Journal
2023
T Tenkumo, B Kruse, K Kostka, V Sokolova, T Ogawa, N Yoda, O Prymak, O Suzuki, K Sasaki, M Epple. Development of triple-functionalized calcium phosphate nanoparticles as an advanced drug delivery system for bone tissue repair. Regenerative Therapy (2023) in press.
T Hatakeyama, R Hamai, Y Shiwaku, T Anada, S Sakai, T Sato, K Baba, K Sasakie, O Suzuki. Effects of degradation products from gelatin spongy scaffolds on angio-osteogenic capacity. Sci Technol Adv Mater 24:2277675 (2023). DOI: 10.1080/14686996.2023.2277675
D Chaiariyakul, R Hamai, Y Shiwaku, K Tsuchiya, O Suzuki. Adsorption behavior and osteoblastic cellular activity of metronidazole molecule with octacalcium phosphate and hydroxyapatite. J Drug Deliv Sci Technol 89:105046 (2023).
鈴木 治,川井 忠. リン酸八カルシウム(OCP)/コラーゲン複合体創製による骨再生への応用. セラミックス 58:592-595 (2023).
Y Mori, R Hamai, T Aizawa, O Suzuki. Impact of octacalcium phosphate/gelatin composite (OCP/Gel) on bone repair in refractory bone defects. Tohoku J Exp Med 260:245-252 (2023).
川井 忠,鎌倉慎治,鈴木 治. インプラント治療のためのコラーゲン使用人工骨「ボナークⓇ」の有効な使い方のポイント. 日本歯科評論 83:83-94 (2023).
濱井 瞭,鈴木 治. 共存する材料・生体分子の物理化学的挙動の調節を介したリン酸八カルシウムによる骨再生. バイオマテリアル-生体材料- 41:132-135 (2023).
O Suzuki, R Hamai, S Sakai. The material design of octacalcium phosphate bone substitute: increased dissolution and osteogenecity. Acta Biomater 158:1-11 (2023).
濱井 瞭,尾崎 尚,鈴木 治. リン酸八カルシウムと骨組織の相互作用がもたらす骨形成化学環境. バイオマテリアル-生体材料- 41:26-27 (2023).
X Liu, Y Shiwaku, R Hamai, K Tsuchiya, T Takahashi, O Suzuki. Effect of octacalcium phosphate crystals on the osteogenic differentiation of tendon stem/progenitor cells in vitro. Int J Mol Sci 24:1235 (2023). DOI:10.3390/ijms24021235
L Xiao, Y Shiwaku, R Hamai, K Baba, K Tsuchiya, S Imazato, K Sasaki, O Suzuki. Osteogenic capacity of octacalcium phosphate involving macrophage polarization. J Biomed Mater Res A 111:1006-1020 (2023).
2022
鈴木 治.高活性骨誘導材の創出. 上原記念生命科学財団 研究報告集 36:224 (2022).
鈴木 治,井樋栄二. 人工骨材料 (リン酸八カルシウム材料). 人工臓器 51:160-164 (2022).
鈴木 治,濱井 瞭,塩飽由香利. リン酸八カルシウム(OCP)による骨再生のメカニズム解明と新機能開拓への取り組み. バイオマテリアル-生体材料- 40:198-205 (2022).
濱井 瞭. リン酸八カルシウム複合材料の溶解挙動の調節と骨再生能. セラミックス 57:481-482 (2022).
鈴木 治.骨芽細胞と破骨細胞に作用するリン酸八カルシウム(OCP)骨補填材の開発.歯界展望特別号 医歯薬出版株式会社 pp.134-135 (2022).
S Hamada, Y Mori, Y Shiwaku, R Hamai, K Tsuchiya, K Baba, I Oizumi, R Kanabuchi, N Miyatake, T Aizawa, O Suzuki. Octacalcium phosphate/gelatin composite (OCP/Gel) enhances bone repair in a critical-sized trans-cortical femoral defect rat model. Clin Orthop Relat Res 480:2043-2055 (2022).
鈴木 治, 濱井 瞭. トピックス 転位導入によるリン酸八カルシウム 骨補填材の組織再生能強化.セラミックス 57:287 (2022).
三浦桂一郎,朝比奈泉,鎌倉慎治,鈴木治,松井桂子,高橋哲.リン酸オクタカルシウム・コラーゲン複合体の最新の知見と今後の展望.日本顎顔面インプラント学会誌 21:11-21 (2022).
K Okuyama, Y Shiwaku, R Hamai, T Mizoguchi, K Tsuchiya, T Takahashi, O Suzuki. Differentiation of committed osteoblast progenitors by octacalcium phosphate compared to calcium-deficient hydroxyapatite in Lepr-cre/Tomato mouse tibia. Acta Biomater 142:332-344 (2022).
S Koyama, R Hamai, Y Shiwaku, T Kurobane, K Tsuchiya, T Takahashi, O Suzuki. Angio-osteogenic capacity of octacalcium phosphate co-precipitated with copper gluconate in rat calvaria critical-sized defect. Sci Technol Adv Mater 23:120-139 (2022). DOI:10.1080/14686996.2022.2035193 (東北大学大学院歯学研究科・総長賞受賞対象論文)
R Hamai, S Sakai, Y Shiwaku, T Anada, K Tsuchiya, T Ishimoto, T Nakano, O Suzuki. Octacalcium phosphate crystals including a higher density dislocation improve its materials osteogenecity. Appl Mater Today 26:101279 (2022). DOI: 10.1016/j.apmt.2021.101279 ※Press release
2021
L Xiao, Y Shiwaku, R Hamai, K Tsuchiya, K Sasaki, O Suzuki. Macrophage polarization related to crystal phases of calcium phosphate biomaterials. Int J Mol Sci 22:11252 (2021). DOI: 10.3390/ijms222011252
Y Shiwaku, R Hamai S Sato, S Sakai, K Tsuchiya, K Baba, T Takahashi, O Suzuki. Bone tissue response to different grown crystal batches of octacalcium phosphate in rat long bone intramedullary canal area. Int J Mol Sci 22:9770 (2021). DOI: 10.3390/ijms22189770
T Kibe, A Maeda-Iino, T Takahashi, S Kamakura, O Suzuki, N Nakamura. A follow-up study on the clinical outcomes of alveolar reconstruction using octacalcium phosphate granules and atelocollagen complex. J Oral Maxillofac Surg 79:2462-2471 (2021).
Y Wang, Y Yoshida, J Kamiie, Y Shiwaku, O Suzuki, M Furuya, K Yokota, H Kanetaka, T Yokoi, M Kawashita. Proteomic identification of serum proteins to induce osteoconductivity of hydroxyapatite. Dent Mater J 40:1428-1436 (2021).
S Saito, R Hamai, Y Shiwaku, T Hasegawa, S Sakai, K Tsuchiya, Y Sai, R Iwama, N Amizuka, T Takahashi, O Suzuki. Involvement of distant octacalcium phosphate scaffolds in enhancing early differentiation of osteocytes during bone regeneration. Acta Biomater 129:309-322 (2021).
