| 抄録 | It is known that the shape of arterial blood pressure waveform reflects the hemodynamic status, but quantitative analyses of waveform are seldom reported. In this study, the arterial pressure wave was recorded with an intra-arterial catheter and pressure transducer, converted to digital data, and stored in a computer. The data were analyzed by two methods of spectrum analyses, i.e., fast Fourier transform (FFT for both power spectrum and phase information) and the autoregressive model (ARM). Pressure waveforms during normotension were compared with pressure waveforms during hypotension induced by vasodilators (sodium nitroprusside and nitroglycerin) in the human study, and by the vasodilators, hemorrhage or 3% isoflurane in the animal study. Reconstruction of waveforms by inverse FFT was also performed, and compared with the original waveforms. FFT is more useful than ARM for analysis of data with known frequencies, such as respiratory and heart rates. Using inverse FFT, the wave can be reconstructed by the base frequency (heart rate) to 4th harmonic data with an error margin of less than 2%. The amplitude and phase information of heart rate frequency up to its 4th harmonic, and amplitude of respiratory frequency, were found to be the essential parameters to describe the shape of the arterial pressure waveform. |
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| 参考文献 | 1) 山崎陽之介,杵淵嘉夫,滝口 守:直接動脈圧測定(20年の臨床経験).臨床麻酔 (1995) 19, 1095-1108.
2) Kaplan JA : Cardiac anesthesia third edition. W. B. Saunders Company, Philadelphia (1993) pp53-58, pp261-269, pp1085-1089.
3) 奥村福一郎:循環系のモニターA-1 動脈圧;モニタリングから何が分かるか.諏訪邦夫,奥村福一郎編,中外医学社,東京 (1993) pp31-39.
4) 南 茂夫:科学計測のための波形データ処理.CQ 出版,東京 (1986) pp140-180.
5) 横山博俊,元塚郎子,岸槌進次郎,山本 健,小林 勉,村上誠一:動脈圧波形のフーリエ解析による検討.循環制御 (1990) 11, 353-357.
6) Akaike H : Power spectrum estimation through autoregressive model fitting. Ann Inst Stat Math (1969) 21, 407-419.
7) 笹木敬司,南慶一郎:自己回帰モデルによるスペクトルの推定と減衰信号の解析.インターフェース (1994) 20, 152-159.
8) Cerutti S, Alberti M, Baselli G, Rimoldi O, Malliani A, Merri M and Pagani M : Automatic assessment of the interaction between respiration and heart rate variability signal. Med Prog Technol (1998) 14, 7-19.
9) Billman GE and Dujardin JP : Dynanic changes in cardiac vagal tone as measured by time-series analysis. Am J Physiol (1990) 258, H896-902.
10) Kato M, Komatsu T, Kimura T, Sugiyama F, Nakashima K and Shimada Y : Spectral analysis of heart rate variability during isoflurane anesthesia. Anesthesiology (1992) 77, 669-674.
11) 斎藤智彦,太田吉夫,平川方久:逆フーリエ変換による動脈波形再合成の試み;麻酔・集中治療とテクノロジー1993,本多夏生ほか編,克誠堂出版,東京 (1993) pp48-50.
12) 池田和之,稲田 豊,沼田克雄,藤田昌雄,森健次郎,盛生倫夫,並木昭義,土田英昭,福島和昭,武田純三,天木嘉清,安田信彦,外丸輝明,武田昭平,大沼哲郎,島田康弘,下起 明,新井豊久,浦野博秀,畑埜義雄,伊良波浩,平川方久,太田吉夫,弓削孟文,前川隆英,吉村 望,原口正光,竹原哲彦,門田善民,中島光好,楠 正:低血圧麻酔におけるニトロプルシドナトリウム注射液 (MR7S1) とニトログリセリン注射液(ミリスロール注)の比較臨床試験.麻酔と蘇生 (1994) 30, 205-215.
13) 斎藤智彦,太田吉夫,平川方久:自己回帰モデル,FFT によるパワースペクトル解析プログラムの作成;麻酔・集中治療とテクノロジー1995,新井豊久ほか編,克誠堂出版,東京 (1995) pp24-27.
14) Akaike H : Statistical predictor identification. Ann Inst Stat Math (1970) 22, 203-217.
15) Perel A, Pizov R and Cotev S : Systolic blood pressure variation is a sensitive indicator of hypovolemia in ventilated dogs subjected to graded hemorrhage. Anesthesiology (1987) 67, 498-502.
16) Perel A : Cardiovascular assessment by pressure waveform analysis ; 1991 ASA annual refresher course lectures. San Francisco (1991) #264 ppl-7.
17) 藤里正視,大和田哲郎,稲葉英夫,水口公信:心拍変動からみた吸入麻酔薬の自律神経機能に与える影響.麻酔 (1994) 43, 665-671.
18) Stoelting RK : Pharmacology & Physiology in Anesthetic Practice 2nd edition. J. B. Lippincott Company, New York (1991) pp324-339.
19) Edwards JC, Ignarro LJ, Hyman AL and Kadowitz PJ : Relaxation of intrapulmonary artery and vein by nitrogen oxide-containing vasodilators and cyclic GMP. J Pharmacol Exp Ther (1984) 228, 33-42.
20)古謝武志,福崎好一郎,永田良一,馬越史歩,河井祥一郎,田村 隆,佐藤信勝:MR7S1(ニトロプルシドナトリウム(SNP)注射液)の無麻酔ビーグルにおける血圧降下作用.薬理と治療 (1994) 22 Suppl. 8, 251-262.
21) Ornstein E, Young WL, Ostapkovich N, Matteo RS and Diaz J : Deliberate hypotension in patients with intracranial arteriovenous malformations ; Esmolol compared with isoflurane and sodium nitroprusside. Anesth Analg (1991) 72, 639-644.
22) Geddes LA : The direct and indirect mesurement of blood pressure. Year Book Medical Publishers, Chicago (1970) pp46-66.
23) 杵淵嘉夫,鈴木利夫,山崎陽之介,山本道雄:カテーテルを用いた圧導出系の周波数特性とその評価法.循環制御 (1991) 12, 111-119.
24) Kubota T, Itaya R, Alexander J Jr., Todaka K, Sugimachi M and Sunagawa K : Autoregressive analysis of aortic input impedance : comparison with Fourier transform. Am J Physiol (1991) 260, H998-H1002.
25) Kuo TB and Chan SH : Continuous, on-line, real-time spectral analysis of systemic arterial pressure signals. Am J Physiol (1993) 265, H2208-H2213. |
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