Home >> Science of Fullerene >> Publications
Publications
No. | Title | Journal | Vol.(No), Page | Year | Author |
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49 | フラーレンの目立つ毛穴の減少:PGE2を介したメカニズムの可能性 | Medical Science Digest | 42(14), 42-44 | 2016 | Aoshima H. et al. |
48 | Potential suppressive effects of C60-fullerene derivatives on acquired immunity. | Nanoscale Research Letters | Accepted | 2016 | Hirai T. et al. |
47 | Protective effects of polyvinylpyrrolidone-wrapped fullerene against intermittent ultraviolet-A irradiation-induced cell injury in HaCaT cells | Journal of Photochemistry & Photobiology, B: Biology | 163 (2016) 22-29 | 2016 | Yasukazu S. et. al. |
46 | Hydroxylated Fullererne : a potential anti-inflammatory and anti-oxidant agent for preventing mouse preterm birth | American Journal of Obstetrics & Gynecology. | 213(5), 708-717 | 2015 | Wakimoto T. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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45 | Reduction of conspicuous facial pores by topical fullerene: possible role in the suppression of PGE2 production in the skin | Journal of Nanobiotechnology | 12, 6 | 2014 | Inui S. et al. |
44 | Fullerene-C60 derivatives prevent UV-irradiation/TiO2-induced cytotoxicity on keratinocytes and 3D-skin tissues through antioxidant actions. | Journal of Nanoscience and Nanotechnology | 14, 3285-3291 | 2014 | Kato S. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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43 | Photoprotective effects of inclusion complexes of fullerenes with polyvinylpyrrolidone. | Photodermatol Photoimmunol Photomed | 29(4), 196-203 | 2013 | Murakami M et al. |
42 | Biochemical and hematologic effects of polyvinylpyrrolidone-wrapped fullerene C60 after oral administration. | Pharmazie | 68(1), 54-57 | 2013 | Yamashita K. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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38 | フラーレンの抗酸化機能と化粧品への応用/フラーレンの安全性に関する最新知見と評価 | Bio Industry 3月号 | 29,3,39-45 | 2012 | Aoshima H./Ito M. |
39 | Polyhydroxylated fullerene C60(OH)44 suppresses intracellular lipid accumulation together with repression of intracellular superoxide anion radicals and subsequent PPARγ2 expression during spontaneous differentiation of OP9 preadipocytes into adipocytes. | Mol Cell Biochem | 366, 191-200 | 2012 | Saitoh Y. et al. |
40 | Inhibition of sebum production and propionibacterium acnes lipase activity by fullerenol, a novel polyhydroxylated fullerene: Potential as therapeutic reagent for acne. | The Journal of Cosmetic Science | 63, 259-265 | 2012 | Inui S. et al. |
41 | Induction of different reactive oxygen species in the skin during various laser therapies and their inhibition by fullerene. | Lasers Surg Med. | 44(8), 685-694 | 2012 | Fujimoto T. et al |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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35 | Silica and titanium dioxide nanoparticles cause pregnancy complications in mice. | Nature Nanotechnology | 6(5)321-238 | 2011 | Yamashita K. et al. |
36 | Fullerene-C60 incorporated in liposome exerts persistent hydroxyl radical-scavenging activity and cytoprotection in UVA/B-irradiated keratinocytes | Journal of Nanoscience and Nanotechnology | 11(5), 3814-3823 | 2011 | Kato S. et al. |
37 | Highly Hydroxylated Fullerene localizes at Cytoskeletons and inhibits Oxidative stress in Adipocytes and a Subcutaneous Adipose-tissue Equivalant | Free Radic Biol Med | 51(7), 1376-89 | 2011 | Xiao, L. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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22 | Fullerene-C60/liposome complex: defensive effects against UVA-induced damages in skin structure, nucleus and collagen type I/IV fibrils, and the permeability into human skin tissue. | Journal of Photochemistry and Photobiology B: Biology | 98, 99-105 | 2010 | Kato S. et al. |
