[89] 医用工学 Biomedical Engineering
Evans, C., Morimitsu, Y., Nishi, R., Yoshida, M., and Takei, T.
Novel hydrophobically modified agarose cryogels fabricated using dimethyl sulfoxide
J. Biosci. Bioeng., 133, 390-395 (2022).
[88] 界面工学 Interfacial Engineering
Takei, T., Tomimatsu, R., Matsumoto, T., Sreejith, K. R., Nguyen, N. T., and Yoshida, M.
Hydrophobically modified gelatin particles for production of liquid marbles
Polym., 14 (2022).
[87] 医用工学 Biomedical Engineering
Evans, C., Morimitsu, Y., Hisadome, T., Inomoto, F., Yoshida, M., and Takei, T.
Optimized hydrophobically modified chitosan cryogels for strength and drug delivery systems
J. Biosci. Bioeng., 132, 81-87 (2021).
[86] 界面工学 Interfacial Engineering
服巻 晃志, 大角 義浩, 清山 史朗, 塩盛 弘一郎, 幡手 泰雄, 武井 孝行, 吉田 昌弘
カプセル化したサッチ分解菌の糖類添加による活性維持の効果
科学・技術研究, 10, 37-40 (2021).
[85] 医用工学 Biomedical Engineering, 酵素プロセス工学 Enzymatic Process Engineering
Shibata, T., Ashitani, R., Yoshida, M., and Takei, T.
Novel flow microreactor with blood capillary network-like microchannels
Stud. Sci., Technol., 10, 147-150 (2021).
[84] 界面工学 Interfacial Engineering
Teo, A. J. T., Malekpour-Galogahi, F., Sreejith, K. R., Takei, T., and Nguyen, N. T.
Surfactant-free, UV-curable core-shell microcapsules in a hydrophilic PDMS microfluidic device
AIP Advances, 10 (2020).
[83] 医用工学 Biomedical Engineering
Takei, T., Yoshihara, R., Danjo, S., Fukuhara, Y., Evans, C., Tomimatsu, R., Ohzuno, Y., and Yoshida, M.
Hydrophobically-modified gelatin hydrogel as a carrier for charged hydrophilic drugs and hydrophobic drugs
Int. J. Biol. Macromol., 149, 140-147 (2020).
[82] 界面工学 Interfacial Engineering
Sreejith, K. R., Gorgannezhad, L., Jin, J., Ooi, C. H., Takei, T., Hayase, G., Stratton, H., Lamb, K., Shiddiky, M., Dao, D. V., and Nguyen, N. T.
Core-shell beads made by composite liquid marble technology as a versatile microreactor for polymerase chain reaction
Micromachines, 11 (2020).
[81] 界面工学 Interfacial Engineering
武井 孝行, 高尾 莉央, 斉藤 卓也, 田尻 菜満, 吉田 昌弘
撥液性表面を利用したスラリー状カプセル原料液からのミリカプセルの作製
化学工学論文集, 46, 8-12 (2020).
[80] 医用工学 Biomedical Engineering
Fukuhara, Y., Takei, T., Yoshinaga, T., Nishimata, H., and Yoshida, M.
Injectable sugar beet pectin/chitosan derivative composite hydrogel for wound care
J. Chem. Eng. Jpn., 52, 793-798 (2019).
[79] 界面工学 Interfacial Engineering
Takei, T., Yamasaki, Y., Yuji, Y., Sakoguchi, S., Ohzuno, Y., Hayase, G., and Yoshida, M.
Millimeter-sized capsules prepared using liquid marbles: Encapsulation of ingredients with high efficiency and preparation of spherical core-shell capsules with highly uniform shell thickness using centrifugal force
J. Colloid Interface Sci., 536, 414-423 (2019).
[78] 医用工学 Biomedical Engineering
Yoshinaga, T., Nishimata, H., Tanaka, S., Hori, E., Tomiyoshi, A., Tokudome, E., Takei, T., and Yoshida, M.
Use of ANGPTL2 mRNA in formalin-fixed paraffin-embedded tissues as a biomarker to diagnose gastric cancer and evaluate the extent of vascular invasion
Oncol. Lett., 17, 518-524 (2019).
