modified with various sodium inositol hexaphosphate concentrations and their mechanical propertiesh, Procedia Engineer., 36, 137-143 (2012).
10) Z. Zhuang, T. Miki, M. Yumoto, T. Konishi, M. Aizawa, gUltrastructural observation of hydroxyapatite ceramics with preferred orientation to a-plane using high-resolution transmission electron microscopyh, Procedia Engineer., 36, 121-127 (2012).
11) T. Konishi, S. Takahashi, M. Mizumoto, M. Honda, K. Oribe, M. Aizawa, gEffect of the addition of various polysaccharides on the material properties and cytotoxicity of chelate-setting À-tricalcium phosphate cementh, Phosphorus Res. Bull., 26, 59-64 (2012).
12) Z. Zhuang, T. Konishi, H. Yoshimura, M. Aizawa, gUltrastructural analysis of hydroxyapatite nano particles synthesized under different initial pH conditions using high-resolution transmission electron microscopyh, Phosphorus Res. Bull., 26, 81-86 (2012).
13) H. Manabe, T. Konishi, M. Mizumoto, M. Honda, M. Aizawa, gIn Vitro Bioresorbability of Chelate-setting Cements with Various Calcium-phosphate phasesh, Phosphorus Res. Bull., 26, 105-108 (2012).
14) T. Ganmoto, M. Honda, T. Konishi, M. Mizumoto, H. Matsunari, Y. Takeuchi, H. Nagashima, M. Aizawa, gIn Vivo Biocompatibility of Apatite-fiber Scaffold with Enhanced Mechanical Properties Using Pig Model by Implanting into Tibiah, Phosphorus Res. Bull., 26, 1-3 (2012).
2) E.S. Thian, T. Konishi, Y. Kawanobe, P.N. Lim, B. Ho, C. Choong, M. Aizawa, gZinc-substituted hydroxyapatite: a biomaterial with enhanced bioactivity and antibacterial properties, J. Mater. Sci. Mater. Med. (Online First).
3) M. Honda, K. Kikushima, Y. Kawanobe, T. Konishi, M. Mizumoto, M. Aizawa, "Enhanced early osteogenic differentiation by silicon-substituted hydroxyapatite ceramics fabricated via ultrasonic spray pyrolysis route", 23, 2923-2932 (2012).
3) Y. Kawanobe, M. Honda, T. Konishi, M. Mizumoto, Y. Habuto, N. Kanzawa, M. Aizawa, gPreparation of silver-containing hydroxyapatite powder by ultrasonic spray-pyrolysis technique and its antibacterial propertyh, Key Eng. Mater., 493-494, 678-683 (2012).
4) Y. Nakashima, M. Honda, T. Konishi, M. Mizumoto, M. Aizawa, gFabrication of chelate-setting cement using silicon-substituted hydroxyapatite and its propertyh, Key Engineer. Mater., 493-494, 370-374 (2012).
5) H. Konishi, M. Honda, M. Aizawa, N. Kanzawa, gBiochemical Studies of the Potential Anti-tumor Activity of Novel Chelate-Setting Apatite Cementsh, Key Engineer. Mater., 493-494, 315-319 (2012).
6) M. Aizawa, T. Miki, Y. Yasutomi, M. Honda, H. Yoshimura, gHydroxyapatite Ceramics Including Bone Minerals Promote Differentiation of Osteoblasts Derived from Rat Bone Marrow Cellsh, Key Engineer. Mater., 493-494, 320-324 (2012).
7) H. Funao, K. Ishii, S. Nagai, A. Sasaki, T. Hoshikawa, M. Aizawa, Y. Okada, K. Chiba, S. Koyasu, Y. Toyama and M. Matsumoto, gEstablishment of a Real-Time, Quantitative, and Reproducible Mouse Model of Staphylococcus Osteomyelitis Using Bioluminescence Imagingh, Infect. Immun., 80, 733-741 (2012).