川井 忠,髙橋 哲,松井桂子,鈴木 治,鎌倉慎治. 新規骨補填材料 リン酸八カルシウム・コラーゲン複合体「ボナーク®」について. 日本歯科評論 81:105-114 (2021).
H Ozaki, R Hamai, Y Shiwaku, S Sakai, K Tsuchiya, O Suzuki. Mutual chemical effect of autograft and octacalcium phosphate implantation on enhancing intramembranous bone regeneration. Sci Technol Adv Mater:22 345-362 (2021). DOI: 10.1080/14686996.2021.1916378
I Oizumi, R Hamai, Y Shiwaku, Y Mori, T Anada, K Baba, N Miyatake, S Hamada, K Tsuchiya, S Nishimura, E Itoi, O Suzuki. Impact of simultaneous hydrolysis of OCP and PLGA on bone induction of a PLGA-OCP composite scaffold in a rat femoral defect. Acta Biomater 124:358-373 (2021).
M Oikawa, H Masumoto, N Shiraishi, Y Orii, T Anada, O Suzuki, K Sasaki. Effect of surface modification of Ti-6Al-4V alloy by electron resonance plasma oxidation. Dent Mater J 40:228-234 (2021).
2020
K Tsuchiya, R Hamai, S Sakai, O Suzuki. Comparative analysis of bovine serum albumin adsorption onto octacalcium phosphate crystals prepared using different methods. Dent Mater J 39:883-891 (2020). DOI:10.4012/dmj.2019-250
濱井 瞭,土屋 香織, 鈴木 治. リン酸八カルシウム結晶周囲の化学環境が血清タンパク質吸着と集積に及ぼす影響の検討. 粉体および粉末冶金 67:258-263 (2020).
N Shiraishi, H Masumoto, K Takahashi, T Tenkumo, T Anada, O Suzuki, T Ogawa, K Sasaki. Histomorphometric assessments of peri-implant bone around Ti-Nb-Sn alloy implants with low Young's mosulus. Dent Mater J 39:148-153 (2020).
鈴木 治. リン酸八カルシウム(OCP)材料-生理的石灰化促進型骨補填材-. 日本歯科理工学会誌 39: 5-8 (2020).
K Baba, Y Shiwaku, R Hamai, Y Mori, T Anada, K Tsuchiya, I Oizumi, N Miyatake, E Itoi, O Suzuki. Chemical stability-sensitive osteoconductive performance of octacalcium phosphate bone substitute in an ovariectomized rat tibia defect. ACS Appl Bio Mater 3:1444-1458 (2020).
O Suzuki, Y Shiwaku, R Hamai. Octacalcium phosphate bone substitute materials: Comparison between properties of biomaterials and other calcium phosphate materials. Dent Mater J 39:187-199 (2020). DOI: 10.4012/dmj.2020-001
T Kawai, S Kamakura, K Matsui, M Fukuda, H Takano, M Iino, S Ishikawa, H Kawana, T Soma, E Imamura, H Kizu ,A Michibata, I Asahisa, K Miuram, N Nakamura, T Kibe, O Suzuki, T Takahashi. Clinical study of octacalcium phosphate and collagen composite in oral and maxillofacial surgery. J Tissue Eng 11:1-15 (2020).
M Narukawa, O Suzuki, M Mayahara, E Imamura, Y Takagi, T Funae, Y Makino, R Ohki, M Nakamura. Resorption analysis of deprotenized cancellous bovine bone. Dent Mater J 39:760-765 (2020).
2019
Octacalcium Phosphate Biomaterials. Edited by O Suzuki, G Insley. Woodhead Publishing Series in Biomaterials, Elsevier (2019). DOI: 10.1016/C2017-0-01051-0
O Suzuki. Evolution of octacalcium phosphate biomaterials. In Chapter 1, Octacalcium Phosphate Biomaterials, pp.1-15 (2019). Edits: O Suzuki, G Insley. Woodhead Publishing Series in Biomaterials, Elsevier.
Y Shiwaku, O Suzuki. Octacalcium phosphate effects on the systemic and local factors that regulate bone-cell activity. In Chapter 2, Octacalcium Phosphate Biomaterials, pp.17-36 (2019). Edits: O Suzuki, G Insley. Woodhead Publishing Series in Biomaterials, Elsevier.
R Hamai, T Anada, O Suzuki. Novel scaffold composites containing octacalcium phosphate. In Chapter 6, Octacalcium Phosphate Biomaterials, pp.121-145 (2019). Edits: O Suzuki, G Insley. Woodhead Pulishing Series in Biomaterials, Elsevier.
鈴木 治,宮武 尚央, 今泉秀樹. 骨補填材リン酸八カルシウムの結晶性状多様性と骨形成活性. 日本結晶成長学会誌 46: 1-10 (2019).
S Sasano, M Nakamura, A Henmi, H Okata, O Suzuki, A Kayaba, M Mayanagi. Degradation of extracellular matrices propagates calcification during development and healing in bones and teeth. J Oral Biosci. 61:149-156 (2019).
R Hamai, K Tsuchiya, O Suzuki. Adsorption of serum albumin onto octacalcium phosphate in supersaturated solutions regarding calcium phosphate phases. Materials 12:2333 (2019). DOI: 10.3390/ma12142333
鈴木 治, 濱井 瞭. 第 I 編 第6章 「リン酸オクタカルシウム(OCP)の骨再生などへの応用」, 無機/有機材料の表面処理・改質による生体適合性付与, シーエムシー出版 pp.56-67 (2019).
鈴木 治. 医療を支える新素材「リン酸カルシウムによる骨再生」. 現代化学 (Chemistry Today) 2019年5月号, 東京化学同人 No.578 pp.34-36 (2019).
川井 忠, 鎌倉慎治, 松井佳子, 高橋 哲, 鈴木 治. リン酸八カルシウム・コラーゲン複合体に関する基礎研究から治験までの経過概要. バイオマテリアル-生体材料- 37: 88-95 (2019).
穴田貴久, 鈴木 治. 「3次元オルガノイド形成」, 歯科再生医学, 医歯薬出版株式会社 pp.206-215 (2019).
T Sato, T Anada, R Hamai, Y Shiwaku, K Tsuchiya, S Sakai, K Baba, K Sasaki, O Suzuki. Culture of hybrid spheroids composed of calcium phosphate materials and mesenchymal stem cells on an oxygen-permeable culture device to predict in vivo bone forming capability. Acta Biomater 88:477-490 (2019).
T Anada, C Pan, A Stahl, S Mori, J Fukuda, O Suzuki, Y Yang. Vascularized bone-mimetic hydrogel constructs by 3D bioprinting to promote osteogenesis and angiogenesis. Int J Mol Sci 20:1096 (2019).
鈴木 治, 濱井 瞭. 第3章 第1節 「リン酸八カルシウム足場材料の開発とその応用」, 再生医療の開発戦略と最新研究事例集, 情報技術協会 pp.141-160 (2019).