[77] 医用工学 Biomedical Engineering
Yoshinaga, T., Niou, T., Niihara, T., Kajiya, Y., Hori, E., Tomiyoshi, A., Tokudome, E., Nishimata, H., Takei, T., and Yoshida, M.
Angiopoietin-like protein 2 is a useful biomarker for pancreatic cancer that is associated with type 2 diabetes mellitus and inflammation
J. Cancer, 9, 4736-4741 (2018).
[75] 界面工学 Interfacial Engineering
Takei, T., Sakoguchi, S., and Yoshida, M.
Efficient mixing of microliter droplets as micro-bioreactors using paramagnetic microparticles manipulated by external magnetic field
J. Biosci. bioeng., 126, 649-652 (2018).
[74] 界面工学 Interfacial Engineering
Inda, N. I., Fukumaru, M., Sana, T., Kiyoyama, S., Takei, T., Yoshida, M., Nakajima, A., and Shiomori, K.
A kinetic study of copper(II) extraction using LIX84-I impregnated polymeric particles with different structures
Solvent Extr. Res. Dev-Jpn., 25, 23-36 (2018).
[73] 界面工学 Interfacial Engineering
吉岡 啓夢, 大角 義浩, 清山 史朗, 塩盛 弘一郎, 武井 孝行, 吉田 昌弘
修復剤入りマイクロカプセルを用いた自己修復材料の修復効率の検討
化学工学論文集, 44, 129-134 (2018).
[72] 医用工学 Biomedical Engineering
Takei, T., Danjo, S., Sakoguchi, S., Tanaka, S., Yoshinaga, T., Nishimata, H., and Yohisda, M.
Autoclavable physically-crosslinked chitosan cryogel as a wound dressing
J. Biosci. Bioeng., 125, 490-495 (2018).
[71] 医用工学 Biomedical Engineering
Takei, T., Fukumoto, K., Danjo, S., Yoshinaga, T., Nishimata, H., and Yoshida, M.
In vitro and in vivo characterization of hydroxyapatite/chitosan-gluconic acid conjugate scaffolds
J. Chem. Eng. Jpn., 50, 577-582 (2017).
[70] 界面工学 Interfacial Engineering
Inda, N. I., Fukumaru, M., Sana, T., Kiyoyama, S., Takei, T., Yoshida, M., Nakajima, A., and Shiomori, K.
Characteristics and mechanism of Cu(ll) extraction with polymeric particles with interconnected spherical pores impregnated with LIX84-I
J. Chem. Eng. Jpn., 50, 102-110 (2017).
[69] 界面工学 Interfacial Engineering
Takei, T., Hamada, S., Terazono, K., and Yoshida, M.
Air drying on superamphiphobic surfaces can reduce damage by organic solvents to microbial cells immobilized in synthetic resin capsules
Process Biochem., 54, 28-32 (2017).
[68] 医用工学 Biomedical Engineering
Takei, T., Yoshitomi, H., Fukumoto, K., Danjo, S., Yoshinaga, T., Nishimata, H., and Yoshida, M.
Toxic chemical cross-linker-free cryosponges made from chitosan-gluconic acid conjugate for chondrocyte culture
J. Chem. Eng. Jpn., 50, 142-148 (2017).
[67] 界面工学 Interfacial Engineering
Takei, T., Araki, K., Terazono, K., Ozuno, Y., Hayase, G., Kanamori, K., Nakanishi, K., and Yoshida, M.
Highly efficient encapsulation of ingredients in poly(methyl methacrylate) capsules using a superoleophobic material
Polym. Polym. Compos., 25, 129-134 (2017).
[66] 界面工学 Interfacial Engineering
坂元 馨子, 武井 孝行, 脇田 和晃, 大角 義浩, 吉田 昌弘
サーファクチンナトリウムを利用したD相乳化ならびにその液滴の安定化法
科学・技術研究, 6, 131-134 (2017).
[65] 界面工学 Interfacial Engineering
吉岡 啓夢, 森 力宏, 百田 潤二, 大角 義浩, 武井 孝行, 吉田 昌弘
酸化チタンの表面コーティングに関する基礎的研究
科学・技術研究, 6, 135-138 (2017).