8) T. Konishi, Z. Zhuang, M. Mizumoto, M. Honda, M. Aizawa, gFabrication of Chelate-setting Cement from Hydroxyapatite Powder Prepared by Simultaneously Grinding and Surface-modifying with Sodium Inositol Hexaphosphate and Their Material Propertiesh, J. Ceram. Soc. Jpn, 120, 159-165 (2012).
9) T. Konishi, Z. Zhuang, M. Mizumoto, M. Honda, M. Aizawa, gFabrication of chelate-setting cements from hydroxyapatite powders surface-modified with various sodium inositol hexaphosphate concentrations and their mechanical propertiesh, Procedia Engineer., 36, 137-143 (2012).
10) Z. Zhuang, T. Miki, M. Yumoto, T. Konishi, M. Aizawa, gUltrastructural observation of hydroxyapatite ceramics with preferred orientation to a-plane using high-resolution transmission electron microscopyh, Procedia Engineer., 36, 121-127 (2012).
11) T. Konishi, S. Takahashi, M. Mizumoto, M. Honda, K. Oribe, M. Aizawa, gEffect of the addition of various polysaccharides on the material properties and cytotoxicity of chelate-setting À-tricalcium phosphate cementh, Phosphorus Res. Bull., 26, 59-64 (2012).
12) Z. Zhuang, T. Konishi, H. Yoshimura, M. Aizawa, gUltrastructural analysis of hydroxyapatite nano particles synthesized under different initial pH conditions using high-resolution transmission electron microscopyh, Phosphorus Res. Bull., 26, 81-86 (2012).
13) H. Manabe, T. Konishi, M. Mizumoto, M. Honda, M. Aizawa, gIn Vitro Bioresorbability of Chelate-setting Cements with Various Calcium-phosphate phasesh, Phosphorus Res. Bull., 26, 105-108 (2012).
14) T. Ganmoto, M. Honda, T. Konishi, M. Mizumoto, H. Matsunari, Y. Takeuchi, H. Nagashima, M. Aizawa, gIn Vivo Biocompatibility of Apatite-fiber Scaffold with Enhanced Mechanical Properties Using Pig Model by Implanting into Tibiah, Phosphorus Res. Bull., 26, 1-3 (2012).
2011
1) M. Honda, K. Kikushima, T. Konishi, M. Mizumoto, H. Matsunari, H. Nagashima, M. Aizawa, gCell proliferation, morphology and differentiation of Transgenic-cloned pig calvarial osteoblasts on the silicon-substituted hydorxyapatite ceramics fabricated via ultrasonic spray-pyrolysis techniqueh, J. Aust. Ceram. Soc., 47, 37-41(2011).
2) S. Takahashi, T. Konishi, K. Nishiyama, M. Mizumoto, M. Honda, Y. Horiguchi, K. Oribe, M. Aizawa, gFabrication of novel bioresorbable À-tricalcium phosphate cement on the basis of chelate-setting mechanism of inositol phosphate and its evaluationh, J. Ceram. Soc. Jpn., 119, 35-42 (2011).
2) S. Takahashi, T. Konishi, K. Nishiyama, M. Mizumoto, M. Honda, Y. Horiguchi, K. Oribe, M. Aizawa, gFabrication of novel bioresorbable À-tricalcium phosphate cement on the basis of chelate-setting mechanism of inositol phosphate and its evaluationh, J. Ceram. Soc. Jpn., 119, 35-42 (2011).
2010
1) Y. Kawanobe, M. Honda, T. Konishi, M. Mizumoto, Y. Habuto, N. Kanzawa, T. Uchino, M. Aizawa, gPreparation of apatite microspheres with nano-size pores on the surface via salt-assisted ultrasonic spray-pyrolysis technique and its drug release behaviorh, J. Aust. Ceram. Soc., 46, 6-10 (2010).
2) M. Honda, T. Fujimi, S. Izumi, K. Izawa, M. Aizawa, H. Morisue, T. Tsuchiya, N. Kanzawa, gTopographical analyses of proliferation and differentiation of osteoblasts in micro- and macro pores of apatite-fiber scaffoldh, J. Biomed. Mater. Res. A, 94A, 937-944 (2010).
