Publications

Arai K*, Yoshida S, Furuichi E, Iwanaga S, Mir TA, Yoshida T*「Transplanted artificial amnion membrane enhanced wound healing in third-degree burn injury diabetic mouse model」『Regenerative Therapy 』2024 Dec, 27, 170-180. https://doi.org/10.1016/j.reth.2024.03.016 

Otuka M, Arai K, Yoshida T, Hayashi A 「Inhibition of retinal ischemia-reperfusion injury in rats by inhalation of low-concentration hydrogen gas」『Graefes Arch Clin Exp Ophthalmol.』, 2023 Oct 18. doi: 10.1007/s00417-023-06262-3.

 Mir TA, Alzhrani A, Nakamura M, Iwanaga S, Wani SI, Altuhami A, Kazmi S, Arai K, Shamma T, Obeid DA, Assiri AM, Broering DC, 「Whole Liver Derived Acellular Extracellular Matrix for Bioengineering of Liver Constructs:An Updated Review 」『 Bioengineering (Basel)』 2023 Sep 25;10(10):1126. doi: 10.3390/bioengineering10101126.

Shimoto T, Arai K, Teshima C, Nakayama K, 「Development of Beat Analysis Software for Non-invasive Evaluation of the Cardiac Muscle Cell Constructs」『Advanced Biomedical Engineering』, 2023, June 8, 12:138-146,doi: https://doi.org/10.14326/abe.12.138

Mir TA, Nakamura M, Sakai S, Iwanaga S, Wani SI, Alzhrani A, Arai K, Mir BA, Kazmi S, Assiri AM, Broering DC 「Mammalian Specific Decellularized Matrices Derived Bioink for Bioengineering of Liver Tissue Analogues」『International Journal of Bioprinting』, 2023, 9(3), doi: 10.18063/ijb.714

Takahashi F † , Patel P† , Kitsuka T* and Arai K*, 「The Exciting Realities and Possibilities of iPS-derived Cardiomyocytes」『bioengineering』, 2023, Feb, 10(2):237, doi:10.3390/bioengineering10020237.

Iwanaga S, Hamada Y, Tsukamoto Y, Arai K, Kurooka T, Sakai S, Nakamura M, 「Design and Fabrication of Mature Engineered Pre-Cardiac Tissue Utilizing 3D Bioprinting Technology and Enzymatically Crosslinking Hydrogel」『Materials』 2022, 15, 7928. https://doi.org/10.3390/ma15227928

Arai K, Okabe M, Ichimura K, Kobashi D, Fathy M, Oba J, Furuichi E, Yoshida S, Yoshida T, 「Importance of housekeeping gene optimization for the analysis of mRNA expression during wound healing in a third-degree burn injury model」,『J Burn Care Res』, 2022, Oct 30;irac161. doi: 10.1093/jbcr/irac161.

Kawai Y, Tohyama S, Arai K, Tamura T, Soma Y, Fukuda K, Shimizu H, Nakayama K, Kobayashi E, 「Scaffold-Free Tubular Engineered Heart Tissue From Human Induced Pluripotent Stem Cells Using Bio-3D Printing Technology In Vivo」 『Frontiers in Cardiovascular Medicine, section Cardiovascular Biologics and Regenerative Medicine』, 2022, doi: 10.3389/fcvm.2021.806215. eCollection 2021.

Arai K*, Kitsuka T, Nakayama K* 「Scaffold-based and scaffold-free cardiac constructs for drug testing」『Biofabrication』, 2021, Jul 7. doi: 10.1088/1758-5090/ac1257. 

Koike N, Sugimoto J, Okabe M, Arai K, Nogami M and Yoshida T, 「Distribution of Amniotic stem cell in human term amnion membrane」『Microscopy』, 2022 Jan 29;71(1):66-76. doi: 10.1093/jmicro/dfab035.

Arai K, Murata D, Takao S, Nakayama K「Fabrication of cardiac constructs using bio-3D printer」『Pluripotent Stem-Cell Derived Cardiomycytes (Methods in Molecular Biology)』, 2021, July, DOI: 10.1007/978-1-0716-1484-6

Arai K *, Murata D, Takao S, Nakamura A, Itoh M, Kitsuka T, Nakayama K * 「Drug response analysis for scaffold-free cardiac constructs fabricated using bio-3D printer」『Scientific Reports』 2020, June 2, 10(1) :8972. doi: 10.1038/s41598-020-65681-y.

Arai K, Murata D, Takao S, Verissiomo AR, Nakayama K　「Cryopreservation method for spheroids and fabrication of scaffold-free tubular constructs.」『PLoS One』 2020 Apr 2;15(4):e0230428. doi: 10.1371/journal.pone.0230428.

Murata D, Arai K, Nakayama K 「Scaffold-Free Bio-3D Printing Using Spheroids as "Bio-Inks" for Tissue (Re-)Construction and Drug Response Tests」 『Adv Healthc Mater』, 2020 May 6:e1901831. doi: 10.1002/adhm.201901831.