23 | Defensive effects of fullerene-C60 dissolved in squalane against the 2, 4-nonadienal induced cell injury in human skin keratinocytes HaCaT and wrinkle formation in 3D-human skin tissue model. | Journal of Biomedical Nanotechnology | 6, 1-7 | 2010 | Kato S. et al. |
24 | Defensive effects of fullerene-C60/liposome complex against UVA-induced intracellular reactive oxygen species generation and cell death in human skin keratinocytes HaCaT, associated with intracellular uptake and extracellular excretion of fullerene-C60. | Journal of Photochemistry and Photobiology B: Biology | 98, 144-151 | 2010 | Kato S. et al. |
25 | Biological safety of water-soluble fullerenes evaluated by genotoxicity, phototoxicity studies, and pro-oxidant activity. | The Journal of Toxicological Science | 35 (3), 401-409 | 2010 | Aoshima H. et al. |
26 | The effect of squalane-dissolved fullerene-C60 on adipogenesis-accompanied oxidative stress and macrophage activation in a preadipocyte-monocyte co-culture system. | Biomaterials. | 31, 5976-5985 | 2010 | Xiao, L. et al |
27 | Clinical Evaluation of Fullerene-C60 Dissolved in Squalane for Anti-Wrinkle Cosmetics. | Journal of Nanoscience and Nanotechnology | 10, 6769-6774 | 2010 | Kato S. et al. |
28 | 水酸化フラーレンナノ粒子の合成方法とその応用~化粧品用添加剤から杉花粉アレルゲン除去まで~ | 化学装置 | 7月号, 49-53 | 2010 | Kokubo K. et al. |
29 | フラーレン(C60)の関節炎に対する抗炎症・破骨細胞分化・機能抑制効果 | グルコサミン研究 | 6, 61-67 | 2010 | Aooshima H. et al. |
30 | Novel polyhydroxylated fullerene suppresses intracellular oxidative stress together with repression of intracellular lipid accumulation during the differentiation of OP9 preadipocytes into adipocytes. | Free Radical Research | 44(9), 1072-1081. | 2010 | Saitoh Y. et al. |
31 | Fullerene-Polyvinylpyrrolidone Clathrate Localizes in the Cytoplasm to Prevent Ultraviolet-A Ray-Induced DNA-Fragmentation and Activation of the Transcriptional Factor NF-kappa B | Journal of Cellular Biochemistry | 9999, 1-12 | 2010 | Xiao, L. et al. |
32 | Improvement of acne vulgaris by topical fullerene application: Unique impact on skin care | Nanomedicine: Nanotechnology, Biology, and Medicine. | 7, 238-241 | 2010 | Inui S. et al. |
33 | Super-highly hydroxylated fullerene derivative protects human keratinocytes from UV-induced cell injuries together with the decreases in intracellular ROS generation and DNA damages. | Journal of Photochemistry and Photobiology B: Biology. | 102, 69-76 | 2010 | Saitoh Y. et al. |
34 | Facile and Scalable Synthesis of Highly Hydroxylated Water-Soluble Fullerenol as a Single Nanoparticle. | Free Radic Biol Med | 4(2), 204-215 | 2010 | Kokubo K. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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14 | 抗酸化成分フラーレンの事業化 | 未来材料 | 9, 1, 63-65 | 2009 | Yamana S., Ito M. |
15 | Biological Safety of LipoFullerene composed of Squalane and Fullerene-C60 upon Mutagenesis, Photocytotoxicity, and Permeability into the Human Skin Tissue. | Basic & Clinical Pharmacology & Toxicology | 104(6), 483-487 | 2009 | Kato S. et al. |
16 | Biological safety of liposome-fullerene consisting of hydrogenated lecithin, glycine soja sterols, and fullerene-C60 upon photocytotoxicity and bacterial reverse mutagenicity. | Toxicology and Industrial Health | 25(3), 197-203 | 2009 | Kato S. et al. |
17 | Antimicrobial Activity of Fullerenes and Their Hydroxylated Derivatives | Biocontrol Science | 14 (2), 69-72 | 2009 | Aoshima H. et al. |
18 | Highly-hydroxylated or g-cyclodextrin-bicapped water-soluble derivative of fullerene: the antioxidant ability assessed by electron spin resonance method and b-carotene bleaching assay. | Bioorganic & Medicinal Chemistry Letters | 19 (18), 5293 | 2009 | Kato S. et al. |