3) Y. Shigemitsu, N. Sugiyama, K. Oribe, M. Rikukawa, M. Aizawa, gFabrication of biodegradable À-tricalcium phosphate/poly(L-lactic acid) hybrids and their in vitro biocompatibility", J. Ceram. Soc. Jpn., 118, 1181-1187 (2010).
4) T. Kawasaki, Y. Niki, T. Miyamoto, K. Horiuchi, M. Matsumoto, M. Aizawa, Y. Toyama, gThe effect of timing in the administration of hepatocyte growth factor to modulate BMP-2-induced osteoblast differentiationh, Biomaterials, 31, 1191-1198 (2010).
5) M. Emoto, Y. Naganuma, B. Choijamts, T. Ohno, H. Yoshihisa, N. Kanomata, M. Aizawa, gNovel chemoembolization using calcium-phosphate ceramic microsphere incorporating TNP-470, an anti-angiogenic agenth, Cancer Science, 101, 984-990 (2010).
2) M. Honda, T. Fujimi, S. Izumi, K. Izawa, M. Aizawa, H. Morisue, T. Tsuchiya, N. Kanzawa, gTopographical analyses of proliferation and differentiation of osteoblasts in micro- and macro pores of apatite-fiber scaffoldh, J. Biomed. Mater. Res. A, 94A, 937-944 (2010).
3) Y. Shigemitsu, N. Sugiyama, K. Oribe, M. Rikukawa, M. Aizawa, gFabrication of biodegradable À-tricalcium phosphate/poly(L-lactic acid) hybrids and their in vitro biocompatibility", J. Ceram. Soc. Jpn., 118, 1181-1187 (2010).
4) T. Kawasaki, Y. Niki, T. Miyamoto, K. Horiuchi, M. Matsumoto, M. Aizawa, Y. Toyama, gThe effect of timing in the administration of hepatocyte growth factor to modulate BMP-2-induced osteoblast differentiationh, Biomaterials, 31, 1191-1198 (2010).
5) M. Emoto, Y. Naganuma, B. Choijamts, T. Ohno, H. Yoshihisa, N. Kanomata, M. Aizawa, gNovel chemoembolization using calcium-phosphate ceramic microsphere incorporating TNP-470, an anti-angiogenic agenth, Cancer Science, 101, 984-990 (2010).
2009
1) H. Morisue, M. Matsumoto, K. Chiba, H. Matsumoto, Y. Toyama, M. Aizawa, N. Kanzawa, T. J. Fujimi, H. Uchida, and I. Okada, gNovel apatite fiber scaffolds can promote three-dimensional proliferation of osteoblasts in rodent bone regeneration modelsh, J. Biomed. Mater. Res. A , 90A, 811-818 (2009).
2) T. Serizawa, Y. Hirai, M. Aizawa, gNovel synthetic route to peptide-capped gold nanoparticlesh, Langmuir, 25, 12229-12234 (2009).
2) T. Serizawa, Y. Hirai, M. Aizawa, gNovel synthetic route to peptide-capped gold nanoparticlesh, Langmuir, 25, 12229-12234 (2009).
2008
1) Y. Horiguchi, A. Yoshikawa, K. Oribe, M. Aizawa, gFabrication of chelate-setting hydroxyapatite cements from four kinds of commercially-available powder with various shape and crystallinity and their mechanical propertyh, J. Ceram. Soc. Jpn., 116, 50-55 (2008).
2) M. Aizawa, T. Ohno, N. Kanomata, K. Yano, M. Emoto, gAnti-tumorigenesis of Hollow Calcium-phosphate Microsphere Loaded with Anti-angiogenic Agenth, Key Engineer. Mater., 361-363, 1215-1218(2008).
3) M. Aizawa, A. Hiramoto, H. Maehashi, T. Matsuura, gReconstruction of Liver Organoid Using an Apatite-fiber Scaffold, a Radial?flow Bioreactor, and FLC-4 Cells of Hepatocyte Modelh, Key Engineer. Mater., 361-363, 1165-1168 (2008).