T Kurobane, Y Shiwaku, T Anada, R Hamai, K Tsuchiya, K Baba, M Iikubo, T Takahashi, O Suzuki. Angiogenesis involvement by octacalcium phosphate-gelatin composite-driven bone regeneration in rat calvaria critical-sized defect. Acta Biomater 88:514-526 (2019). (東北大学大学院歯学研究科・総長賞受賞対象論文)
O Suzuki, How the Japanese Society for Biomaterials established interdisciplinary studies in biomaterials science. J Biomed Mater Res A 107:917-929 (2019).
Y Shiwaku, K Tsuchiya, L Xiao, O Suzuki. Effect of calcium phosphate phases affecting the cosstalk between osteoblasts and osteoclast in vitro. J Biomed Mater Res A 107:1001-1013 (2019).
N Shiraishi, R Ishiko-Uzuka, K Takahashi, T Ogawa, T Anada, O Suzuki, T Goto, K Sasaki. Effect of functinally-graged calcium titanate film prepared by metal-organic chemical vapor deposition on titanium implant. Appl Sci 9:No 172 (2019).
2018
鈴木 治. 日本バイオマテリアル学会のあゆみ-学際領域の確立に向けた挑戦-. バイオマテリアル-生体材料- 36:266-273 (2019).
E Hara, Y Honda, O Suzuki, T Tanaka, N Matsumoto. Epogallocatechin gallate-modified gelatins with different compositions alter the quality of regenerated bone. Int J Mol Sci 19:pii E3232 (2018).
O Suzuki, T Anada. Enhancement of bone tissue repair by octacalcium phosphate crystallizing into hydroxyapatite in situ. In Biomineralization, 189-197, Edits: K Kondo, K Kogure, H Nagasawa. Springer (2018).
T Kawai, T Takahashi, K Matsui, Y Ezoe, O Suzuki, S Kamakura. Application of octacalcium phosphate and collagen composite to bone adefect in humans: A long-term observational study. Clinics in Surgery 3:No.2130 (2018) .
T Kawai, T Takahashi, K Matsui, Y Ezoe, F Kajii, Y Shimizu, S Koyama, H Kumamato, O Suzuki, S Kamakura. Application of octacalcium phosphate and collagen composite for bone augmentation with sinus floor elevation in humans. Clinics in Surgery 3:No.2112 (2018).
川井 忠, 松井桂子, 江福裕史,小山重人,鈴木治, 高橋哲. インプラント治療へのリン酸オクタカルシウム・複合体の応用. 日本顎顔面インプラント学会誌 17:3-8 (2018).
H Ayabe, T Anada, T Kamoya, T satoi, M Kimurai, E Yoshizawa, S Kikuchi, Y Ueno, K Sekine, JG Camp, B Treutlein, A Ferguson, O Suzuki, T Takebe, H Taniguchi. Otimal hypoxia regulates human iPSC-derived liver bud differentiation through intercellular TGFB signaling. Stem Cell Reports S2213-6711:30278-30279 (2018).
川井 忠, 松井桂子, 鈴木治, 高橋哲,鎌倉慎治. リン酸オクタカルシウム・コラーゲン複合体. 歯科展望 131:870-875 (2018).
T Kawai, K Matsui, Y Ezoe, F Kajii, O Suzuki, T Takahashi, S Kamakura. Efficacy of octacalcium phosphate collagen composite for titanium dental implants. materials 11: 229 (2018).
Y Sai, Y Shiwaku, T Anada, K Tsuchiya, T Takahashi, O Suzuki. Capacity of octacalcium phosphate to promote osteoblastic differentiation toward osteocytes in vitro. Acta Biomater 69:362-371 (2018). (東北大学大学院歯学研究科・総長賞受賞対象論文)
R Iwama, T Anada, Y Shiwaku, K Tsuchiya, T Takahashi, O Suzuki. Osteogenic cellular activity around onlaid octacalcium phosphate-gelatin composite onto rat calvaria. J Biomed Mater Res A 106:1322-1333 (2018).
S Tsutsui, T Anada, Y Shiwaku, K Tsuchiya, H Yamazaki, O Suzuki. Surface reactivity of octacalcium phosphate-derived fluoride-containing apatite in the presence of polyols and fluoride. J Biomed Mater Res B Appl Biomater 106B:2235-2244 (2018).
S Tsutsui, T Anada, Y Shiwaku, A Yamagishi, O Suzuki. Effect of polyols on phosphorus-containing calcium fluoride deposition on hydroxyapatite. J Hard Tissue Biol 27:34-38 (2018) .
2017
鈴木 治.バイオマテリアルの安全性と基礎研究のつながり.バイオマテリアル-生体材料- 35(4):201 (2017) .
鈴木 治.リン酸オクタカルシウム骨補填材が骨再生を促進するメカニズム. J Bio-Integ 7:21-26 (2017).
鈴木治、穴田貴久. リン酸八カルシウム/ゼラチン複合体.医療用バイオマテリアルの研究開発、シーエムシー出版、pp. 127-133 (2017).
T Masuda, H Maruyama, F Arai, T Anada, K Tsuchiya, T Fukuda, O Suzuki. Application of an indicator-immobilized-gel-sheet for measuring the pH surrounding a calcium phosphate-based biomaterial. J Biomater Appl 31:1296-1304 (2017).
Ishiko-Uzuka R, Anada T, Kobayashi K, Kawai T, Tanuma Y, Sasaki K, Suzuki O. Oriented bone regenerative capacity of octacalcium phosphate/gelatin composites obtained through two-step crystal preparation method. J Biomed Mater Res B Appl Biomater 105B:1029-1039 (2017).
T Kawai, O Suzuki, K Matsui, Y Tanuma, T Takahashi, S Kamakura. Octacalcium phosphate collagen composite facilitates bone regeneration of large mandibular bone defect in human. J Tissue Eng Regen Med 11:1641-1647 (2017).
2016
O Suzuki, T Anada, Y Shiwaku. Efficacy of calcium phosphate-based scaffold materials on mineralized and non-mineralized tissue regeneration. Interface Oral Health Science, pp.113-120, Springer (2016).
Kawai T, Tanuma Y, Matsui K, Suzuki O, Takahashi T, Kamakura S. Clinical safety and efficacy of implantation of octacalcium phosphatecollagen composites in tooth extraction sockets and cyst holes. J Tissue Eng 7: 1-8 , (2016).
鈴木治,穴田貴久. ”骨”.細胞社会学.細胞工学ライブラリ3,大和雅之編,コロナ社,pp.81-92 (2016).
N Kanda, K Matsui, T Kawai, H Edamatsu, Y Tanuma, O Suzuki, T Takahashi, S Kamakura. Implantation of octacalcium phosphate collagen composites (OCP/Col) after extraction of canine deciduous teeth achieved undisturbed permanent tooth eruption. Arch Oral Biol 72:179-186 (2016).
S Chiba, T Anada, K Suzuki, K Saito, Y Shiwaku, N Miyatake, K Baba, H Imaizumi, M Hosaka, E Itoi, O Suzuki. Effect of resorption rate and osteoconductivity of biodegradable calcium phosphate materials on the acquisition of natural bone strength in the repaired bone. J Biomed Mater Res A 104: 2833-2842 (2016).