Kitsuka T, Itoh M, Amamoto S, Arai KI, Oyama J, Node K, Toda S, Morita S, Nishida T, Nakayama K「2-Cl-C.OXT-A stimulates contraction through the suppression of phosphodiesterase activity in human induced pluripotent stem cell-derived cardiac organoids.」『PLoS One』2019 Jul 11;14(7):e0213114. doi: 10.1371/journal.pone.0213114.

Itoh M, Mukae Y, Kitsuka T, Arai K, Nakamura A, Uchihashi K, Toda S, Matsubayashi K, Oyama J, Node K, Kami D, Gojo S, Morita S, Nishida T, Nakayama K, Kobayashi E, 「Development of an immunodeficient pig model allowing long-term accommodation of artificial human vascular tubes」,『Nature commun』, 2019, May 21;10(1):2244.

Arai K, Murata D, Verissimo AR, Mukae Y, Itoh M, Nakamura A, Morita S, Nakayama K, 「Fabrication of scaffold-free tubular cardiac constructs using a bio-3D printer」, 『PLoS One』, 2018 Dec 17;13(12):e0209162. doi: 10.1371/journal.pone.0209162. eCollection 2018.

Mukae Y, Itoh M, Noguchi R, Furukawa K, Arai K, Oyama J, Toda S, Nakayama K, Node K, Morita S, 「The addition of human iPS cell-derived neural progenitors changes the contraction of human iPS cell-derived cardiac spheroids」, 『Tissue and Cell』,Volume 53, Pages 61-67, 2018,

Sakai S, Yamamoto Y, Enkhtuul G, Ueda K, Arai K, Taya M, Nakamura M, 「Inkjetting plus Peroxidase-Mediated Hydrogelation Produces Cell-Laden, Cell-Sized Particles with Suitable Characters for Individual Applications」, 『Macromolecular Bioscience』, 17(5) doi: 10.1002/mabi.201600416, 2017

Arai K, Yoshida T, Okabe M, Goto M, Mir T.A, Soko C, Tsukamoto Y, Akaike T, Nikaido T, Zhou K, Nakamura M 「Fabrication of 3D-culture platform with sandwich architecture for preserving liver-specific functions of hepatocytes using 3D bioprinter」,『J Biomed Mater Res A』, 105, 1583-1592, 2017

Okabe M, Yoshida T, Suzuki M, Goto M, Omori M, Taguchi M, Toda A, Suzuki T, Nakagawa K, Hiramoto F, Ushijima T, Waki H, Furuichi E, Arai K, Zhou K, Omar M.F, Nakamura M, Nomura Y, Kasama T, Katou K, Saito S, Nikaido T「Hyperdry Human Amniotic Membrane (HD-AM) is Supporting Aciclovir Included Device of Poly-N-p-Vinyl-Benzyl-D-Lactonamide (PVLA) Sphere for Treatment of HSV-1 Infected Rabbit Keratitis Model」『J Biotechnol Biomater』 6, 251, 2016

Arai K, Tsukamoto Y, Yoshida H, Sanae H, Mir T.A, Sakai S, Yoshida T, Okabe M, Nikaido T, Taya M, Nakamura M 「The Development of cell-adhesive hydrogel for 3D printing」, 『International Journal of Bioprinting』, 2, 44-53, 2016

Nakamura M, Mir T.A, Arai K, Ito S, Yoshida T, Iwanaga S, Kitano H, Obara C, Nikaido T 「Bioprinting with pre-cultured cellular constructs towards tissue engineering of hierarchical tissues」, 『International Journal of Bioprinting』, 1, 39-48, 2015

Arai K, Iwanaga S, Toda H, Genci C, Nishiyama Y, Nakamura M「Three-dimensional inkjet biofabrication based on designed images」,『Biofabrication』, 2011, 3(3), 034113-1-7

Nakamura M, Iwanaga S, Henmi C, Arai K, Nishiyama Y「Biomatrices and biomaterials for future developments of bioprinting and biofabrication」,『Biofabrication』, 2、014110-1-014110-6、2010

中村真人、黒岡武俊、岩永進太郎、荒井健一、「ゲル培養法4：アルギン酸ゲル培養法 」『細胞培養・組織培養の技術 第4版』、 2023年7月 pp156-163、ISBN：978-4-254-31096-2

荒井健一、中山功一、「バイオ3Dプリンタを用いた立体構造体の作製と将来的な展望」、 『バイオ・医療への3Dプリンティング技術の開発最前線』、2016年12月pp117-125

荒井健一、中村真人、「3D バイオプリンティングの国内外の現状と課題」、『実験医学、医療・創薬に向けた立体臓器をつくる』、2015年, 5月号、Vol.33 No.8

 荒井健一、中村真人、「インクジェット技術を用いた3次元積層造形物の作製および再生医療への応用」、『細胞の3次元組織化-その最先端技術と材料技術』、遺伝子医学MOOK別冊、2014年, pp195-201、

荒井健一、中村真人、「生体組織作製を目指す3Dバイオプリンターの開発」、『高分子』,2014年, 63(8), 530-531,

荒井 健一、中村 真人、「バイオプリンティングによる組織形成」、『未来材料』2012年11月、12( 11):pp 6 -12