4) A. Taki, H. Yoshimura and M. Aizawa, gMicrostructural observation of calcium-deficient single crystal apatite fibers and phase changes during heatingh, Key Engineer. Mater., 361-363, 147-150 (2008).
5) M. Honda, S. Izumi, N. Kanzawa, T. Tsuchiya, M. Aizawa, gMicroenvironment of apatite-fiber scaffold affects cell proliferation and resulting cell differentiationh, Key Engineer. Mater., 361-363, 1075-1078 (2008).
6) S. Motojima, N. Igeta and M. Aizawa, gEnhancement of the mechanical property of apatite-fiber scaffold using type I-collagenh, Key Engineer. Mater., 361-363, 943-946 (2008).
7) K. Kida, Y. Horiguchi, K. Oribe, H. Morisue, M. Matsumoto, Y. Toyama and M. Aizawa, gBiological Evaluation of Chelate-setting Apatite Cement using Inositol Phosphateh, Key Engineer. Mater., 361-363, 335-338 (2008).
8) H. Fukano, M. Aizawa, H. Yoshimura, gIn Vitro Synthesis of Calcium Nanoparticles Using the Protein Cage of Apoferritinh, Key Engineer. Mater., 361-363, 183-186 (2008).
2) M. Aizawa, T. Ohno, N. Kanomata, K. Yano, M. Emoto, gAnti-tumorigenesis of Hollow Calcium-phosphate Microsphere Loaded with Anti-angiogenic Agenth, Key Engineer. Mater., 361-363, 1215-1218(2008).
3) M. Aizawa, A. Hiramoto, H. Maehashi, T. Matsuura, gReconstruction of Liver Organoid Using an Apatite-fiber Scaffold, a Radial?flow Bioreactor, and FLC-4 Cells of Hepatocyte Modelh, Key Engineer. Mater., 361-363, 1165-1168 (2008).
4) A. Taki, H. Yoshimura and M. Aizawa, gMicrostructural observation of calcium-deficient single crystal apatite fibers and phase changes during heatingh, Key Engineer. Mater., 361-363, 147-150 (2008).
5) M. Honda, S. Izumi, N. Kanzawa, T. Tsuchiya, M. Aizawa, gMicroenvironment of apatite-fiber scaffold affects cell proliferation and resulting cell differentiationh, Key Engineer. Mater., 361-363, 1075-1078 (2008).
6) S. Motojima, N. Igeta and M. Aizawa, gEnhancement of the mechanical property of apatite-fiber scaffold using type I-collagenh, Key Engineer. Mater., 361-363, 943-946 (2008).
7) K. Kida, Y. Horiguchi, K. Oribe, H. Morisue, M. Matsumoto, Y. Toyama and M. Aizawa, gBiological Evaluation of Chelate-setting Apatite Cement using Inositol Phosphateh, Key Engineer. Mater., 361-363, 335-338 (2008).
8) H. Fukano, M. Aizawa, H. Yoshimura, gIn Vitro Synthesis of Calcium Nanoparticles Using the Protein Cage of Apoferritinh, Key Engineer. Mater., 361-363, 183-186 (2008).
2007
1) N. Sugiyama, R. Kunibu, M. Yoshizawa-Fujita, Y. Takeoka, M. Aizawa, M. Rikukawa, gRing-opening Bulk Polymerization of L-lactide in Porous Hydroxyapatiteh, Chem. Lett., 36, 1476-77 (2007).
2006
1) M. Aizawa, K. Itatani, I. Okada, gSynthesis of various apatites and porous coating of biocompatible calcium-phosphate films via spray-pyrolysis techniqueh, Phosphorus Res. Bull., 20, 61-78 (2006).
2) H. Morisue, M. Matsumoto, K. Chiba, H. Matsumoto, Y. Toyama, M. Aizawa, N. Kanzawa, T. J. Fujimi, H. Uchida, I. Okada, gA novel hydroxyapatite fiber mesh as a carrier for recombinant human bone morphogenetic protein-2 enhances bone union in rat posterolateral fusion modelh, Spine, 31, 1194-2000 (2006).
