体外式膜型人工肺における人工肺ガス側入口圧力を用いた血漿リークの間接的評価―模擬水溶液を用いた検討
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| Published in | 生体医工学 Vol. 58; no. 6; pp. 212 - 218 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | Japanese |
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公益社団法人 日本生体医工学会
10.12.2020
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| Online Access | Get full text |
| ISSN | 1347-443X 1881-4379 |
| DOI | 10.11239/jsmbe.58.212 |
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| Author | 井口, 新一 橘, 克典 中村, 有希 海本, 浩一 |
|---|---|
| Author_xml | – sequence: 1 fullname: 海本, 浩一 organization: 大阪電気通信大学大学院 – sequence: 1 fullname: 橘, 克典 organization: 大阪電気通信大学大学院 – sequence: 1 fullname: 井口, 新一 organization: 大阪電気通信大学 – sequence: 1 fullname: 中村, 有希 organization: 大阪電気通信大学大学院 |
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| ContentType | Journal Article |
| Copyright | 2020 社団法人日本生体医工学会 |
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| DOI | 10.11239/jsmbe.58.212 |
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| EndPage | 218 |
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| References | 13. Furugaki T, Shigeta O, Hiramatsu Y:lnsensible water loss volume during Simulated Cardiopulmonary Bypass. J Extra-corporeal Technol. 45(4), pp.380-382, 2018. (in Japanese) 16. Oshiyama H. Material and surface modifications of gas exchange membrane for oxygenator. MEMBRANE. 25(3), pp.118-123, 2000. 20. Nakamura Y, Katou T, Kusumoto S, Masuda Y, Noguchi S:The Relationship of environmental temperature and condensation of oxygenator. Jpn J Extra-Corporeal Technol. 40(2), pp.172-178, 2014. (in Japanese) 押山広明:人工肺用ガス交換膜と表面処理. 膜. 25(3), pp.118-123, 2000. 古垣達, 重田治, 平松祐司:膜型人工肺稼働中の蒸泄による水喪失量の検討. 体外循環技術. 45(4), pp.380-382, 2018. 18. Extracorporeal Life Support Organization:ELSO General Guidelines for all ECLS Cases version 1. 4 August 2017. <http://www.elso.org/Resources/Guidelines.aspx.> [accessed April 2, 2020.]. 日本集中治療医学会:ECMO中のプラズマリーク発生時の注意点と対応について. <https://www.jsicm.org/news/upload/COVID-19-ECMOnet-info_200419.pdf> [accessed June 2, 2020]. 酒井一成:SS膜中空糸および膜型人工肺MENOXα®. 膜. 25(3), pp.124-129, 2000. 萩原和彦:人工肺材料と表面処理. 表面技術. 46 (10), pp.887-892, 1995. 6. Kazunari Sakai:SS Hollow Fiber Membrane and Membrane Oxygenator MENOXα. MEMBRANE. 25(3), pp.124-129, 2000. (in Japanese) 14. Montoya JP, Shanley CJ, Merz SI, Bartlett RH:Plasma leakage through microporous membranes. Role of phospholipids. ASAIO J. 38(3), pp.399-405, 1992. 巽英介:人工肺の研究開発動向と新しい展開. 高分子. 56(9), pp.749-753, 2007. 15. Imaishi N, Nakamura H, Shono H, Ino H, Hozawa M, Fujinawa K:Surface Hydrodynamics of Surfactant Solutions. Kagaku Kogaku Ronbunshu. 8(2), pp.136-143. 