K Saito, T Anada, Y Shiwaku, S Chiba, N Miyatake, K Suzuki, K Tsuchiya, O Suzuki. Dose-dependent enhancement of octacalcium phosphate biodegradation with gelatin matrix during bone regeneration in a rabbit tibial defect model. RSC Adv 6: 64165-64174 (2016).
M Tadaki, T Anada, Y Shiwaku, T Nakamura, M Nakamura, M Kojima, T Arai, S Fukumoto, O Suzuki. A 3D culture model study monitoring differentiation of dental epithelial cells into ameloblast-like cells. RSC Adv 6:62109-62118 (2016).
B Hirayama, T Anada, Y Shiwaku, N Miyatake, K Tsuchiya, M Nakamura, T Takahashi, O Suzuki. Immune cell response and subsequent bone formation induced by implantation of octacalcium phosphate in a rat tibia defect. RSC Adv 6:57475-57484 (2016).
Kamoya T, Anada T.Shiwaku Y, Takano-Yamamoto T, Suzuki O. An oxygen-permeable spheroid culture chip (Oxy chip) promotes osteoblastic differentiation of mesenchymal stem cells. Sensors & Actuators: B. Chemical 232 pp. 75-83 (2016).
Anada T, Sato T, Kamoya T, Shiwaku Y, Tsuchiya K, Takano-Yamamoto T, Sasaki K, Suzuki O. Bioactivity of octacalcium phosphate utilizing osteoblastic cell aggregates in a spheroid culture device. Regenerative Therapy 3:58-62 (2016).
鈴木 治.リン酸八カルシウム骨補填材の開発と骨伝導機序の解明. バイオマテリアル-生体材料-34:12-15(2016).
A Henmi, H Okata, T Anada, M Yoshinari, Y Mikami, O Suzuki, Y Sasano. Bone matrix calcification during embryonic and postembryonic rat calvarial development assessed by SEM-EDX, XRD and FTIR, J Bone Miner Metab 34:41-50 (2016).
2015
田沼裕志,越後成志,川井 忠,松井桂子,高橋 哲,鈴木 治,鎌倉慎治. リン酸オクタカルシウム・コラーゲン複合体の埋入によるヒト抜歯寡治癒過程の評価. 東北大学歯学雑誌 32(1):38-43 (2015).
鈴木堅太郎,鈴木 治. リン酸オクタカルシウム.臨床雑誌「整形外科」66 (11) pp.1192,南江堂 (2015).
K Endo, T Anada, M Yamada, M Seki, K Sasaki, O Suzuki. Enhancement of osteoblastic differentiation in alginate gel beads with bioactive octacalcium phosphate particles. Biomed Mater 10:065019 (2015).
T Miyazaki, O Suzuki. CHAPTER 8: Using Fluorescent Polyanions to Assay for Osteoclastic Calcium-Resorption Activity Calcium: Chemistry, Analysis, Function and Effects, pp.111-125 Editor: Victor R Preedy. Royal Society of Chemstry (2015).
O Suzuki, T Anada. Bone related cell-stimulating scaffold materials and a 3D cellular construct for hard tissue regeneration. Hyper Bio Assembler for 3D Cellular Systems, pp.261-274 (2015).
S Sakai, T Anada, K Tsuchiya, H Yamazaki, HC Margolis, O Suzuki. Comparative study on the resorbability and dissolution behavior of octacalcium phosphate, β-tricalcium phosphate, and hydroxyapatite under physiological conditions. Dent Mater J 35(2):216-224 (2015).
N Kanda, T Anada, T Handa, K Kobayashi, Y Ezoe, T Takahashi, O Suzuki. Orthotopic osteogenecity enhanced by a porous gelatin sponge in a critical-sized rat calvaria defect. Macromol Biosci 15:1647-1655 (2015).
M Yamada, T Anada, T Masuda, T Takano-Yamamoto1, O Suzuki. Effect of mechanical stress on differentiation of mouse mesenchymal stem cells seeded into an octacalcium phosphate-gelatin scaffold. Sens Actuators B Chem 220:125-130 (2015).
T Miyazaki, S Miyauchi, T Anada1, A Tawada, O Suzuki. Chondroitin sulfate-E binds to both osteoactivin and integrin αVβ3 and inhibits osteoclast differentiation. J Cell Biochem 116:2247-2257 (2015).
K Takahashi, N Shiraishi, R Ishiko-Uzuka, T Anada, O Suzuki, H Masumoto, K Sasaki. Biomechanical Evaluation of Ti-Nb-Sn Alloy Implants with a Low Young's Modulus. Int J Mol Sci 16:5779-5788 (2015).
穴田貴久、福田淳二、鈴木 治. 酸素透過性三次元細胞培養デバイスの開発「三次元ティッシュエンジニアリング―細胞の培養・操作・組織化から品質管理、脱細胞化まで」エヌ・ティー・エス.pp.213-218 (2015).
Itoigawa Y, Suzuki O, Sano H, Anada T, Handa T, Hatta T, Kuwahara Y, Takahashi A, Ezoe Y, Kaneko K, Itoi E. The role of an octacalcium phosphate in the reformation of infraspinatus tendon insertion. J Shoulder Elbow Surg 24:e175-184 (2015).
Ezoe Y, Anada T, Yamazaki H, Handa T, Kobayashi K, Takahashi T, Suzuki O. Characterization of partially hydrolyzed OCP crystals deposited in a gelatin matrix as a scaffold for bone tissue engineering. J Nanopart Res 17:127 (2015).
Matsuo H, Suenaga H, Takahashi M, Suzuki O, Sasaki K, Takahashi N. Deterioration of polymethyl methacrylate dentures in the oral cavity. Dent Mater J 34: 234-239 (2015).
X Wang, T Suzawa, T Miyauchi, B Zhao, R Yasuhara, T Anada, N Nakamura, O Suzuki, R Kamijo. Synthetic Octacalcium Phosphate Enhanced Reparative Dentin Formation via Induction of Odontoblast Differentiation. J Tissue Eng Regen Med 9: 1310-1320 (2015).
2014
K Kobayashi, T Anada, T Handa, N Kanda, M Yoshinari, T Takahashi, O Suzuki. Osteoconductive property of a mechanical mixture of octacalcium phosphate and amorphous calcium phosphate. ACS Applied Materials & Interfaces 6:22602-22611 (2014).
鈴木 治.「バイオマテリアル研究の最前線」日本金属学会(編), Ca欠損ハイドロキシアパタイトへの転換プロセスが 関与するOCPの骨形成促進作用—OCPの骨伝導能発現のメカニズム—, pp.125-126 (2014).
鈴木 治.「バイオマテリアル研究の最前線」日本金属学会(編) OCP析出ゼラチン複合体によるラット頭蓋冠臨界径 骨欠損の修復—OCP析出ゼラチン複合体による骨欠損の修復法—, pp.127-128 (2014).
鈴木 治,穴田貴久.ハイドロキシアパタイト前駆体の結晶化が調節する生体反応. バイオマテリアル―生体材料―32(3):180-187 (2014).
K Hoshi, H Kawaki, I Takahashi, N Takeshita, M Seiryu, S A Murshid, T Masuda, T Anada, R Kato, H Kitaura, O Suzuki, T Takano-Yamamoto. Compressive force-produced CCN2 induces osteocyte apoptosis through ERK1/2 pathway. J Bone Miner Res 29:1244-1257 (2014).