3) M. Aizawa, H. Ueno, K. Itatani, I. Okada, gSynthesis of calcium-deficient apatite fibres by a homogeneous precipitation method and their characterizationsh, J. Eur. Ceram. Soc.,26, 501-507 (2006).
4) A. Miyazaki, M. Aizawa, gAdhesion, Proliferation and Morphology of Osteoblasts Cultured on Apatite Ceramics with Preferred Orientation to a-planeh, Key Engineer. Mater., 309-311, 109-112 (2006).
5) T. Ohno, M. Aizawa, gEffect of the Concentrations of the Starting Solution on the Syntheses and Powder Properties of Hollow Tricalcium-phosphate Microspheres by Ultrasonic Spray-pyrolysis Techniqueh, Key Engineer. Mater., 309-311, 235-238 (2006).
6) M. Aizawa, N. Patel, A. E. Porter, S. M. Best, W. Bonfield, gSyntheses of Silicon-containing Apatite Fibres by a Homogeneous Precipitation Method and Their Characterizationh, Key Engineer. Mater., 309-311, 1129-1132 (2006).
2) H. Morisue, M. Matsumoto, K. Chiba, H. Matsumoto, Y. Toyama, M. Aizawa, N. Kanzawa, T. J. Fujimi, H. Uchida, I. Okada, gA novel hydroxyapatite fiber mesh as a carrier for recombinant human bone morphogenetic protein-2 enhances bone union in rat posterolateral fusion modelh, Spine, 31, 1194-2000 (2006).
3) M. Aizawa, H. Ueno, K. Itatani, I. Okada, gSynthesis of calcium-deficient apatite fibres by a homogeneous precipitation method and their characterizationsh, J. Eur. Ceram. Soc.,26, 501-507 (2006).
4) A. Miyazaki, M. Aizawa, gAdhesion, Proliferation and Morphology of Osteoblasts Cultured on Apatite Ceramics with Preferred Orientation to a-planeh, Key Engineer. Mater., 309-311, 109-112 (2006).
5) T. Ohno, M. Aizawa, gEffect of the Concentrations of the Starting Solution on the Syntheses and Powder Properties of Hollow Tricalcium-phosphate Microspheres by Ultrasonic Spray-pyrolysis Techniqueh, Key Engineer. Mater., 309-311, 235-238 (2006).
6) M. Aizawa, N. Patel, A. E. Porter, S. M. Best, W. Bonfield, gSyntheses of Silicon-containing Apatite Fibres by a Homogeneous Precipitation Method and Their Characterizationh, Key Engineer. Mater., 309-311, 1129-1132 (2006).
2005
1) M. Aizawa, A. Ono, T. Ohno, P-K. Choi, gSynthesis of Calcium-phosphate Microsphere with well-controlled Particle Size by Ultrasonic Spray-pyrolysis Technique and Their Sinterabilityh, Phosphorus Res. Bull., 19, 1-6 (2005).
2) N. Igeta, T. Katakami and M. Aizawa, gFabrication and Characterization of the Apatite-fiber Scaffolds with Enhanced Mechanical Property using Apatite Gels as a Sintering Agenth, Phosphorus Res. Bull., 19, 42-47 (2005).
3) M. Aizawa, K. Itatani and I. Okada, gCharacterization of Porous À-tricalcium Phosphate Films Formed on Alumina Ceramics by Spray-pyrolysis Technique and Their in vitro Evaluations Using Osteoblastsh, J. Ceram. Soc. Jpn., 113, 245-251 (2005).
4) I. Okada, Y. Namiki, H. Uchida, M. Aizawa and K. Itatani, gMD simulation of crystal growth of NaCl from its supersaturated aqueous solutionh, J. Mol. Liq., 118, 131-139 (2005).
5) M. Aizawa, A. E. Porter, S. M. Best and W. Bonfield, gUltrastructural Observation of Single-crystal Apatite Fibresh, Biomaterials, 26, 3427-3433 (2005).
