The Experts below are selected from a list of 507 Experts worldwide ranked by ideXlab platform
Keigo Endo - One of the best experts on this subject based on the ideXlab platform.
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Ventilation/perfusion ratios and simultaneous dual-radionuclide single-photon emission tomography with Krypton-81m and technetium-99m macroaggregated albumin
European journal of nuclear medicine, 1997Co-Authors: Y. Sando, Tomio Inoue, Ryozo Nagai, Keigo EndoAbstract:To date, there has been neither a good method to clarify the three-dimensional distribution of pulmonary ventilation/perfusion (V.A/Q.) ratios, nor a convenient way to assess V.A/Q. inequality. The purpose of this study was to develop a functional image of pulmonary V.A/Q. ratios based on data acquired with simultaneous dual-radionuclide single-photon emission tomography (SPET) and to assess V.A/Q. unevenness through the V.A/Q. histogram in patients with various pulmonary diseases. Dual-radionuclide SPET was performed with technetium-99m macroaggregated albumin (MAA) and Krypton-81m, with the patient in the supine position. After correction for linear cross-talk, the total acquisition counts of both radionuclides were equalized. The V.A/Q. ratio, which was calculated in each pixel by dividing the 81mKr count by the 99mTc-MAA count, was expressed as a V.A/Q. image. A histogram of the pixel number plotted against the V.A/Q. ratios was then produced and its centre of weight (CW) and standard deviation (SD) determined. Ten healthy volunteers and 46 patients [seven with pulmonary vascular disease (PVD), nine with pulmonary emphysema (PE), 18 with bronchogenic carcinoma and 12 with miscellaneous diseases] participated in this study. In normal volunteers, V.A/Q. ratios were generally even, but were slightly lower in dorsal regions. Patients with PVD had lobar and/or segmental areas with a high V.A/Q. ratio. Low V.A/Q. areas extended widely in patients with PE. Bronchogenic carcinoma exceeding 3 cm in diameter was detected as a very low V.A/Q. area. The SD of V.A/Q. ratios had a significant positive correlation both with A-aDO2 (r=0.64, P
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ventilation perfusion ratios and simultaneous dual radionuclide single photon emission tomography with Krypton 81m and technetium 99m macroaggregated albumin
European Journal of Nuclear Medicine and Molecular Imaging, 1997Co-Authors: Y. Sando, Tomio Inoue, Ryozo Nagai, Keigo EndoAbstract:To date, there has been neither a good method to clarify the three-dimensional distribution of pulmonary ventilation/perfusion (V.A/Q.) ratios, nor a convenient way to assess V.A/Q. inequality. The purpose of this study was to develop a functional image of pulmonary V.A/Q. ratios based on data acquired with simultaneous dual-radionuclide single-photon emission tomography (SPET) and to assess V.A/Q. unevenness through the V.A/Q. histogram in patients with various pulmonary diseases. Dual-radionuclide SPET was performed with technetium-99m macroaggregated albumin (MAA) and Krypton-81m, with the patient in the supine position. After correction for linear cross-talk, the total acquisition counts of both radionuclides were equalized. The V.A/Q. ratio, which was calculated in each pixel by dividing the 81mKr count by the 99mTc-MAA count, was expressed as a V.A/Q. image. A histogram of the pixel number plotted against the V.A/Q. ratios was then produced and its centre of weight (CW) and standard deviation (SD) determined. Ten healthy volunteers and 46 patients [seven with pulmonary vascular disease (PVD), nine with pulmonary emphysema (PE), 18 with bronchogenic carcinoma and 12 with miscellaneous diseases] participated in this study. In normal volunteers, V.A/Q. ratios were generally even, but were slightly lower in dorsal regions. Patients with PVD had lobar and/or segmental areas with a high V.A/Q. ratio. Low V.A/Q. areas extended widely in patients with PE. Bronchogenic carcinoma exceeding 3 cm in diameter was detected as a very low V.A/Q. area. The SD of V.A/Q. ratios had a significant positive correlation both with A-aDO2 (r=0.64, P<0.001) and with cigarette smoking history (r=0.72, P<0.001). It is concluded that the V.A/Q. ratio image produced with simultaneous dual-radionuclide SPET using 99mTc-MAA and 81mKr is a unique and simple method for demonstrating the three-dimensional distribution of V.A/Q. ratios. The unevenness of V.A/Q. distribution can be assessed through the SD of the V.A/Q. histogram.