1982. (in Japanese) 8. Kind K, Reiss N, Knobl HJ, Blanz U, Körfer R:Introduction of a new oxygenator including a tight fiber for long-term ECMO in infants. ASAIO J. 52(2), pp.217-218, 2006. 井上剛臣, 高木睦, 澤芳樹, 白倉良太, 吉田敏臣:ハイブリッド型人工肺モデルの酸素移動速度. 人工臓器. 25(4), pp.811-815, 1996. 中村有希, 加藤貴充, 楠本繁崇, 増田行雄, 野口悟司:人工肺の結露と環境温度の関係性について. 体外循環技術. 40(2), pp.172-178, 2014. 中村有希, 山本和彦, 井口新一, 鎌田亜紀, . 克典:各種人工肺におけるガス側入口圧と酸素加能の関係性. 医工学治療. 29(2), pp.78-83, 2017. 12. Lawson DS, Holt D:Insensible water loss from the Jostra Quadrox D oxygenator:an in vitro study. Perfusion. 22(6), pp.407-410, 2007. 9. The Japanese Society of Intensive Care Medicine:Title of the ECMO Chuu no Plasma Leak Hasseizi no Chuuitenn to Taiou ni Tsuite. <https://www.jsicm.org/news/upload/COVID-19-ECMOnet-info_200419.pdf> [accessed June 2, 2020]. (in Japanese) 11. Nakamura Y, Yamamoto K, Iguchi S, Kamata A, Tachibana K:Relation between gas inlet pressure and oxygenation capacity of various oxygenator. Ther Eng. 29(2), 78-83, 2017. (in Japanese) 19. Cohen J:A power primer. Psychol Bull. 112(1), pp.155-159, 1992. 7. Nishigaki T, Hayashi T, Yoshida K, Yotsuida H, Takahashi Y, Kagisaki K, Ichikawa H, Hitomi Y, Mizuno Matsumoto Y:Utility of the measurements at the gas inlet pressure in oxygenator for a clinical extracorporeal life support. J Extra-corporeal Technol. 38(1), pp.8-13, 2011. (in Japanese) 4. Hattori R, Wei, C. M, Imura M, Saito K, Fukuyama M, Miyamura K, Yada I, Yuasa H, Kusagawa M, Kamiya K, Kuwana K, Nakanishi H:Development of an extracapillary blood flow type membrane oxygenator for extracorporeal membrane oxygenation. Jpn J Artif Organs. 15(2), pp.924-927, 1986. (in Japanese) 10. Katagiri N, Mizuno T, Tatsumi E, Tanaka H, Sometani A, Honma A, Nishinaka T, Taenaka Y, Funakubo A, Fukui Y:Chuukuushi Makugatazinnkouhai Gasu Ryuushutubu ni okeru Ketsurosui niyoru Yuukoumakumennseki Gennshou ni Kannsuru Kenntou. Makugatahai. 30, pp.22-27, 2007. (in Japanese) 桑名克之:膜型人工肺の膜と人工肺モジュール開発. 膜. 25(3), pp. 107-117, 2000. 17. Camacho T, Totapally BR, Hultquist K, Nelson G, Eawaz D, Sussmane JB, Wolfsdorf J:Insensible water loss during extracorporeal membrane oxygenation:an in vitro study. ASAIO J. 46(5), pp.620-624, 2000. 西垣孝行, 林輝行, 吉田幸太郎, 四井田英樹, 高橋裕三, 鍵崎康治, 市川肇, 人見泰正, 水野 (松本) 由子:臨床の補助循環管理における人工肺ガス相入口圧測定の有用性の検討. 体外循環技術. 38(1), pp.8-13, 2011. 服部良二, 魏啓明, 井村正史, 斎藤圭治, 福山守, 宮村一男, 矢田公, 湯浅浩, 草川實, 神谷勝弘, 桑名克之, 中西光:ECMOを目的とした外部灌流型膜型人工肺の開発. 人工臓器. 15(2), pp.924-927, 1986. 22. Hagiwara K:Materials and surface modifications for oxygenators. J Surf Finish Soc Jpn. 46 (10), pp.887-892, 1995. (in Japanese) 1. Extracorporeal Life Support Organization:ECLS Registry Report International Summary January 25, 2020. <https://www.elso.org/Registry/Statistics/InternationalSummary.aspx> [accessed April 2, 2020]. 