R Nishikawa, T Anada, R Ishiko-Uzuka, O Suzuki. Osteoblastic differentiation of stromal ST-2 cells from octacalcium phosphate exposure. Dent Mater J 33:242-251 (2014).
H Matsui, N Fukuno, Y Kanda, Y Kantoh, T Chida, Y Nagaura, O Suzuki, H Nishitoh, K Takeda, H Ichijo, Y Sawada, K Sasaki, T Kobayashi, S Tamura. The expression of Fn14 via mechanical stress-activated JNK contributes to apoptosis induction in osteoblasts. J Biol Chem, 289:6438-6450 (2014).
T Kawai, S Echigo, K Matsui, Y Tanuma, T Takahashi, O Suzuki, S Kamakura. First clinical application of octacalcium phosphate collagen composite in human bone defect. Tissue Eng Part A 20:1336-1341 (2014).
K Suzuki, T Anada, T Miyazaki, N Miyatake, Y Honda, K N Kishimoto, M Hosaka, H Imaizumi, E Itoi, O Suzuki. Effect of addition of hyaluronic acids on osteoconductivity and biodegradability of synthetic octacalcium phosphate. Acta Biomater 10(1):531-543 (2014) .
A Matsui, K Matsui, T Handa, Y Tanuma, K Miura, Y Kato, T Kawai, O Suzuki, S Kamakura, S Echigo. The regenerated bone quality by implantation of octacalcium phosphate collagen composites (OCP/Col) in a canine alveolar cleft model. Cleft Palate-Craniofacl J 51: 420-430 (2014).
N Sato, T Kuwana, M Yamamoto, H Suenaga, T Anada, S Koyama, O Suzuki, K Sasaki. Bone response to immediate loading through titanium implants with different surface roughness in rats. Odontology 102:249-258 (2014).
2013
鈴木 治. セラミックスの高機能化および複合化「体内埋め込み医療材料の開発とその理想的な性能・デザインの要件」 技術情報協会.pp.403-405 (2013).
鈴木 治,穴田貴久. リン酸八カルシウム(OCP)を用いる次世代バイオマテリアルの開発「アンチエージングシリーズ3・骨研究最前線」エヌ・ティー・エス.pp.325-333 (2013).
鈴木 治.溶解性医療用セラミックス材料―リン酸八カルシウム―「未来型人工関節を目指して」日本医学館,pp.233-237 (2013).
T Anada, O Suzuki. (2013) Size Regulation of Chondrocyte Spheroids Using a PDMS-based Cell Culture Chip. Journal of Robotics and Mechatronics 25:644-649.
K Miura, T Anada, Y Honda, Y Shiwaku, T Kawai, S Echigo, T Takahashi, O Suzuki. Characterization and bioactivity of nano-submicro octacalcium phosphate/gelatin composite. Applied Surface Science 282: 138-145 (2013).
S Tsuchiya, M Tsuchiya, T Nishioka, O Suzuki, Y Sasano, K Igarashi. Physiological distal drift in rat molars contributes to acellular cementum formation. Anat Rec, 296(8): 1255-1263 (2013).
Y Honda, T Anada, S Morimoto, O Suzuki. Labile Zn ions on octacalcium phosphate-derived Zn-containing hydroxyapatite. Appl Sur Sci 273:343- 348 (2013).
Suzuki O. Octacalcium phosphate (OCP)-based bone substitute materials. Jpn Dent Sci Rev 49: 58-71 (2013). DOI: 10.1016/j.jdsr.2013.01.001
Y Tanuma, K Matsui, T Kawai, A Matsui, O Suzuki, Si Kamakura, S Echigo. Comparison of bone regeneration between octacalcium phosphate (OCP)/collagen composite and β-tricalcium phosphate (β-TCP) in canine calvarial defect. Oral Sur Oral Med Oral Pathol Oral Radiol Endodontol 115:9-17 (2013).
I Shibuya, K Yoshimura, Y Miyamoto, A Yamada, M Takami, T Suzawa, D Suzuki, N Ikumi, F Hiura, T Anada, O Suzuki, R Kamijo. Octacalcium phosphate suppresses chondrogenic differentiation of ATDC5 cells. Cell Tissue Res 352:401-412 (2013).
2012
鈴木治.「アパタイト前駆体の結晶化プロセスと生体反応:化学研究の進歩とバイオマテリアルへの応用」 バイオマテリアル-生体材料 30:222-225 (2012).
T Masuda, N Takei, T Nakano, T Anada, O Suzuki, F Arai. A microfabricated platform to form three-dimensional toroidal multicellular aggregate. Biomed Microdevices,14:1085-93 (2012).
T Anada, J Fukuda, Y Sai, O Suzuki. An oxygen-permeable spheroid culture system for the prevention of central hypoxia and necrosis of spheroids.Biomaterials 33: 8430-8441 (2012).
Y Shiwaku, T Anada, H Yamazaki, Y Honda, S Morimoto, K Sasaki, O Suzuki. Structural, morphological and surface characteristics of two types of octacalcium phosphate-derived fluoride-containing apatitic calcium phosphates. Acta Biomater 8:4417-4425 (2012).
S Morimoto, T Anada, Y Honda, O Suzuki. Comparative study on in vitro biocomatibility of synthetic octacalcium phosphate and calcium phosphate ceramics used clinically. Biomed Mater 7:045020 (2012).
N Shiraishi, R Tu, R Uzuka, T Anada, T Narushima, T Goto, M Niinomi, K Sasaki, O Suzuki. Biomechanical evaluation of amorphous calcium phosphate coated TNTZ implants prepared using a radiofrequency magnetron sputtering system. Mater Trans53:1343-1348 (2012).
K Miura, K Matsui, T Kawai, Y Kato, A Matsui, O Suzuki, S Kamakura, S Echigo. Octacalcium phosphate (OCP) collagen composites with titanium mesh facilitate alveolar augmentation in canine mandibular bone defects. Int J Oral Maxillofac Surg 41:1161-1169 (2012).
K Suzuki, Y Honda, T Anada, T Handa, N Miyatake, A Takahashi, M Hosaka, H, Imaizumi, E Itoi, O Suzuki. Stimulatory capacity of an octacalcium phosphate/gelatin composite on bone regeneration in rabbit tibia defect model. Phosphorus Res Bull,26 (Special Issue) 53-58 (2012).
T Handa, T Anada, Y Honda, H Yamazaki, K Kobayashi, N Kanda, S Kamakura, S Echigo, O Suzuki. The effect of an octacalcium phosphate co-precipitated gelatin composite on the repair of critical-sized rat calvarial defects. Acta Biomater 8:1190-1200 (2012).
Y Tanuma, T Anada, Y Honda, T Kawai, S Kamakura, S Echigo, O Suzuki. Granule size-dependent bone regenerative capacity of octacalcium phosphate in collagen matrix. Tissue Eng Part A 18:546-557 (2012).