Y. Sando - One of the best experts on this subject based on the ideXlab platform.
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Ventilation/perfusion ratios and simultaneous dual-radionuclide single-photon emission tomography with Krypton-81m and technetium-99m macroaggregated albumin
European journal of nuclear medicine, 1997Co-Authors: Y. Sando, Tomio Inoue, Ryozo Nagai, Keigo EndoAbstract:To date, there has been neither a good method to clarify the three-dimensional distribution of pulmonary ventilation/perfusion (V.A/Q.) ratios, nor a convenient way to assess V.A/Q. inequality. The purpose of this study was to develop a functional image of pulmonary V.A/Q. ratios based on data acquired with simultaneous dual-radionuclide single-photon emission tomography (SPET) and to assess V.A/Q. unevenness through the V.A/Q. histogram in patients with various pulmonary diseases. Dual-radionuclide SPET was performed with technetium-99m macroaggregated albumin (MAA) and Krypton-81m, with the patient in the supine position. After correction for linear cross-talk, the total acquisition counts of both radionuclides were equalized. The V.A/Q. ratio, which was calculated in each pixel by dividing the 81mKr count by the 99mTc-MAA count, was expressed as a V.A/Q. image. A histogram of the pixel number plotted against the V.A/Q. ratios was then produced and its centre of weight (CW) and standard deviation (SD) determined. Ten healthy volunteers and 46 patients [seven with pulmonary vascular disease (PVD), nine with pulmonary emphysema (PE), 18 with bronchogenic carcinoma and 12 with miscellaneous diseases] participated in this study. In normal volunteers, V.A/Q. ratios were generally even, but were slightly lower in dorsal regions. Patients with PVD had lobar and/or segmental areas with a high V.A/Q. ratio. Low V.A/Q. areas extended widely in patients with PE. Bronchogenic carcinoma exceeding 3 cm in diameter was detected as a very low V.A/Q. area. The SD of V.A/Q. ratios had a significant positive correlation both with A-aDO2 (r=0.64, P
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ventilation perfusion ratios and simultaneous dual radionuclide single photon emission tomography with Krypton 81m and technetium 99m macroaggregated albumin
European Journal of Nuclear Medicine and Molecular Imaging, 1997Co-Authors: Y. Sando, Tomio Inoue, Ryozo Nagai, Keigo EndoAbstract:To date, there has been neither a good method to clarify the three-dimensional distribution of pulmonary ventilation/perfusion (V.A/Q.) ratios, nor a convenient way to assess V.A/Q. inequality. The purpose of this study was to develop a functional image of pulmonary V.A/Q. ratios based on data acquired with simultaneous dual-radionuclide single-photon emission tomography (SPET) and to assess V.A/Q. unevenness through the V.A/Q. histogram in patients with various pulmonary diseases. Dual-radionuclide SPET was performed with technetium-99m macroaggregated albumin (MAA) and Krypton-81m, with the patient in the supine position. After correction for linear cross-talk, the total acquisition counts of both radionuclides were equalized. The V.A/Q. ratio, which was calculated in each pixel by dividing the 81mKr count by the 99mTc-MAA count, was expressed as a V.A/Q. image. A histogram of the pixel number plotted against the V.A/Q. ratios was then produced and its centre of weight (CW) and standard deviation (SD) determined. Ten healthy volunteers and 46 patients [seven with pulmonary vascular disease (PVD), nine with pulmonary emphysema (PE), 18 with bronchogenic carcinoma and 12 with miscellaneous diseases] participated in this study. In normal volunteers, V.A/Q. ratios were generally even, but were slightly lower in dorsal regions. Patients with PVD had lobar and/or segmental areas with a high V.A/Q. ratio. Low V.A/Q. areas extended widely in patients with PE. Bronchogenic carcinoma exceeding 3 cm in diameter was detected as a very low V.A/Q. area. The SD of V.A/Q. ratios had a significant positive correlation both with A-aDO2 (r=0.64, P<0.001) and with cigarette smoking history (r=0.72, P<0.001). It is concluded that the V.A/Q. ratio image produced with simultaneous dual-radionuclide SPET using 99mTc-MAA and 81mKr is a unique and simple method for demonstrating the three-dimensional distribution of V.A/Q. ratios. The unevenness of V.A/Q. distribution can be assessed through the SD of the V.A/Q. histogram.
