人工心肺を使用した心臓血管手術におけるFibCare®を用いたフィブリノゲン濃度測定の精度評価

【目的】FibCare®（ATOM MEDICAL社）はフィブリノゲン濃度を約2分間で測定できる機器である。心臓血管手術での正確性を後方視的に検討した。【方法】人工心肺を使用した心臓血管手術63症例において，人工心肺離脱前に中央検査室とFibCare®でフィブリノゲン濃度を測定し比較した。【結果】Bland-Altman解析ではバイアスが15.2 mg/dL，95%一致限界は−21.5∼51.9 mg/dLであった。　Spearmanの順位相関係数は0.92と強い正の相関を示した。【結論】人工心肺を使用した心臓血管手術においてFibCare®はフィブリノゲン濃度を中央検査室と同等に測定できる。...

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Published in	Cardiovascular Anesthesia Vol. 25; no. 1; pp. 37 - 42
Main Authors	池田, 曉彦, 溝部, 圭輔, 角本, 眞一, 柳, 明男, 宮脇, 宏, 大野, 翔
Format	Journal Article
Language	Japanese
Published	一般社団法人　日本心臓血管麻酔学会 01.08.2021 日本心臓血管麻酔学会
Subjects	FibCare フィブリノゲン濃度人工心肺
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ISSN	1342-9132 1884-7439
DOI	10.11478/jscva.2021-2-001

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Abstract	【目的】FibCare®（ATOM MEDICAL社）はフィブリノゲン濃度を約2分間で測定できる機器である。心臓血管手術での正確性を後方視的に検討した。【方法】人工心肺を使用した心臓血管手術63症例において，人工心肺離脱前に中央検査室とFibCare®でフィブリノゲン濃度を測定し比較した。【結果】Bland-Altman解析ではバイアスが15.2 mg/dL，95%一致限界は−21.5∼51.9 mg/dLであった。　Spearmanの順位相関係数は0.92と強い正の相関を示した。【結論】人工心肺を使用した心臓血管手術においてFibCare®はフィブリノゲン濃度を中央検査室と同等に測定できる。
AbstractList	【目的】FibCare®（ATOM MEDICAL社）はフィブリノゲン濃度を約2分間で測定できる機器である。心臓血管手術での正確性を後方視的に検討した。【方法】人工心肺を使用した心臓血管手術63症例において，人工心肺離脱前に中央検査室とFibCare®でフィブリノゲン濃度を測定し比較した。【結果】Bland-Altman解析ではバイアスが15.2 mg/dL，95%一致限界は−21.5∼51.9 mg/dLであった。　Spearmanの順位相関係数は0.92と強い正の相関を示した。【結論】人工心肺を使用した心臓血管手術においてFibCare®はフィブリノゲン濃度を中央検査室と同等に測定できる。「抄録」【目的】FibCare(R) (ATOM MEDICAL社)はフィブリノゲン濃度を約2分間で測定できる機器である. 心臓血管手術での正確性を後方視的に検討した. 【方法】人工心肺を使用した心臓血管手術63症例において, 人工心肺離脱前に中央検査室とFibCare(R)でフィブリノゲン濃度を測定し比較した. 【結果】Bland-Altman解析ではバイアスが15.2mg/dL, 95%一致限界は-21.5～51.9mg/dLであった. Spearmanの順位相関係数は0.92と強い正の相関を示した. 【結論】人工心肺を使用した心臓血管手術においてFibCare(R)はフィブリノゲン濃度を中央検査室と同等に測定できる.
