syngo.via MI Cardiology syngo.MBF VB30

Singo MBF provides visualization, assessment and quantification of pet images. The application performs quantitative measurements of the tracer uptake overtime to support the interpretation of either ammonia or rubidium PET stress and or rest dynamic myocardial datasets. For more information on Singo MBF and its functionality, visit the help file. Always use this operator manual to familiarize yourself with the acquisition. Requirements and the analysis methods as described to access the help file, left click on the help menu and select online health. The single MFA application includes two main features, data set up and analysis. The data set is usually done automatically. The long axis and base and apex planes of the heart are also defined automatically. This can be changed manually if you are not happy with the automatic placement. First place the apple and basal plane to begin center the Chamber of the myocardium by holding the left mouse button. On the short axis image and panning the image until the chamber is centered on the crosshair. To set the Apple plane, hold the left mouse button and drag the line to the appropriate location to set the basal plane, hold the left mouse button and drag the line to the appropriate location. If the image needs to be rotated on its axis, move the cursor toward the edge of the segment until two arrows forming a circle are visualized on the cursor. Hold the left mouse button and move the mouse to the left or right. To rotate the image, either repeat the above steps. For the resting examination or the parameters from stress can be copied to the rest. To copy the parameters, right click on the bracket and select copy long axis to rest. You can revert back to the original automatic long access placement by selecting reset long access location from the edit menu, or click the reset button. By default, the automatic window level of each frame of a dynamic series is applied. This saves adjustment time, reduces the performance of repetitive tasks, and prevents the display of over saturated frames. Any manual adjustment switches off the automatic window level feature to change the window level, left click and drag the top or bottom sliders. Or left click and drag the center slider. To turn the automatic window level on again, select set automatic window level from the edit menu. Or click the button from the toolbar or simply press control plus W on the keyboard. Advanced options are also available in Cinco MBF such as high motion correction, residual activity correction for both stress and rest and rate pressure product normalization. By default, Cinco MBF will attempt to correct motion between dynamic frames when you feel that the fault correction is insufficient for a particular case, you can select a high motion correction to determine if residual activity correction is needed. The beginning frames of both the stress and rest datasets will need to be visualized to scroll the image, move the cursor over the frame text. The text will change to green, indicating it is selected. Hold the left mouse button and pull the mouse toward you to scroll to the 1st frame. If residual activity is visualized in the myocardium, residual activity correction for stress could be turned on. To check the rest data set, click and hold on the frame text and move the mouse towards you to scroll to the 1st frame. To visualize any residual activity. If rate pressure product normalization has to be applied, select normalize using rate pressure product. Normalized by rate pressure product, RPP provides a function to normalize the rest flow quantification results and thereby the coronary flow reserve by means of the product of heart rate and blood pressure. This normalization allows the user to more accurately compare rest values with stress values without any pseudo stress effects caused by high heart rate or blood pressure. In addition, normalization in this way enables the comparison of values between patients with physiological differences. Enter the rest heart rate and the rest systolic blood pressure. The rate pressure product is calculated and displayed in the rate pressure product field to change their rate pressure product threshold, click the edit button and type the value of the rate pressure product threshold. Click the set button. The new value for the rate pressure product threshold. But to process the data set up for quantitative analysis, click on process. This opens the analysis screen. The analysis screen shows the short axis horizontal, long axis and vertical long axis. Stress and rest images, perfusion polar plots, normalized, as well as flow and reserve polar plots, are also displayed. The lower left portion of the screen provides a table with flow and reserve quantification results for the left anterior descending the left circumflex and right coronary arteries. A global result is also provided. The table. Indicates that normalized rest mean values and reserve mean values with an asterisk. The data input for the normalization rest heart rate rest systolic blood pressure rate, pressure, product rate, pressure product threshold are displayed in a legend under the table. To toggle between normalized and non normalized display, click the button on the toolbar. If the data set needs to be reprocessed, select the reprocess icon. This takes you back to the initial data set up screen. If adjustment is needed, restart the quantitative analysis by clicking the process button again. The graph provides activity curves for each data set, a tissue uptake curve for selected segment with intensity and Blackwell per milliliter overtime, as well as time activity curves for the blood input and a global LV time activity curve. The global time activity curve represents the amount of tracer for the entire myocardium. A white outline indicates the extent of the myocardium. This is the segmentation overlay this overlay. Can be hidden when the segmentation overlay is shown. The blood input region of interest is also shown as a green square. This is the area used to derive the blood input in the ventricle. This region of interest is statistically placed. To scroll through the slices, move the cursor into the desired frame of reference and move the center scroll wheel forward or backwards to scroll through the slices. To visualize the flow results of a particular region of the ventricle, simply left click on the area of interest. Notice that on the polar plots, a segment is highlighted in the lower left corner of the Polar Plot segment. The segment flow values for stress, rest and reserve are provided. The graph will also update providing a visualization of the uptake into the particular segment. Also, by holding the left mouse button and moving the cursor around the ventrical, a specific region can be found and visualized. To place an overlay on the polar plots, left click on the overlay icon to select a 20 segment or three segment model. If the patient information needs to be removed for privacy reasons, for example, and external presentation, simply click on the hide patient information to remove the patient name and medical record number. To remove the series information, click on the series information icon. Inaccurate values should be identified through the side, whether values are reliable or not. The spillover factor value is an important indicator of the accuracy of the kinetic modeling used to compute the value. For example, in case of high motion or infarcted myocardium tissues. A high F number can be an indicator that the myocardial blood flow and the reserve values are not accurate. Select spillover factor through the Polar Plot overlay menu option. The spillover factor for each voxel that falls above the set threshold appears as a green overlay on the polar plots. When a segment inside the polar Plot is selected, the spillover value is displayed in the bottom right corner. Values above the threshold are displayed in red. If any region is above the threshold in either stress or rest, those regions will also be represented on the reserve flood. The spillover factors are also displayed in the statistics table. The table displays the average spillover factor values instead of the standard deviation to set a threshold, select the configure polar plots option from the edit menu. In the spillover factor threshold field and set the desired value for the new threshold. To create a new database, left click on the create new database icon. The dialog box will ask for a database name, description, and patient study criteria. As mentioned earlier, Sinko MBF will work with both ammonia and rubidium data. Also, select the gender and the type. Once all data has been input, click on OK to create the database. To create a screen capture of the image, click on the screen capture icon. A dialog box populates indicating the screen capture has been created. Click OK to accept the screen capture is saved in the series navigator. Double click on the snapshot icon to view the screen capture.