[64] 界面工学 Interfacial Engineering
清山 史朗, 武井 孝行, 吉田 昌弘, 塩盛 弘一郎
デシカント空調機への応用を目指した高吸湿性マイクロカプセルの調製とその吸湿特性
化学工学論文集, 42, 63-67 (2016).
[63] 界面工学 Interfacial Engineering
小松 俊一, 清山 史朗, 武井 孝行, 吉田 昌弘, 塩盛 弘一郎
2-エチルヘキシルホスホン酸-モノ-2-エチルヘキシルを内包したポリビニルアルコール/アルギン酸架橋ゲルマイクロカプセルによるCo(II)抽出平衡
環境資源工学, 62, 56-62 (2015).
[62] 界面工学 Interfacial Engineering
衛藤 卓磨, 大角 義浩, 清山 史朗, 塩盛 弘一郎, 幡手 泰雄, 信野 和也, 武井 孝行, 吉田 昌弘
歯科材料として有用なフッ素徐放性微粒子を内包したマイクロカプセルの開発
科学・技術研究, 5, 201-204 (2016).
[61] 医用工学 Biomedical Engineering
武井 孝行, 福本 晃平, 檀上 創, 大角 義浩, 吉田 昌弘
擬似体液浸漬によるグルコン酸修飾キトサンスキャホールドのヒドロキシアパタイトでの被覆
科学・技術研究, 5, 197-200 (2016).
[60] 医用工学 Biomedical Engineering
Takei, T., Kitazono, J., Tanaka, S., Nishimata, H., and Yoshida, M.
Necrotic regions are absent in fiber-shaped cell aggregates, approximately 100 mum in diameter
Artif. Cells. Nanomed. Biotechnol., 44, 62-65 (2016).
[59] 医用工学 Biomedical Engineering
Takei, T., Sakai, S., and Yoshida, M.
In vitro formation of vascular-like networks using hydrogels
J. Biosci. Bioeng., 122, 519-527 (2016).
[58] 医用工学 Biomedical Engineering
Takei, T., Kitazono, Z., Ozuno, Y., Yoshinaga, T., Nishimata, H., and Yoshida, M.
Vascular-like network prepared using hollow hydrogel microfibers
J. Biosci. Bioeng., 121, 336-340 (2016).
[57] 界面工学 Interfacial Engineering
Takei, T., Terazono, K., Araki, K., Ozuno, Y., Hayase, G., Kanamori, K., Nakanishi, K., and Yoshida, M.
Encapsulation of hydrophobic ingredients in hard resin capsules with ultrahigh efficiency using a superoleophobic material
Polym. Bull., 73, 409-417 (2016).
[56] 医用工学 Biomedical Engineering
Yoshinaga, T., Shigemitsu, T., Nishimata, H., Kitazono, M., Hori, E., Tomiyoshi, A., Takei, T., and Yoshida, M.
Angiopoietin-like protein 2 as a potential biomarker for colorectal cancer
Mol. Clin. Oncol., 3, 1080-1084 (2015).
[55] 無機材料化学 Inorganic materials
松尾 郁哉, 久保 翔平, 甲原 好浩, 武井 孝行, 吉田 昌弘
低熱膨張性および低融性を有するV2O5–ZnO–TeO2–(ZrO)2(HPO4)2系封着加工用ガラスの開発
化学工学論文集, 41, 253-258 (2015).
[54] 無機材料化学 Inorganic materials
Goto, S., Kubo, S., Kouhara, Y., Takei, T., and Yoshida, M.
Optimum Sb2O3 content of V2O5-H2WO4-KPO3-Sb2O3 glasses for sealants
Trends. Chem. Eng., 15, 23-28 (2015).
[53] 無機材料化学 Inorganic materials
鶴田 公平, 久保 翔平, 松尾 郁哉, 備孝 一郎, 甲原 好浩, 大角 義浩, 武井 孝行, 吉田 昌弘
透明性に優れたLi2B4O7-BaO-P2O5-Al2O3より構成される封着加工用ガラスの基礎特性評価
化学工学論文集, 41, 162-166 (2015).