Derek G. Waller - One of the best experts on this subject based on the ideXlab platform.
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Normal right ventricular systolic and diastolic function assessed by Krypton-81m equilibrium ventriculography
The International Journal of Cardiac Imaging, 1993Co-Authors: Richard M. Oliver, John S. Fleming, Keith D. Dawkins, Derek G. WallerAbstract:Krypton-81m equilibrium ventriculography was used to study right ventricular function in 23 healthy male volunteers. Technetium-99m lung perfusion scintigraphy was employed to subtract radionuclide activity within lung during image analysis thereby enhancing image quality. The imaging technique was used to generate a time-activity curve for the right ventricle allowing the definition of indices of normal systolic and diastolic function for the right ventricle. At rest, indices of systolic ejection and diastolic filling were comparable to those previously reported for the left ventricle. Using this imaging technique, movement artifact during exercise reduces image quality and limits accurate measurement of these indices to resting studies.
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Clinical InvestigationsRight Ventricular Function at Rest and During Exercise in Chronic Obstructive Pulmonary Disease: Comparison of Two Radionuclide Techniques
Chest, 1993Co-Authors: Richard M. Oliver, John S. Fleming, Derek G. WallerAbstract:Right ventricular function was assessed in 24 patients with COPD, at rest and during submaximal exercise, using both technetium-99m (99mTc) blood-pool and Krypton-81m (81mKr) equilibrium ventriculography. Technetium-99m right ventricular ejection fraction (RVEF) at rest was lower than 81mKr RVEF (0.39 +/- 0.12 and 0.54 +/- 0.08, respectively; p < 0.001). During submaximal exercise, there was no increase in RVEF using either imaging technique. This observation contrasted with an increase in RVEF in a group of age-comparable normal subjects during modest submaximal exercise. An inability to obtain spatial separation of right heart structures using 99mTc imaging leads to a value for RVEF that is consistently lower than that measured using 81mKr ventriculography. Resting RVEF is well preserved at rest in most patients with COPD. In contrast to normal subjects, many show an inability to augment right ventricular function during exercise that may contribute to the reduced exercise capacity observed in these patients.
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The effect of acute hypoxia on right ventricular function in healthy adults.
International journal of cardiology, 1991Co-Authors: Richard M. Oliver, John S. Fleming, Andrew J. Peacock, Vivian F. Challenor, Derek G. WallerAbstract:Abstract Right ventricular ejection fraction and right ventricular volumes were derived in 12 healthy male subjects using Krypton-81m equilibrium radionuclide ventriculography whilst subjects breathed 30% (high inspired oxygen) and then 8–12% oxygen in nitrogen mixture (hypoxia). ‘Physiological' tricuspid valve regurgitation was identified in 7 of the subjects by Doppler echocardiography, and right ventricular peak systolic pressure was estimated during high inspired oxygen and during hypoxia. Mean right ventricular peak systolic pressure was 24.1 ± 3.3 mmHg during high inspired oxygen and increased to 41.3 ± 8.4 mmHg during hypoxia ( P
Tomio Inoue - One of the best experts on this subject based on the ideXlab platform.