2) N. Igeta, T. Katakami and M. Aizawa, gFabrication and Characterization of the Apatite-fiber Scaffolds with Enhanced Mechanical Property using Apatite Gels as a Sintering Agenth, Phosphorus Res. Bull., 19, 42-47 (2005).
3) M. Aizawa, K. Itatani and I. Okada, gCharacterization of Porous À-tricalcium Phosphate Films Formed on Alumina Ceramics by Spray-pyrolysis Technique and Their in vitro Evaluations Using Osteoblastsh, J. Ceram. Soc. Jpn., 113, 245-251 (2005).
4) I. Okada, Y. Namiki, H. Uchida, M. Aizawa and K. Itatani, gMD simulation of crystal growth of NaCl from its supersaturated aqueous solutionh, J. Mol. Liq., 118, 131-139 (2005).
5) M. Aizawa, A. E. Porter, S. M. Best and W. Bonfield, gUltrastructural Observation of Single-crystal Apatite Fibresh, Biomaterials, 26, 3427-3433 (2005).
2004
1) M. Aizawa, H. Shinoda, H. Uchida, I. Okada, T. J. Fujimi, N. Kanzawa, H. Morisue, M. Matsumoto, Y. Toyama, gIn Vitro Biological Evaluations of Three-Dimensional Scaffold Developed from Single-crystal Apatite Fibres for Tissue
Engineering of Boneh, Phosphorus Res. Bull., 17, 268-273 (2004).
2) M. Aizawa, M. Ito, Y. Takeoka, M. Rikukawa, I. Okada, gFabrication of Porous Tricalcium Phosphate Ceramics from Calcium-phosphate Fibers for a Matrix of Biodegradable Ceramics/polymer Hybridsh, Phosphorus Res. Bull., 17, 213-214 (2004).
3) M. Aizawa , A. Porter, S. Best and W. Bonfield, gMicrostructual changes of Single-crystal Apatite Fibres during heat treatmenth, Key Engineer. Mater, 254-256, 915-918 (2004).
4) M. Kawata, H. Uchida, K. Itatani, I. Okada, S. Koda, M. Aizawa, gDevelopment of porous ceramics with well-controlled porosities and pore sizes from apatite fibers and their evaluationsh, J. Mater. Sci: Mater. Med., 15, 817-823 (2004).
5) J. Nozaki, H. Uchida, K. Itatani, I. Okada, S. Koda, M. Aizawa, M. Matsumoto, H. Matsumoto, Y. Toyama, gBiocompatibility of Hydroxyapatite Films Formed on Various Metals by a Surface Treatment Using an Enzyme Reactionh, Trans. Mater. Res. Soc. Jpn., 29, 2663-2666 (2004).
2) M. Aizawa, M. Ito, Y. Takeoka, M. Rikukawa, I. Okada, gFabrication of Porous Tricalcium Phosphate Ceramics from Calcium-phosphate Fibers for a Matrix of Biodegradable Ceramics/polymer Hybridsh, Phosphorus Res. Bull., 17, 213-214 (2004).
3) M. Aizawa , A. Porter, S. Best and W. Bonfield, gMicrostructual changes of Single-crystal Apatite Fibres during heat treatmenth, Key Engineer. Mater, 254-256, 915-918 (2004).
4) M. Kawata, H. Uchida, K. Itatani, I. Okada, S. Koda, M. Aizawa, gDevelopment of porous ceramics with well-controlled porosities and pore sizes from apatite fibers and their evaluationsh, J. Mater. Sci: Mater. Med., 15, 817-823 (2004).
5) J. Nozaki, H. Uchida, K. Itatani, I. Okada, S. Koda, M. Aizawa, M. Matsumoto, H. Matsumoto, Y. Toyama, gBiocompatibility of Hydroxyapatite Films Formed on Various Metals by a Surface Treatment Using an Enzyme Reactionh, Trans. Mater. Res. Soc. Jpn., 29, 2663-2666 (2004).
2003
1) M. Aizawa, H. Ueno, I. Okada, gDevelopment of Scaffolds for Tissue Engineering Using Single-crystal Apatite Fibres and Their Biological Evaluation by Osteoblastic Cellh, Trans. Mater. Res. Soc. Jpn., 28, 849-852(2003).