[52] 医用工学 Biomedical Engineering
Yoshinaga, T., Shigemitsu, T., Nishimata, H., Takei, T., and Yoshida, M.
Angiopoietin-like protein 2 is a potential biomarker for gastric cancer
Mol. Med. Rep., 11, 2653-2658 (2015).
[51] 医用工学 Biomedical Engineering
福本 晃平, 吉冨 滉生, 武井 孝行, 大角 義浩, 吉田 昌弘
酵素反応を利用したアルカリ処理コラーゲン/甜菜由来ペクチン複合ゲルの作製
科学・技術研究, 4, 173-176 (2015).
[50] 医用工学 Biomedical Engineering
Takei, T., Aokawa, R., Shigemitsu, T., Kawakami, K., and Yoshida, M.
Fabrication of uniformly cell-laden porous scaffolds using a gas-in-liquid templating technique
J. Biosci. Bioeng., 120, 577-581 (2015).
[49] 界面工学 Interfacial Engineering
Takei, T., Kamagasako, T., Yuzi, Y., Tomioka, N., and Yoshida, M.
Comparison of Rhodococcus erythropolis CS98 strain immobilized in agarose gel and PVA gels for accumulation of radioactive Cs-137
J. Chem. Eng. Jpn., 48, 782-786 (2015).
[48] 無機材料化学 Inorganic materials
久保 翔平, 後藤 成吾, 岩田 龍祐, 甲原 好浩, 武井 孝行, 吉田 昌弘
V2O5-MnO2-KPO3-CuO系金属酸化物より構成される封着加工用鉛フリーガラスの特性評価
化学工学論文集, 40, 137-142 (2014).
[47] 界面工学 Interfacial Engineering
福島 真理成, 上杉 加奈子, 廣瀬 由貴美, 大角 義浩, 塩盛 弘一郎, 清山 史朗, 武井 孝行, 吉田 昌弘
重合性モノマーを内包したメラミンマイクロカプセルの調製と自己修復材としての評価
科学・技術研究, 3, 127-132 (2014).
[46] 医用工学 Biomedical Engineering
武井 孝行, 岸原 尚也, 吉田 昌弘
動物細胞包括中空ヒドロゲルファイバーを用いた小口径血管様構造体の作製
科学・技術研究, 3, 133-136 (2014).
[45] 医用工学 Biomedical Engineering
Takei, T., Yoshitomi, H., and Yoshida, M.
Alkali-treated collagen hydrogels incorporating basic fibroblast growth factor for enhanced angiogenesis
J. Chem. Eng. Jpn., 47, 424-428 (2014).
[44] 界面工学 Interfacial Engineering
Takei, T., Yamasaki, M., and Yoshida, M.: Cesium accumulation of Rhodococcus erythropolis CS98 strain immobilized in hydrogel matrices
J. Biosci. Bioeng., 117, 497-500 (2014).
[43] 無機材料化学 Inorganic materials
後藤 成吾, 甲原 好浩, 武井 孝行, 吉田 昌弘
V2O5–H2WO4–KPO3–Sb2O3系金属酸化物より構成される封着加工用鉛フリーガラスの特性評価
化学工学論文集, 39, 213-218 (2013).
[42] 界面工学 Interfacial Engineering
Kitabayashi, T., Sano, T., Kiyoyama, S., Takei, T., Yoshida, M., and Shiomori, K.
Extraction Properties of nickel (II) with polymeric particles with interconnected spherical pores impregnating with LIX84-I
Solvent. Extr. Res. Dev. Jpn., 20, 137-147 (2013).
[41] 医用工学 Biomedical Engineering
武井 孝行, 中原 秀樹, 川上 幸衛, 吉田 昌弘
トレオン酸修飾キトサンおよびキシロン酸修飾キトサンの凍結-融解処理によるゲル化特性ならびに生物学的特性の評価
科学・技術研究, 2, 123-126 (2013).
[40] 界面工学 Interfacial Engineering
桑木 貴之, 福島 真理成, 大角 義浩, 幡手 泰雄, 塩盛 弘一郎, 清山 史朗, 武井 孝行, 吉田 昌弘
ネイルケアに利用可能な加水分解ケラチン内包カゼイン骨格ミクロスフェアの開発及び基礎特性評価
科学・技術研究, 2, 43-48 (2013).