21. Gionata F, Mara T, Antonio C, Gerardo C:The maximal pore size of hydrophobic microporous membranes does not fully characterize the resistance to plasma breakthrough of membrane devices for extracorporeal blood oxygenation. Front. Bioeng Biotechnol. 10(7), pp.1-9, 2020. 田原耕一郎, 桑名克之, 青木正人, 尾崎滋正:新しいヘパリンコートを施したシリコーンコーティング人工肺のin vitro評価. 膜型肺. 23, pp.31-33, 2000. 2. Mottaghy K, Oedekoven B, Starmans H, Müller B, Kashefi A, Hoffmann B, Böhm S:Technical aspects of plasma leakage prevention in microporous capillary membrane oxygenators. ASAIO Trans. 35(3), pp.640-643, 1989. 3. Kuwana K:Membrane for oxygenation and development of membrane oxygenator. MEMBRANE. 25(3), pp.107-117, 2000. (in Japanese) 24. Tatsumi E:Trends and new approaches in the research and development of artificial lungs. Jpn J Polymer Sci Technol. 56(9), pp.749-753, 2007. (in Japanese) 今石宣之, 中村仁, 庄野寿, 井野一, 宝沢光紀, 藤縄勝彦:界面活性剤溶液の表面流動特性. 化学工学論文集. 8(2), pp.136-143. 1982. 23. Inoue T, Takagi M, Sawa Y, Shirakura R, Yoshida T:Oxygen transfer rate of a hybrid artificial lung model. Jpn J Artif Organs. 25(4), pp.811-815, 1996. (in Japanese) 片桐伸将, 水野敏秀, 巽英介, 田中秀幸, 染谷朋典, 本間章彦, 西中知博, 妙中義之, 舟久保昭夫, 福井康裕:中空糸膜型人工肺ガス流出部における結露水による有効膜面積減少に関する検討. 膜型肺. 30, pp.22-27, 2007. 5. Tahara K, Kuwana K, Aoki M, Osaki S:In vitro evaluation of the new silicone coating artificial lung conducted with heparin coat. Membrane Oxygenator. 23, pp.31-33, 2000. (in Japanese) |
| References_xml | – reference: 2. Mottaghy K, Oedekoven B, Starmans H, Müller B, Kashefi A, Hoffmann B, Böhm S:Technical aspects of plasma leakage prevention in microporous capillary membrane oxygenators. ASAIO Trans. 35(3), pp.640-643, 1989. – reference: 片桐伸将, 水野敏秀, 巽英介, 田中秀幸, 染谷朋典, 本間章彦, 西中知博, 妙中義之, 舟久保昭夫, 福井康裕:中空糸膜型人工肺ガス流出部における結露水による有効膜面積減少に関する検討. 膜型肺. 30, pp.22-27, 2007. – reference: 11. Nakamura Y, Yamamoto K, Iguchi S, Kamata A, Tachibana K:Relation between gas inlet pressure and oxygenation capacity of various oxygenator. Ther Eng. 29(2), 78-83, 2017. (in Japanese) – reference: 田原耕一郎, 桑名克之, 青木正人, 尾崎滋正:新しいヘパリンコートを施したシリコーンコーティング人工肺のin vitro評価. 膜型肺. 23, pp.31-33, 2000. – reference: 18. Extracorporeal Life Support Organization:ELSO General Guidelines for all ECLS Cases version 1. 4 August 2017. <http://www.elso.org/Resources/Guidelines.aspx.> [accessed April 2, 2020.]. – reference: 4. Hattori R, Wei, C. M, Imura M, Saito K, Fukuyama M, Miyamura K, Yada I, Yuasa H, Kusagawa M, Kamiya K, Kuwana K, Nakanishi H:Development of an extracapillary blood flow type membrane oxygenator for extracorporeal membrane oxygenation. Jpn J Artif Organs. 