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Ventilation/perfusion ratios and simultaneous dual-radionuclide single-photon emission tomography with Krypton-81m and technetium-99m macroaggregated albumin
European journal of nuclear medicine, 1997Co-Authors: Y. Sando, Tomio Inoue, Ryozo Nagai, Keigo EndoAbstract:To date, there has been neither a good method to clarify the three-dimensional distribution of pulmonary ventilation/perfusion (V.A/Q.) ratios, nor a convenient way to assess V.A/Q. inequality. The purpose of this study was to develop a functional image of pulmonary V.A/Q. ratios based on data acquired with simultaneous dual-radionuclide single-photon emission tomography (SPET) and to assess V.A/Q. unevenness through the V.A/Q. histogram in patients with various pulmonary diseases. Dual-radionuclide SPET was performed with technetium-99m macroaggregated albumin (MAA) and Krypton-81m, with the patient in the supine position. After correction for linear cross-talk, the total acquisition counts of both radionuclides were equalized. The V.A/Q. ratio, which was calculated in each pixel by dividing the 81mKr count by the 99mTc-MAA count, was expressed as a V.A/Q. image. A histogram of the pixel number plotted against the V.A/Q. ratios was then produced and its centre of weight (CW) and standard deviation (SD) determined. Ten healthy volunteers and 46 patients [seven with pulmonary vascular disease (PVD), nine with pulmonary emphysema (PE), 18 with bronchogenic carcinoma and 12 with miscellaneous diseases] participated in this study. In normal volunteers, V.A/Q. ratios were generally even, but were slightly lower in dorsal regions. Patients with PVD had lobar and/or segmental areas with a high V.A/Q. ratio. Low V.A/Q. areas extended widely in patients with PE. Bronchogenic carcinoma exceeding 3 cm in diameter was detected as a very low V.A/Q. area. The SD of V.A/Q. ratios had a significant positive correlation both with A-aDO2 (r=0.64, P
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ventilation perfusion ratios and simultaneous dual radionuclide single photon emission tomography with Krypton 81m and technetium 99m macroaggregated albumin
European Journal of Nuclear Medicine and Molecular Imaging, 1997Co-Authors: Y. Sando, Tomio Inoue, Ryozo Nagai, Keigo EndoAbstract:To date, there has been neither a good method to clarify the three-dimensional distribution of pulmonary ventilation/perfusion (V.A/Q.) ratios, nor a convenient way to assess V.A/Q. inequality. The purpose of this study was to develop a functional image of pulmonary V.A/Q. ratios based on data acquired with simultaneous dual-radionuclide single-photon emission tomography (SPET) and to assess V.A/Q. unevenness through the V.A/Q. histogram in patients with various pulmonary diseases. Dual-radionuclide SPET was performed with technetium-99m macroaggregated albumin (MAA) and Krypton-81m, with the patient in the supine position. After correction for linear cross-talk, the total acquisition counts of both radionuclides were equalized. The V.A/Q. ratio, which was calculated in each pixel by dividing the 81mKr count by the 99mTc-MAA count, was expressed as a V.A/Q. image. A histogram of the pixel number plotted against the V.A/Q. ratios was then produced and its centre of weight (CW) and standard deviation (SD) determined. Ten healthy volunteers and 46 patients [seven with pulmonary vascular disease (PVD), nine with pulmonary emphysema (PE), 18 with bronchogenic carcinoma and 12 with miscellaneous diseases] participated in this study. In normal volunteers, V.A/Q. ratios were generally even, but were slightly lower in dorsal regions. Patients with PVD had lobar and/or segmental areas with a high V.A/Q. ratio. Low V.A/Q. areas extended widely in patients with PE. Bronchogenic carcinoma exceeding 3 cm in diameter was detected as a very low V.A/Q. area. The SD of V.A/Q. ratios had a significant positive correlation both with A-aDO2 (r=0.64, P<0.001) and with cigarette smoking history (r=0.72, P<0.001). It is concluded that the V.A/Q. ratio image produced with simultaneous dual-radionuclide SPET using 99mTc-MAA and 81mKr is a unique and simple method for demonstrating the three-dimensional distribution of V.A/Q. ratios. The unevenness of V.A/Q. distribution can be assessed through the SD of the V.A/Q. histogram.
Ryozo Nagai - One of the best experts on this subject based on the ideXlab platform.