[39] 界面工学 Interfacial Engineering
武井 孝行, 柳原 正宗, 上杉 加奈子, 塩盛 弘一郎, 清山 史朗, 吉田 昌弘
アセタミプリド徐放性ミクロスフィアの調製
化学工学論文集, 39, 219-223 (2013).
[38] 医用工学 Biomedical Engineering
Takei, T., Sugihara, K., Yoshida, M., and Kawakami, K.
Injectable and biodegradable sugar beet pectin/gelatin hydrogels for biomedical applications
J. Biomater. Sci. Polym. Ed., 24, 1333-1342 (2013).
[37] 医用工学 Biomedical Engineering
Takei, T., Nakahara, H., Tanaka, S., Nishimata, H., Yoshida, M., and Kawakami, K.
Effect of chitosan-gluconic acid conjugate/poly(vinyl alcohol) cryogels as wound dressing on partial-thickness wounds in diabetic rats
J. Mater. Sci-Mater. Med., 24, 2479-2487 (2013).
[36] 医用工学 Biomedical Engineering
Hou, Y. T., Ijima, H., Shirakigawa, N., Takei, T., and Kawakami, K.
Development of growth factor-immobilizable material for hepatocyte transplantation
Biochem. Eng. J., 69, 172-181 (2012).
[35] 医用工学 Biomedical Engineering
Shirakigawa, N., Ijima, H., and Takei, T.
Decellularized liver as a practical scaffold with a vascular network template for liver tissue engineering
J. Biosci. Bioeng., 114, 546-551 (2012).
[34] 酵素プロセス工学 Enzymatic Process Engineering
Kawakami, K., Ueno, M., Takei, T., Oda, Y., and Takahashi, R.
Application of a Burkholderia cepacia lipase-immobilized silica monolith micro-bioreactor to continuous-flow kinetic resolution for transesterification of (R, S)-1-phenylethanol
Process Biochem., 47, 147-150 (2012).
[33] 医用工学 Biomedical Engineering
Takei, T., Nakahara, H., Ijima, H., and Kawakami, K.
Synthesis of a chitosan derivative soluble at neutral pH and gellable by freeze-thawing, and its application in wound care
Acta Biomater., 8, 686-693 (2012).
[32] 界面工学 Interfacial Engineering
Takei, T., Ikeda, K., Ijima, H., Yoshida, M., and Kawakami, K.
A comparison of sodium sulfate, sodium phosphate, and boric acid for preparation of immobilized Pseudomonas putida F1 in poly(vinyl alcohol) beads
Polym. Bull., 69, 363-373 (2012).
[31] 医用工学 Biomedical Engineering
Takei, T., Kishihara, N., Ijima, H., and Kawakami, K.
Fabrication of capillary-like network in a matrix of water-soluble polymer using poly(methyl methacrylate) microfibers
Artif. Cells Blood Substit. Biotechnol., 40, 66-69 (2012).
[30] 医用工学 Biomedical Engineering
Takei, T., Sugihara, K., Ijima, H., and Kawakami, K.
In situ gellable sugar beet pectin via enzyme-catalyzed coupling reaction of feruloyl groups for biomedical applications
J. Biosci. Bioeng., 112, 491-494 (2011).
[29] 医用工学 Biomedical Engineering
Hou, Y. T., Ijima, H., Takei, T., and Kawakami, K.
Growth factor/heparin-immobilized collagen gel system enhances viability of transplanted hepatocytes and induces angiogenesis
J. Biosci. Bioeng., 112, 265-272 (2011).
[28] 界面工学 Interfacial Engineering
Takei, T., Ikeda, K., Ijima, H., and Kawakami, K.
Fabrication of poly(vinyl alcohol) hydrogel beads crosslinked using sodium sulfate for microorganism immobilization
Process Biochem., 46, 566-571 (2011).
[27] 医用工学 Biomedical Engineering
Ijima, H., Hou, Y. T., and Takei, T.
Development of hepatocyte-embedded hydrogel-filled macroporous scaffold cultures using transglutaminase
Biochem. Eng. J., 52, 276-281 (2010).