Author	角本, 眞一大野, 翔宮脇, 宏溝部, 圭輔柳, 明男池田, 曉彦
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References	13) 心臓血管麻酔における血液粘弾性検査の使用指針（2019年6月30日改訂版）日本心臓血管麻酔学会 http://www.jscva.org/files/guideline/%E5%BF%83%E8%87%93%E8%A1%80%E7%AE%A1%E9%BA%BB%E9%85%94%E3%81%AB%E3%81%8A%E3%81%91%E3%82%8B%E8%A1%80%E6%B6%B2%E7%B2%98%E5%BC%BE%E6%80%A7%E6%A4%9C%E6%9F%BB%E3%81%AE%E4%BD%BF%E7%94%A8%E6%8C%87%E9%87%9D.pdf?1616160779（最終アクセス2021年3月18日） 10) Levy JH, Welsby I, Goodnough LT. Fibrinogen as a therapeutic target for bleeding: a review of critical levels and replacement therapy. Transfusion. 2014; 54: 1389-1405. 1) Sniecinski RM, Chandler WL. Activation of the hemostatic system during cardiopulmonary bypass. Anesth Analg 2011; 113: 1319-1333. 9) Imai K, Kotani T, Nakano T, et al. Clinical utility and limitations of FibCare® for the rapid measurement of fibrinogen concentrations: The first clinical experience. Taiwan J Obstet Gynecol 2018; 57: 899-900. 12) Suzuki S, Tamura T, Hasegawa K, et al. Fibrinogen levels measured by the dry hematology method are lower than those measured by the Clauss method under a high concentration of heparin. Nagoya J Med Sci. 2019; 81: 259-267. 2) Rahe-Meyer N, Pichlmaier M, Haverich A, et al. Bleeding management with fibrinogen concentrate targeting a high-normal plasma fibrinogen level: a pilot study. Br J Anaesth 2009; 102: 785-792. 4) Innerhofer P, Kienast J. Principles of perioperative coagulopathy. Best Pract Res Clin Anaesthesiol 2010; 24: 1-14. 8) Solomon C, Cadamuro J, Ziegler B, et al. A comparison of fibrinogen measurement methods with fibrin clot elasticity assessed by thromboelastometry, before and after administration of fibrinogen concentrate in cardia surgery. Transfusion 2011; 51: 1695-1706. 11) Ogawa S, Tanaka KA, Nakajima Y, et al. Fibrinogen measurements in plasma and whole blood: a performance evaluation study of the dry-hematology system. Anesth Analg. 2015; 120: 18-25. 15) Seo H, Choi JH, Moon YJ, et al. FIBTEM of thromboelastometry does not accurately represent fibrinogen concentration in patients with severe hypofibrinogenemia during liver transplantation. Ann Transplant. 2015; 20: 342-350. 6) Rahe-Meyer N, Hanke A, Schmidt DS, et al. Fibrinogen concentrate reduces intraoperative bleeding when used as first line hemostatic therapy during major aortic replacement surgery: results from a randomized, placebo−controlled trial. J Thoracic Cardiovascular Surg 2013; 145: S178-185. 7) 「血液製剤の使用指針」（平成29年3月改訂版）厚生労働省医薬・生活局 http://www.mhlw.go.jp/file/06-Seisakujouhou-11120000-Iyakushokuhinkyoku/0000161115.pdf（最終アクセス2021年3月18日） 14) Ranucci M, Di Dedda U, Baryshnikova E. Trials and tribulations of viscoelastic-based determineation of fibrinogen concentration. Anesth Analg. 2020; 130: 644-653. 3) Whelihan MF, Kiankhooy A, Brummel-Ziedins KE. Thrombin generation and fibrin clot formation under hypothermic conditions: an in vitro evaluation of tissue factor initiated whole blood coagulation. J Crit Care. 2014; 29: 24-30. 5) Ranucci M, Baryshnikova E, Crapelli GB, et al; Surgical Clinical Outcome REsearch (SCORE) Group. Randomize, double-blinded, placebo-controlled trial of fibrinogen concentrate supplementation after complex cardiac surgery. J Am Heart Association 2015; 4: e002066.