2011
A Suzuki, T Masuda, I Takahashi, T Deguchi, O Suzuki, T Takano-Yamamoto. Changes in stress distribution of orthodontic miniscrews and surrounding bone evaluated by 3-dimensional finite element analysis. Am J Orthod Dentofacial Orthop 140:e273-280 (2011).
T Kawai, T Anada, T Masuda, Y Honda, Y Sakai, Y Kato. S Kamakura, S Echigo, O Suzuki. The effect of synthetic octacalcium phosphate in a collagen scaffold on the osteogenicity of MSCs. Eur Cell Mater 22:124-136 (2011).
H Kaneko, J Kamiie, H Kawakami, T Anada, Y Honda, N Shiraishi, S Kamakura, T Terasaki, H Shimauchi, O Suzuki. Proteome analysis of rat serum proteins adsorbed onto synthetic octacalcium phosphate crystals. Anal Biochem 418:276-285 (2011).
Y Honda, T Anada, S Morimoto, Y Shiwaku, O Suzuki. Effect of Zn2+ on the physicochemical characteristics of octacalcium phosphate and its hydrolysis into apatitic phases. Crystal Growth and Design 11:1462-1468 (2011).
S Numthuam, T Kakegawa, T Anada, A Khademhosseini, H Suzuki, J Fukuda. Synergistic effects of micro/nano modifications on electrodes for microfluidic electrochemical ELISA. Sens Actuators B Chem 156(2):637-644 (2011).
N Fukuno, H Matsui, Y Kanda, O Suzuki, K Matsumoto, K Sasaki, T Kobayashi, S Tamura. TGF-β-activated kinase 1 mediates mechanical stress-induced IL-6 expression in osteoblasts. Biochem Biophys Res Commun 408(2):202-207 (2011).
F Terao, I Takahashi, H Mitani, N Haruyama, Y Sasano, O Suzuki, T Takano-Yamamoto. Fibroblast growth factor 10 regulates Meckel's cartilage formation during early mandibular morphogenesis in rats. Dev Biol 350:337-347 (2011).
T Miyazaki, S Miyauchi, T Anada, H Imaizumi, O Suzuki. Evaluation of osteoclastic resorption activity using calcium phosphate coating combined with labeled polyanion. Anal Biochem 410:7-12 (2011). ※歯学研究科プレスリリース
R Akatsuka, K Sasaki, M S S Zahmaty, M Noji, T Anada, T Kuriyagawa, O Suzuki. Characteristics of hydroxyapatite film formed on human enamel with the powder jet deposition technique. J Biomed Mater Res B Appl Biomater 98B:210-216 (2011).
T Kawai, K Matsui, S Iibuchi, T Anada, Y Honda, K Sasaki, S Kamakura, O Suzuki, S Echigo Reconstruction of critical-sized bone defect in dog skull by octacalcium phosphate combined with collagen. Clin Implant Dent Relate Res 13(2):112-123 (2011).
K Tachi, M Takami, H Sato, A Mochizuki, B Zhao, Y Miyamoto, H Tsukasaki, T Inoue, S Shintani, T Koike, Y Honda, O Suzuki, K Baba, R Kamijo. Enhancement of bone morphogenetic protein-2-induced ectopic bone 3 formation by transforming growth factor β1. Tissue Eng Part A 17:597-606 (2011).
2010
K Matsui, A Matsui, T Handa, T Kawai, O Suzuki, S Kamakura, S Echigo. Bone regeneration by octacalcium phosphate (OCP) collagen composites in a dog alveolar cleft model. Int. J Oral Maxillofac Surg 39:1218-1225 (2010).
O Suzuki. Octacalcium phosphate: Osteoconductivity and crystal chemistry. Acta Biomater 6(9):3379-3387 (2010).
T Miyazaki, S Miyauchi, A Tawada, T Anada, O Suzuki. Effect of chondroitin sulfate-E on the osteoclastic differentiation of RAW264 cells. Dental Mater J 29:403-410 (2010).
Y Shiwaku, Y Honda, T Anada, S Morimoto, T Masuda, K Sasaki, O Suzuki. Analysis of physicochemical properties of octacalcium phosphate prepared by hydrolysis and co-precipitation with fluoride ions. J Ceram Soc Japan 118:1-4 (2010).
T Anada, T Masuda, Y Honda, J Fukuda, F Arai, T Fukuda, O Suzuki. Three-dimensional cell culture device utilizing thin membrane deformation by decomression. Sens Actuators B Chem 147:376-379 (2010).
O Suzuki. Biological role of synthetic octacalcium phosphate in bone formation and mineralization. J Oral Biosci 52(1):6-14 (2010).
Y Orii, H Masumoto, Y Honda, T Anada, T Goto, K Sasaki, O Suzuki. Enhancement of octacalcium phosphate deposition on a titanium surface activated by electron cyclotron resonance plasma oxidation. J Biomed Mater Res B Appl Biomater 93B:476-483 (2010).
S Iibuchi, K Matsui, T Kawai, K Sasaki, O Suzuki, S kamakura, S Echigo. Octacalcium phosphate (OCP) collagen composites enhance bone healing in a dog tooth extraction socket model. Int J Oral Maxillofac Surg 39:161-168 (2010).
S Kamakura, T Anada, O Suzuki. Bone regeneration by octacalcium phosphate (OCP) collagen composites, Bone Regeneration: Growth Factors, Augmentation Procedures and Tissue Engineering Applications, Chapter 6, Eds V Legard and R Schluter, Nova Science Publisher, NY, pp.177-202 (2010).
Y Murakami, Y Honda, T Anada, H Shimauchi, O Suzuki. Comparative study on bone regenaration by synthetic octacalcium phosphate with various granule sizes, Acta Biomater 6:1542-1548 (2010).
N Shiraishi, T Anada, Y Honda, T Masuda, K Sasaki, O Suzuki. Preparation and characterization of porous alginate scaffolds containing various amounts of octacalcium phosphate (OCP) crystals. J Mater Sci Mater Med 21(3):907-914 (2010). (東北大学大学院歯学研究科・総長賞受賞対象論文)
T Masuda, T Kawai, T Anada, S Kamakura, O Suzuki. Quality of regenerated bone enhanced by implantation of octacalcium phosphate-collagen composite. Tissue Eng C 16:471-478 (2010).
川井忠, 穴田貴久, 本田義知, 鎌倉慎治, 松井有恒, 松井桂子, 越後成志, 鈴木治. 市販β-TCP焼結体と比較した合成リン酸オクタカルシウム (OCP) の骨芽細胞の分化能. 日本口腔外科学会雑誌 56(1):2-8 .
A Matsui, T Anada, T Masuda, Y Honda, N Miyatake, T Kawai, S Kamakura, S Echigo, O Suzuki. Mechanical stress-related calvaria bone augmentation by onlayed octacalcium phosphate-collagen implant. Tissue Eng A 16(1):138-151 (2010).
2009
Y Suzuki, S Kamakura, Y Honda, T Anada, K Hatori, K Sasaki, O Suzuki. Appositional bone formation by OCP-collagen composite. J Dent Res 88(12):1107-1112 (2009).
鈴木治, 穴田貴久, 本田義知. 生体に働きかけるバイオマテリアルの開発をめざして. J Dent Eng (DE) 170:33-35 (2009).