19 | Safety evaluation of highly purified fullerenes: based on screening of eye and skin damages. | The Journal of Toxicological Science | 34 (5), 555-562 | 2009 | Aoshima H. et al. |
20 | フラーレン類の抗酸化能評価および汎用化粧品成分の光分解抑制効果 | 日本香粧品学会誌 | 33 (3), 149-154 | 2009 | Aoshima H. et al. |
21 | Preparation of Hydrophilic Nanoparticles of C60 with High Resistance to Aggregation during Storage, using 2-Hydroxypropyl-b-cyclodextrin. | Chemistry Letters | 38 (11), 1104-1105 | 2009 | Iohara D. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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13 | Facile synthesis of highly water-soluble fullerenes more than half-covered by hydroxyl groups | ACS NANO | 2, 2, 327-333 | 2008 | Kokubo K. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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10 | Inhibitory effect of the water-soluble polymer-wrapped derivative of fullerene on UVA-induced melanogenesis via downregulation of tyrosinase expression in human melanocytes and skin tissues | Archives of Dermatological Research | 299, no5-6, 245-257 | 2007 | Xiao, L. et al. |
11 | Water-soluble C60 fullerene prevents degeneration of articular cartilage in osteoarthritis via down-regulation of chondrocyte catabolic activity and inhibition of cartilage degeneration during disease development | Arthritis and Rheumatism | 56, 10, 3307-3319 | 2007 | Yudoh K. et al. |
12 | Involvement of free radicals followed by the activation of phospholipase A2 in the mechanism that underlies the combined effects of methamphetamine and morphine on subacute toxicity or lethality in mice: Comparison of the therapeutic potential of fullerene, mepacrine, and cooling | Toxicology | 236, 3, 149-57 | 2007 | Mori, T. et al |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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6 | The Water-Soluble Fullerene Derivative "Radical Sponge・Exerts Cytoprotective Action against UVA Irradiation but Not Visible-Light-Catalyzed Cytotoxicity in Human Skin Keratinocytes | Bioorganic & Medicinal Chemistry Letters | 16, 1590-1595 | 2006 | Xiao, L. et al |
7 | Preclinical Studies on Safety of Fullerene upon Acute Oral Administration and Evaluation for No Mutagenesis | Toxicology | 225, 48-54 | 2006 | Mori, T. et al |
8 | Innovative Anti-Oxidant: Fullerene(INCI#: 7587) is as Radical Sponge on the skin. Its High Level of Safety, Stability and Potential as Premier Anti-Aging and Whitening Cosmetic Ingredient | Fullerenes, Nanotubes, and Carbon Nanostructures | 14, 335-341 | 2006 | Takada, H. et al. |
9 | Antioxidant Activity of Supramolecular Water-soluble Fullerenes Evaluated by β‐Carotene Bleaching Assay | Bioscience, Biotechnology, and Biochemistry, Oct/2006 | 70, 12, 3088-3093 | 2006 | Takada, H. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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5 | Anti-Oxidant Effects of Water-soluble Fullerene Derivatives against Ultraviolet Ray or Peroxylipid through Their Action of Scavenging the Reactive Oxygen Species in Human Skin Keratinocytes | Biomedicine & Pharmacotherapy | 59, 351-358 | 2005 | Xiao, L. et al |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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4 | ナノテクノロジー素材フラーレン誘導体の抗酸化作用 | 新有用性化粧品の開発 -Technology of Evidence Based Cosmetics- | 第6章, 291-308 | 2004 | Takada, H. et al. |
No. | Title | Journal | Vol.(No), Page | Year | Author |
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1 | ナノテク素材フラーレン誘導体の抗酸化効果 | Fragrance Journal | 32, 40-48 | 2003 | Maeda, K. et al. |
2 | ナノテクノロジー新素材:フラーレンを用いた化粧品による美肌革命の可能性 | BIO INDUSTRY | 20, 82-90 | 2003 | Matsubayashi, K. et al. |
3 | フラーレン誘導体による活性酸素の消去-ナノテク新素材の美肌化粧品への応用- | 美肌・皮膚防御とバイオ技術-Rejuvenation and Skin Protection, and Biotechnology- | 第4編, 第20章, 229-238 | 2003 | Miwa, N. ed. |