References_xml	– reference: 4) Innerhofer P, Kienast J. Principles of perioperative coagulopathy. Best Pract Res Clin Anaesthesiol 2010; 24: 1-14. – reference: 7) 「血液製剤の使用指針」（平成29年3月改訂版）厚生労働省医薬・生活局 http://www.mhlw.go.jp/file/06-Seisakujouhou-11120000-Iyakushokuhinkyoku/0000161115.pdf（最終アクセス2021年3月18日） – reference: 11) Ogawa S, Tanaka KA, Nakajima Y, et al. Fibrinogen measurements in plasma and whole blood: a performance evaluation study of the dry-hematology system. Anesth Analg. 2015; 120: 18-25. – reference: 9) Imai K, Kotani T, Nakano T, et al. Clinical utility and limitations of FibCare® for the rapid measurement of fibrinogen concentrations: The first clinical experience. Taiwan J Obstet Gynecol 2018; 57: 899-900. – reference: 12) Suzuki S, Tamura T, Hasegawa K, et al. Fibrinogen levels measured by the dry hematology method are lower than those measured by the Clauss method under a high concentration of heparin. Nagoya J Med Sci. 2019; 81: 259-267. – reference: 14) Ranucci M, Di Dedda U, Baryshnikova E. Trials and tribulations of viscoelastic-based determineation of fibrinogen concentration. Anesth Analg. 2020; 130: 644-653. – reference: 2) Rahe-Meyer N, Pichlmaier M, Haverich A, et al. Bleeding management with fibrinogen concentrate targeting a high-normal plasma fibrinogen level: a pilot study. Br J Anaesth 2009; 102: 785-792. – reference: 10) Levy JH, Welsby I, Goodnough LT. Fibrinogen as a therapeutic target for bleeding: a review of critical levels and replacement therapy. Transfusion. 2014; 54: 1389-1405. – reference: 6) Rahe-Meyer N, Hanke A, Schmidt DS, et al. Fibrinogen concentrate reduces intraoperative bleeding when used as first line hemostatic therapy during major aortic replacement surgery: results from a randomized, placebo−controlled trial. J Thoracic Cardiovascular Surg 2013; 145: S178-185. – reference: 8) Solomon C, Cadamuro J, Ziegler B, et al. A comparison of fibrinogen measurement methods with fibrin clot elasticity assessed by thromboelastometry, before and after administration of fibrinogen concentrate in cardia surgery. Transfusion 2011; 51: 1695-1706. – reference: 3) Whelihan MF, Kiankhooy A, Brummel-Ziedins KE. Thrombin generation and fibrin clot formation under hypothermic conditions: an in vitro evaluation of tissue factor initiated whole blood coagulation. J Crit Care. 2014; 29: 24-30. – reference: 13) 心臓血管麻酔における血液粘弾性検査の使用指針（2019年6月30日改訂版）日本心臓血管麻酔学会 http://www.jscva.org/files/guideline/%E5%BF%83%E8%87%93%E8%A1%80%E7%AE%A1%E9%BA%BB%E9%85%94%E3%81%AB%E3%81%8A%E3%81%91%E3%82%8B%E8%A1%80%E6%B6%B2%E7%B2%98%E5%BC%BE%E6%80%A7%E6%A4%9C%E6%9F%BB%E3%81%AE%E4%BD%BF%E7%94%A8%E6%8C%87%E9%87%9D.pdf?1616160779（最終アクセス2021年3月18日） – reference: 15) Seo H, Choi JH, Moon YJ, et al. FIBTEM of thromboelastometry does not accurately represent fibrinogen concentration in patients with severe hypofibrinogenemia during liver transplantation. Ann Transplant. 2015; 20: 342-350. – reference: 1) Sniecinski RM, Chandler WL. Activation of the hemostatic system during cardiopulmonary bypass. Anesth Analg 2011; 113: 1319-1333. – reference: 5) Ranucci M, Baryshnikova E, Crapelli GB, et al; Surgical Clinical Outcome REsearch (SCORE) Group. Randomize, double-blinded, placebo-controlled trial of fibrinogen concentrate supplementation after complex cardiac surgery. J Am Heart Association 2015; 4: e002066.
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Title	人工心肺を使用した心臓血管手術におけるFibCare®を用いたフィブリノゲン濃度測定の精度評価
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