[26] 医用工学 Biomedical Engineering
Takei, T., Sato, M., Ijima, H., and Kawakami, K.
In situ gellable oxidized citrus pectin for localized delivery of anti-cancer drugs and prevention of homotypic cancer cell aggregation
Biomacromolecules., 11, 3525-3530 (2010).
[25] 医用工学 Biomedical Engineering
Hou, Y. T., Ijima, H., Matsumoto, S., Kubo, T., Takei, T., Sakai, S., and Kawakami, K.
Effect of a hepatocyte growth factor/heparin-immobilized collagen system on albumin synthesis and spheroid formation by hepatocytes
J. Biosci. Bioeng., 110, 208-216 (2010).
[24] 界面工学 Interfacial Engineering
Takei, T., Ikeda, K., Ijima, H., Kawakami, K., Yoshida, M., and Hatate, Y.
Preparation of polymeric microcapsules enclosing microbial cells by radical suspension polymerization via water-in-oil-in-water emulsion
Polym. Bull., 65, 283-291 (2010).
[23] 医用工学 Biomedical Engineering
Takei, T., Kishihara, N., Sakai, S., and Kawakami, K.
Novel technique to control inner and outer diameter of calcium-alginate hydrogel hollow microfibers, and immobilization of mammalian cells
Biochem. Eng. J., 49, 143-147 (2010).
[22] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Hatate, Y., Shiomori, K., and Kiyoyama, S.
Preparation of lactic acid bacteria-enclosing alginate beads in emulsion system: effect of preparation parameters on bead characteristics
Polym. Bull., 63, 599-607 (2009).
[21] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Nagayoshi, T. H. Y., Shiomori, K., and Kiyoyama, S.
Preparation and characterisation of phase change material-loaded polyurea microcapsules several hundred micrometres in diameter
Polym. Polym. Compos., 17, 347-351 (2009).
[20] 医用工学 Biomedical Engineering
Ijima, H., Kakeya, Y., Yokonuma, T., Hou, Y., and Takei, T.
Composition of culture medium is more important than co-culture with hepatic non-parenchymal cells in albumin production activity of primary rat hepatocytes, and the effect was enhanced by hepatocytes spheroid culture in collagen gel
Biochem. Eng. J., 45, 226-231 (2009).
[19] 医用工学 Biomedical Engineering
Sakai, S., Yamaguchi, S., Takei, T., and Kawakami, K.
Oxidized alginate-crosslinked alginate/gelatin hydrogel fibers for fabricating tubular constructs with layered smooth muscle cells and endothelial cells in collagen gel
Biomacromolecules., 9, 2036-2041 (2008).
[18] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Hatate, Y., Shiomori, K., and Kiyoyama, S.
Preparation of polylactide/poly(epsilon-caprolactone) microspheres enclosing water-soluble pesticide and evaluation of release behavior
Polym. Bull., 61, 391-397 (2008).
[17] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Yanagi, K., Hatate, Y., Shiomori, K., and Kiyoyama, S.
Preparation of acetamiprid-loaded polymeric microcapsules: Influence of preparation parameter in emulsion system on microcapsule characteristics
Polym. Bull., 61, 119-127 (2008).
[16] 無機材料化学 Inorganic materials
甲原 好浩, 吉田 昌弘, 武井 孝行, 岩崎 広, 竹宮 鉄史, 幡手 泰雄, 筒井 俊雄, 水田 敬
封着加工用バナジウム系鉛フリーガラスの平面蛍光管への応用と特性評価
化学工学論文集, 34, 287-290 (2008).
[15] 界面工学 Interfacial Engineering
Yoshida, M., Matsui, T., Hatate, Y., Takei, T., Shiomori, K., and Kiyoyama, S.
Permeability control in electro-sensitive microcapsules with immobilized ferroelectric liquid crystalline segments
J. Polym. Sci. Pol. Chem., 46, 1749-1757 (2008).
[14] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Hatate, Y., Shiomori, K., and Kiyoyama, S.