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Ventilation/perfusion ratios and simultaneous dual-radionuclide single-photon emission tomography with Krypton-81m and technetium-99m macroaggregated albumin
European journal of nuclear medicine, 1997Co-Authors: Y. Sando, Tomio Inoue, Ryozo Nagai, Keigo EndoAbstract:To date, there has been neither a good method to clarify the three-dimensional distribution of pulmonary ventilation/perfusion (V.A/Q.) ratios, nor a convenient way to assess V.A/Q. inequality. The purpose of this study was to develop a functional image of pulmonary V.A/Q. ratios based on data acquired with simultaneous dual-radionuclide single-photon emission tomography (SPET) and to assess V.A/Q. unevenness through the V.A/Q. histogram in patients with various pulmonary diseases. Dual-radionuclide SPET was performed with technetium-99m macroaggregated albumin (MAA) and Krypton-81m, with the patient in the supine position. After correction for linear cross-talk, the total acquisition counts of both radionuclides were equalized. The V.A/Q. ratio, which was calculated in each pixel by dividing the 81mKr count by the 99mTc-MAA count, was expressed as a V.A/Q. image. A histogram of the pixel number plotted against the V.A/Q. ratios was then produced and its centre of weight (CW) and standard deviation (SD) determined. Ten healthy volunteers and 46 patients [seven with pulmonary vascular disease (PVD), nine with pulmonary emphysema (PE), 18 with bronchogenic carcinoma and 12 with miscellaneous diseases] participated in this study. In normal volunteers, V.A/Q. ratios were generally even, but were slightly lower in dorsal regions. Patients with PVD had lobar and/or segmental areas with a high V.A/Q. ratio. Low V.A/Q. areas extended widely in patients with PE. Bronchogenic carcinoma exceeding 3 cm in diameter was detected as a very low V.A/Q. area. The SD of V.A/Q. ratios had a significant positive correlation both with A-aDO2 (r=0.64, P
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ventilation perfusion ratios and simultaneous dual radionuclide single photon emission tomography with Krypton 81m and technetium 99m macroaggregated albumin
European Journal of Nuclear Medicine and Molecular Imaging, 1997Co-Authors: Y. Sando, Tomio Inoue, Ryozo Nagai, Keigo EndoAbstract:To date, there has been neither a good method to clarify the three-dimensional distribution of pulmonary ventilation/perfusion (V.A/Q.) ratios, nor a convenient way to assess V.A/Q. inequality. The purpose of this study was to develop a functional image of pulmonary V.A/Q. ratios based on data acquired with simultaneous dual-radionuclide single-photon emission tomography (SPET) and to assess V.A/Q. unevenness through the V.A/Q. histogram in patients with various pulmonary diseases. Dual-radionuclide SPET was performed with technetium-99m macroaggregated albumin (MAA) and Krypton-81m, with the patient in the supine position. After correction for linear cross-talk, the total acquisition counts of both radionuclides were equalized. The V.A/Q. ratio, which was calculated in each pixel by dividing the 81mKr count by the 99mTc-MAA count, was expressed as a V.A/Q. image. A histogram of the pixel number plotted against the V.A/Q. ratios was then produced and its centre of weight (CW) and standard deviation (SD) determined. Ten healthy volunteers and 46 patients [seven with pulmonary vascular disease (PVD), nine with pulmonary emphysema (PE), 18 with bronchogenic carcinoma and 12 with miscellaneous diseases] participated in this study. In normal volunteers, V.A/Q. ratios were generally even, but were slightly lower in dorsal regions. Patients with PVD had lobar and/or segmental areas with a high V.A/Q. ratio. Low V.A/Q. areas extended widely in patients with PE. Bronchogenic carcinoma exceeding 3 cm in diameter was detected as a very low V.A/Q. area. The SD of V.A/Q. ratios had a significant positive correlation both with A-aDO2 (r=0.64, P<0.001) and with cigarette smoking history (r=0.72, P<0.001). It is concluded that the V.A/Q. ratio image produced with simultaneous dual-radionuclide SPET using 99mTc-MAA and 81mKr is a unique and simple method for demonstrating the three-dimensional distribution of V.A/Q. ratios. The unevenness of V.A/Q. distribution can be assessed through the SD of the V.A/Q. histogram.