M Takami, A Mochizuki, A Yamada, K Tachi, B Zhao, Y Miyamoto, T Anada, Y Honda, T Inoue, M Nakamura, O Suzuki, R Kamijo. Osteoclast differentiation induced by synthetic octacalcium phosphate through RANKL expression in osteoblasts. Tissue Eng A 15(12): 3991-4000 (2009).
O Suzuki. Transitory nature of octacalcium phosphate in physiological milieu and its osteoconductive property. Phosphorus Research Bulletin 23:31-34 (2009).
T Anada, Y Takeda, Y Honda, K Sakurai, O Suzuki. Synthesis of calcium phosphate-binding liposome for drug delivery. Bioorg Med Chem Lett 19(15):4148-4150 (2009).
T Fuji, T Anada, Y Honda, Y Shiwaku, H Koike, S Kamakura, K Sasaki, O Suzuki. Octacalcium phosphate-precipitated alginate scaffold for bone regeneration. Tissue Eng A 15(11):3525-3535 (2009).
I Takahashi, T Masuda, K Kohsaka, F Terao, T Anada, Y Sasano, T Takano-Yamamoto, O Suzuki. Molecular mechanisms of mechanical stress response during chondrogenesis. J Biomechanical Science and Engineering 4(3):307-316 (2009).
T Kikawa, O Kashimoto, H Imaizumi, S Kokubun, O Suzuki. Intramembranous bone tissue response to biodegradable octacalcium phosphate implant. Acta Biomater 5(5):1756-1766 (2009).
Y Honda, T Anada, S Kamakura, S Morimoto, T Kuriyagawa, O Suzuki. The effect of mcrostructure of octacalcium phosphate on the bone regenerative property. Tissue Eng A 15(8):1965-1973 (2009).
N Miyatake, KN Kishimoto, T Anada, H Imaizumi, E Itoi, O Suzuki. Effect of partial hydrolysis of octacalcium phosphate on its osteoconductive characteristics. Biomaterials 30(6): 1005-1014 (2009).
T Kawai, T Anada, Y Honda, S Kamakura, K Matsui, A Matsui, K Sasaki, S Morimoto, S Echigo, O Suzuki. Synthetic octacalcium phosphate augments bone regeneration correlated with its content in collagen scaffold. Tissue Eng A 15(1):23-32 (2009). (東北大学大学院歯学研究科・総長賞受賞対象論文)
2008
T Miyazaki, S Miyauchi, A Tawada, T Anada, S Matsuzaka, O Suzuki (2008) Oversulfated chondroitin sulfate-E binds to BMP-4 and enhances osteoblast differentiation, J Cell Physiol 217: 769-777.
T Anada, T Kumagai, Y Honda, T Masuda, R Kamijo, S Kamakura, N Yoshihara, T Kuriyagawa, H Shimauchi, O Suzuki (2008) Dose-dependent osteogenic effect of octacalcium phosphate on mouse bone marrow stromal cells, Tissue Eng A 14(6): 965-978.
O Suzuki, H Imaizumi, S Kamakura, T Katagiri (2008) Bone regeneration by synthetic octacalcium phosphate and its role in biological mineralization, Curr Med Chem 15(3): 305-313.
T Masuda, I Takahashi, T Anada, F Arai, T Fukuda, T Takano-Yamamoto, O Suzuki (2008) Development of a cell culture system loading cyclic mechanical strain to chondrogenic cells, J Biotechnol 133(2): 231-238.
T Anada, H Imaizumi, S Kamakura, O Suzuki (2008) Biodegradable synthetic octacalcium phosphate bone substitute, Environmental Biodegradation Research Focus Eds B Y Wang, Nova Science Publishers, Inc NY,: 259-271.
鈴木治, 益田泰輔, 髙橋一郎 (2008) 局所環境が硬組織形成細胞の分化に及ぼす影響について, 生体医工学 46: 414-418.
鈴木治 (2008) 生体吸収性セラミックス(リン酸八カルシウム), 環境調和型新素材シリーズ・生体材料, (社)日本セラミックス協会偏, 日刊工業新聞社 2008年10月; 74-84.
鈴木治 (2008) リン酸オクタカルシウムの骨再生能と生体内吸収性, セラミックス 43(4): 286-289.
鈴木治, 鎌倉慎治, 穴田貴久 (2008) 骨置換材料”リン酸オクタカルシウム” バイオマテリアル-生体材料- 26(3) 199-205.
鈴木治, 鎌倉慎治, 穴田貴久, 本田義知 (2008) 生体模倣材料による生理的骨再生へのアプローチ, 再生医療 7: 131-136.
2007
J Hatakeyama, Y Hatakeyama, I Takahashi, O Suzuki, Y Sasano (2007) Proliferation and adhesion of periodontal ligament cells on synthetic biominerals, Oral Dis 13(5): 500-506.
S Kamakura, K Sasaki, Y Honda, T Anada, K Matsui, S Echigo, O Suzuki (2007) Dehydrothermal treatment of collagen influences on bone regeneration by octacalcium phosphate (OCP) collagen composites, J Tissue Eng Regen Med 1(6): 450-456.
S Kamakura, K Sasaki, T Honma, Y Honda, T Anada, S Echigo, O Suzuki (2007) The primacy of octacalcium phosphate collagen composites in bone regeneration, J Biomed Mater Res A 83(3): 725-733.
Y Honda, S Kamakura, K Sasaki, O Suzuki (2007) Formation of bone-like apatite enhanced by hydrolysis of octacalcium phosphate crystals deposited in collagen matrix, J Biomed Mater Res B Appl Biomater 80(2): 281-289. (東北大学大学院歯学研究科・総長賞受賞対象論文)
2006
O Suzuki, S Kamakura, T Katagiri, M Nakamura, B Zhao, Y Honda, R Kamijo (2006) Bone formation enhanced by implanted octacalcium phosphate involving conversion into Ca-deficient hydroxyapatite, Biomaterials 27(13): 2671-2681.
S Kamakura, Y Honda, T Anada, K Sasaki, O Suzuki (2006) Octacalcium phosphate (OCP) combined with collagen orthotopically enhances bone regeneration, J Biomed Mater Res B Appl Biomater 79(2): 210-217.
Y Honda, T Anada, S Kamakura, M Nakamura, S Sugawara, O Suzuki (2006) Elevated extracellular calcium stimulates secretion of bone morphogenetic protein 2 by a macrophage cell line, Biochem Biophys Res Commun 345(3): 1155-1160.
O Suzuki, S Kamakura, T Katagiri (2006) Surface chemistry and biological responses to synthetic octacalcium phosphate, J Biomed Mater Res B Appl Biomater 77(1): 201-212.
H Imaizumi, M Sakurai, O Kashimoto, T Kikawa, O Suzuki (2006) Comparative study on osteoconductivity by synthetic octacalcium phosphate and sintered hydroxyapatite in rabbit bone marrow, Calcif Tissue Int 78(1): 45-54.
T Uchida, F Arai, O Suzuki, A Ichikawa, T Fukuda, T Katagiri, R Kamijo, M Nakamura, M Numata, N Watanabe (2006) Differentiation and monitoring of cells using a biochip for regenerative medicine : Differentiation of bone marrow stromal cells and myoblasts, JSME Int J Series C 49: 852-858.