15(2), pp.924-927, 1986. (in Japanese) – reference: 16. Oshiyama H. Material and surface modifications of gas exchange membrane for oxygenator. MEMBRANE. 25(3), pp.118-123, 2000. – reference: 日本集中治療医学会:ECMO中のプラズマリーク発生時の注意点と対応について. <https://www.jsicm.org/news/upload/COVID-19-ECMOnet-info_200419.pdf> [accessed June 2, 2020]. – reference: 20. Nakamura Y, Katou T, Kusumoto S, Masuda Y, Noguchi S:The Relationship of environmental temperature and condensation of oxygenator. Jpn J Extra-Corporeal Technol. 40(2), pp.172-178, 2014. (in Japanese) – reference: 8. Kind K, Reiss N, Knobl HJ, Blanz U, Körfer R:Introduction of a new oxygenator including a tight fiber for long-term ECMO in infants. ASAIO J. 52(2), pp.217-218, 2006. – reference: 古垣達, 重田治, 平松祐司:膜型人工肺稼働中の蒸泄による水喪失量の検討. 体外循環技術. 45(4), pp.380-382, 2018. – reference: 22. Hagiwara K:Materials and surface modifications for oxygenators. J Surf Finish Soc Jpn. 46 (10), pp.887-892, 1995. (in Japanese) – reference: 17. Camacho T, Totapally BR, Hultquist K, Nelson G, Eawaz D, Sussmane JB, Wolfsdorf J:Insensible water loss during extracorporeal membrane oxygenation:an in vitro study. ASAIO J. 46(5), pp.620-624, 2000. – reference: 21. Gionata F, Mara T, Antonio C, Gerardo C:The maximal pore size of hydrophobic microporous membranes does not fully characterize the resistance to plasma breakthrough of membrane devices for extracorporeal blood oxygenation. Front. Bioeng Biotechnol. 10(7), pp.1-9, 2020. – reference: 3. Kuwana K:Membrane for oxygenation and development of membrane oxygenator. MEMBRANE. 25(3), pp.107-117, 2000. (in Japanese) – reference: 14. Montoya JP, Shanley CJ, Merz SI, Bartlett RH:Plasma leakage through microporous membranes. Role of phospholipids. ASAIO J. 38(3), pp.399-405, 1992. – reference: 中村有希, 山本和彦, 井口新一, 鎌田亜紀, . 克典:各種人工肺におけるガス側入口圧と酸素加能の関係性. 医工学治療. 29(2), pp.78-83, 2017. – reference: 13. Furugaki T, Shigeta O, Hiramatsu Y:lnsensible water loss volume during Simulated Cardiopulmonary Bypass. J Extra-corporeal Technol. 45(4), pp.380-382, 2018. (in Japanese) – reference: 23. Inoue T, Takagi M, Sawa Y, Shirakura R, Yoshida T:Oxygen transfer rate of a hybrid artificial lung model. Jpn J Artif Organs. 25(4), pp.811-815, 1996. (in Japanese) – reference: 12. Lawson DS, Holt D:Insensible water loss from the Jostra Quadrox D oxygenator:an in vitro study. Perfusion. 22(6), pp.407-410, 2007. – reference: 15. Imaishi N, Nakamura H, Shono H, Ino H, Hozawa M, Fujinawa K:Surface Hydrodynamics of Surfactant Solutions. Kagaku Kogaku Ronbunshu. 8(2), pp.136-143. 1982. (in Japanese) – reference: 井上剛臣, 高木睦, 澤芳樹, 白倉良太, 吉田敏臣:ハイブリッド型人工肺モデルの酸素移動速度. 人工臓器. 25(4), pp.811-815, 1996. – reference: 服部良二, 魏啓明, 井村正史, 斎藤圭治, 福山守, 宮村一男, 矢田公, 湯浅浩, 草川實, 神谷勝弘, 桑名克之, 中西光:ECMOを目的とした外部灌流型膜型人工肺の開発. 