Lactic acid bacteria-enclosing poly(epsilon-caprolactone) microcapsules as soil bio-amendment
J. Biosci. Bioeng., 106, 268-272 (2008).
[13] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Hatate, Y., Shiomori, K., Kiyoyama, S., Tsutsui, T., and Mizuta, K.
Preparation of polylactide-based microspheres enclosing acetamiprid and evaluation of efficacy against cotton aphid by soil application
J. Appl. Polym. Sci., 109, 763-766 (2008).
[12] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Hatate, Y., Shiomori, K., and Kiyoyama, S.
Fabrication of acetamiprid-loaded polylactide/poly(epsilon-caprolactone) microspheres
Trends Chem. Eng., 11, 63-66 (2008).
[11] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Yanagi, K., Hatate, Y., Shiomori, K., and Kiyoyama, S.: Microcapsule enclosing water-soluble pesticide with low stability against environmental degradation, ITE-IBA. lett. Batter. New. Technol. Med., 1, 55-59 (2008).
[10] 医用工学 Biomedical Engineering
Takei, T., Yamaguchi, S., Sakai, S., Ijima, H., and Kawakami, K.
Novel technique for fabricating double-layered tubular constructs consisting of two vascular cell types in collagen gels used as templates for three-dimensional tissues
J. Biosci. Bioeng., 104, 435-438 (2007).
[9] 界面工学 Interfacial Engineering
吉田 昌弘, 武井 孝行, 幡手 泰雄, 清山 史郎, 塩盛 弘一郎
電場応答機能を有する液晶マイクロカプセルの開発
液晶, 11, 337-341 (2007).
[8] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Hayashi, N., Hatate, Y., Shiomori, K., and Kiyoyama, S.
Preparation of poly(D,L-lactide) and poly(D,L-lactide-co-glycolide) microspheres enclosing acetamiprid and evaluation of release behavior
ITE Lett. Batter. New Technol. Med., 8, 725-728 (2007).
[7] 界面工学 Interfacial Engineering
Takei, T., Yoshida, M., Hatate, Y., Tsutsui, T., and Mizuta, K.
Preparation of microcapsule with polyelectrolyte complex membrane by W/O/W emulsion solvent-evaporation method and modulation of protein release
ITE Lett. Batter. New Technol. Med., 8, 459-463 (2007).
[6] 医用工学 Biomedical Engineering
Takei, T., Sakai, S., Yokonuma, T., Ijima, H., and Kawakami, K.
Fabrication of artificial endothelialized tubes with predetermined three-dimensional configuration from flexible cell-enclosing alginate fibers
Biotechnol. Prog., 23, 182-186 (2007).
[5] 医用工学 Biomedical Engineering
Takei, T., Sakai, S., Ijima, H., and Kawakami, K.
Expression of a liver-specific function by a hepatoblastoma cell line cocultured with three-dimensional endothelialized tubes in collagen gels
J. Biosci. Bioeng., 103, 200-202 (2007).
[4] 医用工学 Biomedical Engineering
Takei, T., Sakai, S., Ijima, H., and Kawakami, K.
Development of mammalian cell-enclosing calcium-alginate hydrogel fibers in a co-flowing stream
Biotechnol. J., 1, 1014-1017 (2006).
[3] 医用工学 Biomedical Engineering
Takei, T., Sakai, S., Ono, T., Ijima, H., and Kawakami, K.
Fabrication of endothelialized tube in collagen gel as starting point for self-developing capillary-like network to construct three-dimensional organs in vitro
Biotechnol. Bioeng., 95, 1-7 (2006).
[2] 医用工学 Biomedical Engineering
Ijima, H., Murakami, S., Matsuo, T., Takei, T., Ono, T., and Kawakami, K.
Enhancement of liver-specific functions of primary rat hepatocytes co-cultured with bone marrow cells on tissue culture-treated polystyrene surfaces
J. Artif. Organs., 8, 104-109 (2005).
[1] 医用工学 Biomedical Engineering
Takei, T., Ijima, H., Sakai, S., Ono, T., and Kawakami, K.
Enhanced angiogenesis in bFGF-containing scaffold promoted viability of enclosed hepatocytes and maintained hepatospecific glycogen storage capacity
J. Chem. Eng. Jpn., 38, 913-917 (2005).