N Akiba, Y Sasano, O Suzuki, K Sasaki (2006) Characterization of dentin formed in transplanted rat molars by electron probe microanalysis, Calcif Tissue Int 78(3): 143-151.
鈴木治 (2006) リン酸オクタカルシウムの骨伝導能を応用した骨再生. 上原記念生命科学財団研究報告集 20: 359-362.
鈴木治 (2006) 生体機能材料を用いてどこまで生理的な骨再生機序に近づけるか. バイオマテリアル-生体材料- 24: 361-362.
鈴木治 (2006) 組織置換型骨再生材料の開発. 日本歯科産業学会会報(ニュースレター) No.34
-2005
新井史人,鈴木治,内田智之,市川明彦,福田敏男,片桐岳信,上條竜太郎,中村雅典,沼田守,渡辺成章 (2005) 再生医療に向けたバイオチップによる細胞分化の促進及びモニタリング(骨髄間質細胞及び筋芽細胞の分化). 日本機会学会論文集 Vol.71: 3239-3245.
O Suzuki, K Tanaka, M Takeda, M Numata (2004) Design criteria and evaluation for pharmaceutical containment systems. Evaluation for closed isolation systems. Pharmaceutical Engineering 24: 44-56.
P Gurney-Read, M Koch, O Suzuki, D Heidel, A Fluckiger, M Abromovitz, J Wren, D Harrison, E Sargent, P Marshall, F Boland, S Buechl, J Farris, J Wilkins, D Ainsworth, Y Fukushima, M Meiners, JI Kaplan, H Floura, D Drew, A Zuidar, V Lunardi, N Cocker (2005) Assessing the particulate containment performance of pharmaceutical equipment. ISPE Good Practice Guide. ISPE, Tampa, FL, USA.
JW Arnold, DH Booth, O Suzuki, GW Bailey (2004) Multiple imaging techniques demonstrate the manipulation of surfaces to reduce bacterial contamination and corrosion, J Microsc 216(Pt3): 215-221.
S Kamakura, S Nakajo, O Suzuki, Y Sasano (2004) A new scaffold for recombinant human bone morphogenetic protein-2, J Biomed Mater Res A 71(2): 299-307.
O Suzuki (2004) Interface science in formation of biominerals and biomolecules, Clin Calcium 14(6): 9-15.
渡辺成章, 鈴木治, 竹田守彦, 沼田守 (2004) ケミカルハザード対応医薬品製造施設・設備における封じ込め性能の定量的評価. クリーンテクノロジー 2: 10-15.
O Suzuki, M Takeda, K Tanaka, M Inoue (2003) Design criteria and evaluation of pharmaceutical containment systems. Evaluation for open isolation systems, Pharmaceutical Engineering, March/April 23: 66-78.
JW Arnold and O Suzuki (2003) Effects of corrosive treatment on stainless steel surface finishes and bacterial attachment, Transaction of the American Society of Agricultural Engineers (Transaction of the ASAE) 46: 1595-1602.
鈴木治, 田中浩二, 渡辺成章, 竹田守彦 (2003) ケミカルハザード対応医薬品製造施設・設備の封じ込めレベル評価(2). 無菌製剤製造工場におけるオープン系アイソレーションシステムの例. PHARM TECH JAPAN 19: 59-68.
S Kamakura, Y Sasano, T Shimizu, K Hatori, O Suzuki, M Kagayama, K Motegi (2002) Implantaed octacalcium phosphate is more resorbable than beta-tricalcium phosphate and hydroxyapatite, J Biomed Mater Res 59(1): 29-34.
O Suzuki (2002) Adsorption and fouling at stainless steel surfaces. In “Encyclopedia of Surface and Colloid Science” edited by Arthur T. Hubbard: 167-174, Marcel Dekker, Inc. NY.
O Suzuki, S Yamano, H Konishi, H Umino, M Inomata (2002) Coke deposition in furnace tubes of the vacuum distillation unit estimated by stability of atmospheric residue oil. J Jpn Petrol Inst 45: 207-213.
鈴木治, 竹田守彦 (2002) ケミカルハザード対応医薬品製造施設・設備の封じ込めレベル評価(1). 非無菌原薬製造工場におけるオープン系アイソレーションシステムの例. PHARM TECH JAPAN 18: 31-39.
S Kamakura, Y Sasano, H Homma, O Suzuki, M Kagayama, K Motegi (2001)Implantation of octacalcium phosphate nucleates isolated bone formation in rat skull defects, Oral Dis 7(4): 259-265.
S Kamakura, Y Sasano, Y Nakajo, T Shimizu, O Suzuki, F Katou, M Kagayama, K Motegi (2001) Implantation of octacalcium phosphate combined with transforming growth factor-beta1 enhances bone repair as well as resorption of the implant in rat skull defects, J Biomed Mater Res 57(2): 175-182.
S Kamakura, Y Sasano, H Homma, O Suzuki, M Kagayama, K Motegi (1999) Implantation of octacalcium phosphate (OCP) in rat skull defects enhances bone repair, J Dent Res 78(11): 1682-1687.
Y Sasano, S Kamakura, H Homma, O Suzuki, I Mizuguchi, M Kagayama (1999) Implanted octacalcium phosphate (OCP) stimulates osteoenesis by osteoblastic cells and/or committed osteoprogenitors in rat calvaria periosteum, Anat Rec 256(1): 1-6.
O Suzuki, Y Shibata, M Inoue (1997) Adsorption of benzoic compounds onto stainless steel particles. J Colloid Interface Sci 193; 234-24.
O Suzuki, H Yagishita, T Amano, T Aoba (1995) Reversible structural changes of octacalcium phosphate and labile acid phospahte, J Dent Res 74(11): 1764-1769.
O Suzuki, H Yagishita, M Yamazaki, T Amano, T Aoba (1995) Adsorption of bovine serum albumin onto octacalcium phosphate and its hydrolyzates, Cells Mater 5: 45-54.
Y Sasano, S Kamakura, M Nakamura, O Suzuki, I Mizuguchi, H Akita, M Kagayama (1995) Subperiosted implantation of octacalcium phosphate (OCP) stimulates both chondrogenesis and osteogenesis in the tibia, but only osteogenesis in the parietal bone of a rat, Anat Rec 242(1): 40-46.
O Suzuki, M Nakamura, Y Miyasaka, M Kagayama, M Sakurai (1993) Maclura pomifera agglutinin-binding glycoconjugates on converted apatite from synthetic octacalcium phosphate implanted into subperiosteal region of mouse calvaria, Bone Miner 20(2): 151-166.
O Suzuki, M Nakamura, Y Miyasaka, M Kagayama, M Sakurai (1991) Bone formation on synthetic precursors of hydroxyapatite, Tohoku J Exp Med 164(1): 37-50.
A Suda, T Sato, M Takagi, T Osanai, O Suzuki (1990) Biocompatibility of zirconia dispersed hydroxyapatite ceramics. J Jpn Orthop Assoc 64; 249-259.