人工臓器. 15(2), pp.924-927, 1986. – reference: 酒井一成:SS膜中空糸および膜型人工肺MENOXα®. 膜. 25(3), pp.124-129, 2000. – reference: 6. Kazunari Sakai:SS Hollow Fiber Membrane and Membrane Oxygenator MENOXα. MEMBRANE. 25(3), pp.124-129, 2000. (in Japanese) – reference: 萩原和彦:人工肺材料と表面処理. 表面技術. 46 (10), pp.887-892, 1995. – reference: 桑名克之:膜型人工肺の膜と人工肺モジュール開発. 膜. 25(3), pp. 107-117, 2000. – reference: 今石宣之, 中村仁, 庄野寿, 井野一, 宝沢光紀, 藤縄勝彦:界面活性剤溶液の表面流動特性. 化学工学論文集. 8(2), pp.136-143. 1982. – reference: 西垣孝行, 林輝行, 吉田幸太郎, 四井田英樹, 高橋裕三, 鍵崎康治, 市川肇, 人見泰正, 水野 (松本) 由子:臨床の補助循環管理における人工肺ガス相入口圧測定の有用性の検討. 体外循環技術. 38(1), pp.8-13, 2011. – reference: 中村有希, 加藤貴充, 楠本繁崇, 増田行雄, 野口悟司:人工肺の結露と環境温度の関係性について. 体外循環技術. 40(2), pp.172-178, 2014. – reference: 押山広明:人工肺用ガス交換膜と表面処理. 膜. 25(3), pp.118-123, 2000. – reference: 7. Nishigaki T, Hayashi T, Yoshida K, Yotsuida H, Takahashi Y, Kagisaki K, Ichikawa H, Hitomi Y, Mizuno Matsumoto Y:Utility of the measurements at the gas inlet pressure in oxygenator for a clinical extracorporeal life support. J Extra-corporeal Technol. 38(1), pp.8-13, 2011. (in Japanese) – reference: 巽英介:人工肺の研究開発動向と新しい展開. 高分子. 56(9), pp.749-753, 2007. – reference: 5. Tahara K, Kuwana K, Aoki M, Osaki S:In vitro evaluation of the new silicone coating artificial lung conducted with heparin coat. Membrane Oxygenator. 23, pp.31-33, 2000. (in Japanese) – reference: 9. The Japanese Society of Intensive Care Medicine:Title of the ECMO Chuu no Plasma Leak Hasseizi no Chuuitenn to Taiou ni Tsuite. <https://www.jsicm.org/news/upload/COVID-19-ECMOnet-info_200419.pdf> [accessed June 2, 2020]. (in Japanese) – reference: 1. Extracorporeal Life Support Organization:ECLS Registry Report International Summary January 25, 2020. <https://www.elso.org/Registry/Statistics/InternationalSummary.aspx> [accessed April 2, 2020]. – reference: 19. Cohen J:A power primer. Psychol Bull. 112(1), pp.155-159, 1992. – reference: 10. Katagiri N, Mizuno T, Tatsumi E, Tanaka H, Sometani A, Honma A, Nishinaka T, Taenaka Y, Funakubo A, Fukui Y:Chuukuushi Makugatazinnkouhai Gasu Ryuushutubu ni okeru Ketsurosui niyoru Yuukoumakumennseki Gennshou ni Kannsuru Kenntou. Makugatahai. 30, pp.22-27, 2007. (in Japanese) – reference: 24. Tatsumi E:Trends and new approaches in the research and development of artificial lungs. Jpn J Polymer Sci Technol. 56(9), pp.749-753, 2007. (in Japanese) |
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| Title | 体外式膜型人工肺における人工肺ガス側入口圧力を用いた血漿リークの間接的評価―模擬水溶液を用いた検討 |
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| ispartofPNX | 生体医工学, 2020/12/10, Vol.58(6), pp.212-218 |
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