2) M. Aizawa, H. Shinoda, H. Uchida, K. Itatani, I. Okada, M. Matsumoto, H. Morisue, H. Matsumoto, Y. Toyama, gDevelopment and Biological Evaluation of Apatite Fiber Scaffolds with Large Pore Size and High Porosity for Bone Regenerationg, Key Engineer. Mater, 240-242, 647-650 (2003).
3) J. Nozaki, M. Aizawa, H. Uchida, K. Itatani, H. Suemasu, A. Nozue, I. Okada, M. Matsumoto, H. Matsumoto, Y. Toyama, gBiocompatibility of Hydroxyapatite films formed on Ti Metal by a Simple Urea and Urease Treatmenth, Key Engineer. Mater, 240-242, 603-606 (2003).
4) M. Aizawa, A. Porter, S. Best, W. Bonfield, gHigh Resolution Transmission Electron Microscopy Investigation of Single Crystal Apatite Fibres Synthesized by a Homogeneous Precipitation Methodh, Key Engineer. Mater, 240-242, 509-512 (2003).
5) K. Itatani, R. Tsukamoto, H. Uchida, M. Aizawa, A. C. A. Delsing, H. T. Hintzen, I. Okada, gDensification and Mechanical Properties of 4AlN-SiC Ceramics -Utilization of Nanocomposite Powders Prepared by the Nitridation of Aluminum Silicon Carbide-, Key Engineer. Mater, 247, 91-94 (2003).
6) K. Kaneko, Y. Takeoka, M. Aizawa, M. Rikukawa, gFabrication and electrical properties of proton conducting polymer hybridized with apatite compoundsh, Synthetic Metals, 135-136, 73-74 (2003).
7) S. Wakayama, T. Kawakami, S. Kobayashi, M. Aizawa, A. Nozue, gAcoustic Emission From Micro-fracture Processes of Bio-ceramics in Simulated Body Environmenth, J. Acoustic Emission, 21, 149-156 (2003).
2) M. Aizawa, H. Shinoda, H. Uchida, K. Itatani, I. Okada, M. Matsumoto, H. Morisue, H. Matsumoto, Y. Toyama, gDevelopment and Biological Evaluation of Apatite Fiber Scaffolds with Large Pore Size and High Porosity for Bone Regenerationg, Key Engineer. Mater, 240-242, 647-650 (2003).
3) J. Nozaki, M. Aizawa, H. Uchida, K. Itatani, H. Suemasu, A. Nozue, I. Okada, M. Matsumoto, H. Matsumoto, Y. Toyama, gBiocompatibility of Hydroxyapatite films formed on Ti Metal by a Simple Urea and Urease Treatmenth, Key Engineer. Mater, 240-242, 603-606 (2003).
4) M. Aizawa, A. Porter, S. Best, W. Bonfield, gHigh Resolution Transmission Electron Microscopy Investigation of Single Crystal Apatite Fibres Synthesized by a Homogeneous Precipitation Methodh, Key Engineer. Mater, 240-242, 509-512 (2003).
5) K. Itatani, R. Tsukamoto, H. Uchida, M. Aizawa, A. C. A. Delsing, H. T. Hintzen, I. Okada, gDensification and Mechanical Properties of 4AlN-SiC Ceramics -Utilization of Nanocomposite Powders Prepared by the Nitridation of Aluminum Silicon Carbide-, Key Engineer. Mater, 247, 91-94 (2003).
6) K. Kaneko, Y. Takeoka, M. Aizawa, M. Rikukawa, gFabrication and electrical properties of proton conducting polymer hybridized with apatite compoundsh, Synthetic Metals, 135-136, 73-74 (2003).
7) S. Wakayama, T. Kawakami, S. Kobayashi, M. Aizawa, A. Nozue, gAcoustic Emission From Micro-fracture Processes of Bio-ceramics in Simulated Body Environmenth, J. Acoustic Emission, 21, 149-156 (2003).