Kyeong-Min Kim, D. Lee, June-Key Chung, M. Lee, Yong Jin Kim
{"title":"门控心肌SPECT和动脉压眼压计无创测量左心室收缩力","authors":"Kyeong-Min Kim, D. Lee, June-Key Chung, M. Lee, Yong Jin Kim","doi":"10.1109/IEMBS.1998.745960","DOIUrl":null,"url":null,"abstract":"For the estimation of left ventricular (LV) contractility, the fully noninvasive measurement of the maximum elastance (E/sub max/) from the steady-state single loop of end systolic pressure volume relation (ESPVR) is attempted. For 32 patients with coronary artery disease, we performed the gated myocardial SPECT with the simultaneous measurement of radial artery pressure using automated tonometer. The left ventricular volume generated from quantitative gated SPECT (QGS) program of SPECT and the central aortic pressure transferred from radial artery pressure measured by automated tonometer were used to make a pressure-volume (PV) loop. With a single PV loop, E/sub max/, was calculated using (1) single PV loop estimation method based on the consistency of normalized elastance curve and (2) regression method based on time-linearity of elastance, respectively. The values of E/sub max/ by the first method were distributed within the range (2.3-5.3) and showed the independence on calculation trials and initial condition for iterative calculation. Normalized elastance curves were consistent for all patients. The E/sub max/ and V/sub 0/ for PV data from sequential gated SPECT acquisition showed the consistent value, respectively (r=0.91 for E/sub max/, r=0.99 for V/sub 0/). The values of E/sub max/ by the second method were within (0.7-5.1) and showed the linear relationship (E/sub max normalized/=2.15/spl times/E/sub max linear/+0.45, r=0.64, p<0.001) with E/sub max/ by the first method. Despite of the lack of comparison with multiple PV loop method, we found the clinical feasibility of this fully noninvasive E/sub max/, estimation method. Therefore, we concluded that E/sub max/ obtained by this methods could be useful for assessment of LV contractility.","PeriodicalId":156581,"journal":{"name":"Proceedings of the 20th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. Vol.20 Biomedical Engineering Towards the Year 2000 and Beyond (Cat. No.98CH36286)","volume":"68 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"1998-10-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":"{\"title\":\"Noninvasive measurement of left ventricular contractility using gated myocardial SPECT and arterial pressure tonometer\",\"authors\":\"Kyeong-Min Kim, D. Lee, June-Key Chung, M. Lee, Yong Jin Kim\",\"doi\":\"10.1109/IEMBS.1998.745960\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"For the estimation of left ventricular (LV) contractility, the fully noninvasive measurement of the maximum elastance (E/sub max/) from the steady-state single loop of end systolic pressure volume relation (ESPVR) is attempted. For 32 patients with coronary artery disease, we performed the gated myocardial SPECT with the simultaneous measurement of radial artery pressure using automated tonometer. The left ventricular volume generated from quantitative gated SPECT (QGS) program of SPECT and the central aortic pressure transferred from radial artery pressure measured by automated tonometer were used to make a pressure-volume (PV) loop. With a single PV loop, E/sub max/, was calculated using (1) single PV loop estimation method based on the consistency of normalized elastance curve and (2) regression method based on time-linearity of elastance, respectively. The values of E/sub max/ by the first method were distributed within the range (2.3-5.3) and showed the independence on calculation trials and initial condition for iterative calculation. Normalized elastance curves were consistent for all patients. The E/sub max/ and V/sub 0/ for PV data from sequential gated SPECT acquisition showed the consistent value, respectively (r=0.91 for E/sub max/, r=0.99 for V/sub 0/). The values of E/sub max/ by the second method were within (0.7-5.1) and showed the linear relationship (E/sub max normalized/=2.15/spl times/E/sub max linear/+0.45, r=0.64, p<0.001) with E/sub max/ by the first method. Despite of the lack of comparison with multiple PV loop method, we found the clinical feasibility of this fully noninvasive E/sub max/, estimation method. 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Noninvasive measurement of left ventricular contractility using gated myocardial SPECT and arterial pressure tonometer
For the estimation of left ventricular (LV) contractility, the fully noninvasive measurement of the maximum elastance (E/sub max/) from the steady-state single loop of end systolic pressure volume relation (ESPVR) is attempted. For 32 patients with coronary artery disease, we performed the gated myocardial SPECT with the simultaneous measurement of radial artery pressure using automated tonometer. The left ventricular volume generated from quantitative gated SPECT (QGS) program of SPECT and the central aortic pressure transferred from radial artery pressure measured by automated tonometer were used to make a pressure-volume (PV) loop. With a single PV loop, E/sub max/, was calculated using (1) single PV loop estimation method based on the consistency of normalized elastance curve and (2) regression method based on time-linearity of elastance, respectively. The values of E/sub max/ by the first method were distributed within the range (2.3-5.3) and showed the independence on calculation trials and initial condition for iterative calculation. Normalized elastance curves were consistent for all patients. The E/sub max/ and V/sub 0/ for PV data from sequential gated SPECT acquisition showed the consistent value, respectively (r=0.91 for E/sub max/, r=0.99 for V/sub 0/). The values of E/sub max/ by the second method were within (0.7-5.1) and showed the linear relationship (E/sub max normalized/=2.15/spl times/E/sub max linear/+0.45, r=0.64, p<0.001) with E/sub max/ by the first method. Despite of the lack of comparison with multiple PV loop method, we found the clinical feasibility of this fully noninvasive E/sub max/, estimation method. Therefore, we concluded that E/sub max/ obtained by this methods could be useful for assessment of LV contractility.
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