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KAKEN_18H02875seika.pdf
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Download
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:354.9 KB
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:Nov 14, 2022 |
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Total downloads since Nov 14, 2022 : 169
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新規生体素材による自己再生能を利用した新しい腎臓再生技術の開発
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シンキ セイタイ ソザイ ニ ヨル ジコ サイセイノウ オ リヨウシタ アタラシイ ジンゾウ サイセイ ギジュツ ノ カイハツ
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Shinki seitai sozai ni yoru jiko saiseinō o riyōshita atarashii jinzō saisei gijutsu no kaihatsu
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Novel renal regeneration technology based on self-remodeling capacity using innovative biomaterial
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八木, 洋
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ヤギ, ヒロシ
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Yagi, Hiroshi
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慶應義塾大学・医学部 (信濃町) ・講師
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Research team head
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科研費研究者番号 : 20327547
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松本, 一宏
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マツモト, カズヒロ
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Matsumoto, Kazuhiro
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慶應義塾大学・医学部 (信濃町) ・講師
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Research team member
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科研費研究者番号 : 80366153
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足達, 俊吾
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アダチ, シュンゴ
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Adachi, Shungo
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国立研究開発法人産業技術総合研究所・生命工学領域・研究チーム長
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Research team member
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科研費研究者番号 : 90783803
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五島, 直樹
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ゴシマ, ナオキ
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Goshima, Naoki
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国立研究開発法人産業技術総合研究所・生命工学領域・研究チーム長
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Research team member
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科研費研究者番号 : 70215482
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2021
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科学研究費補助金研究成果報告書
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2020
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本研究は生体由来の細胞外マトリックスで構成された三次元骨格の有用性を示すために、脱細胞化処理によって作製した臓器の骨格を、部分切除術後の断面に合わせて縫合接着することで、骨格内部に細胞が浸潤・生着し欠損部分の組織再生を促す効果と、そのメカニズムを明らかにすることが目的である。本研究では腎臓再生をターゲットとして、疾患ラット・ブタモデルを用いて臨床病理学的検討を行うと共に、脱細胞化後の残存タンパクの網羅的解析を実施して有効性の根拠を明らかにし、本来は体内で自己再生しない腎臓が、新しい再生医療素材として機能し得るか様々な病理学的・画像診断ツールを応用し検証し得た。
We developed an organ-derived acellular bio-scaffold that promoted glomerular and tubular regeneration after partial nephrectomy in pigs. We sutured a decellularised kidney-derived bio-scaffold onto the PN surface. Twenty-eight days later, a glomerulus-like structure, a Bowman’s capsule, a foot process, and proximal- and distal tubule-like structures that expressed nephrin, AQP-1, and E-cadherin, were observed in the implanted bio-scaffold. CT and angiography revealed blood flow in the bio-scaffold. We detected Sall1- and Six2-positive cells near the boundary of the resected surface and the bio-scaffold, which served as a foothold for cells from the PN kidney surface and enhanced renal regeneration. To our knowledge, this is the first study reporting organ-derived bio-scaffold-induced glomerular regeneration in mammals. This novel organ-derived bio-scaffold paves the way for understanding kidney regeneration mechanisms and may reduce renal disease-associated mortality.
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研究種目 : 基盤研究 (B) (一般)
研究期間 : 2018~2020
課題番号 : 18H02875
研究分野 : 臓器再生
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| May 17, 2022 | | インデックス を変更 |
| Nov 14, 2022 | | Creator Name,Creator Kana,Creator Romanization,Creator Affiliation,Creator Affiliation (Translated),Creator Role,Creator Link,Creator 著者ID,Abstract 内容,Note 注記 を変更 |
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