Uptake Eile SIEMENS . SIEMENS SIEMENS • SIEMENS Ml cardio dyn 1 Stress : (AC) : 3/29/10 16:290:20 : RN3ionuchide Total Dose 3700 MBq Rtrest : (AC) : 3/29/10 16: 10: 15 : Radionuclide Total Dose 370.0 MBq : (АС) : 3/29/10 16: 1015 : Radionuchde Тои Dose 370.0 МВЧ Rtrest : (AC) : 3/29/10 16:10: 15 : Radionuclide Total Dose 370.0 MBq Rest : (AC) : 3/29/10 16: 10: 15 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 329/10 : RN3ionuclide Total Dose 3700 MBq Ml cardio NH3 1 HeoLthineers Healthineers Heoltnineers : Healthineers • 101.1943 • Ml cardio N... Ml cardio N... Rest : (AC) : 3/29/10 : Radionuclide Total Dose 370.0 MBq to 101.1943 • 01.01.1943 • 01.01.1943 M • 0101.1943 • M • M _"_cardio_Nm Healthineers : • М •01.01.1943М Cardio Н 01.1943 М Cardio Ml cardio N... Н... LCX Uptake uptake : : 067У : 1/1/43 : М : Unknown ВИ : РЕПИНАМ EiIe Не EiIe Е Help : : : 1,'1/43 : M : Unknown : PETIUNAM : 067Y : M : unknown B" : PETIUNAM : 067Y : M : Unknown B" : PETIUNAM : : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : 1 : 067Y : 1/ 1/43 : M : Unknown BMI : PET/UNAM : _dyn_l : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : _W_ _NH3_dyn_1 : 06 : 1/ 1/43 : M : Unknown BMI : PET/UNAM : : 067M : 1/1/43 : M : Unknown BMI : PET/UNAM : _W_ _NH3_dyn_1 : 067Y : 1/ 1143 : M : Unknown BMI : PET/UNAM : _W_ _NH3_dyn_1 : 06 : 1/ : M : Unknown BMI : PET/UNAM : _dyn_ : 067У : 1/1/43 : M : Unknown BИI : PET/UNAM : _ 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : _W_ _NH3_dyn_1 : 067Y : 1/ : M : Unknown BMI : PET/UNAM : _rdioNH3dyn_ : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : _W_ _NH3_dyn_1 : 067Y : 1/ 1/43 : M : Unknown BMI : PET/UNAM : _W_cardio_NH3_dyn_1 : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : 1 : 067Y : 1/ 1, '43 : M : Unknown BMI : PET/UNAM : : 067У : 1/1/43 : М : Unknown ВИ : РЕПИНАМ _NH3_dyn_1 : 067Y : 1/1/43 : M : Unknown : PET/UNAM : 1 : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : H3_dyn_ldio : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : 067Y : 1/1/43 : M : Unknown : PET/UNAM : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM 067Y 1/1/43 M Unknown gMl PE TJUNAM 067Y M Unknown BMI PE TJUNAM 067Y 1/1/43 M Unknown BMI PETjUNAM ; ; 1/1/43 ; M BMI ; ; 1/1/43 ; M ; ; ; 1/1/43 ; M BMI ; : : 067M : 1/1/43 : M : Unknown BMI : PET/UNAM : : 067M : 1/1/43 : M : Unknown BMI : PETUNA : : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : : 067M : 1/1/43 : M : Unknown BMI : PEW/UNAM (AC) ; Stress : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Stress : dyn_Arnmoma_Stress (AC) : 329/10 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 329/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Stress : dyn_Arnmoma_Stress (AC) : 329/10 16:29:20 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 329/10 16:290:20 : RN3ionucIide Total Dose 3700 MBq Stress : dyn_Ammoma_Stress (AC) : 329/10 : RN3ionucIide Total Dose 3700 MBq Stress : (AC) : 329/10 : RN3ionucIide Dose 3700 MBq Stress : (AC) : 3/29/10 16:290:20 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 3/29/10 : RN3ionucIide Total Dose 3700 MBq Stress : dyn_Ammoma_Stress (AC) : 329/10 16:29:20 : Radionuclide Total Dose 3700 MBq Stress : dyn_Arnmoma_Stress (AC) : 16:29:20 : Radionuclide Total Dose 3700 MBq Rtrest : (AC) : 329/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Rtrest : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3/29/10 16:290:20 : Radionuclide Total Dose 3700 MBq Stress : dyn_Ammoma_Stress (AC) : 329/10 16:29:20 : RN3ionucIide Total Dose 3700 MBq Stress : (AC) : 329/ 10 16: 10:15 : RN3ionuclide Total Dose 3700 MBq Stress : (AC) : 329/10 16: 10:15 : RN3ionucIide Total Dose 3700 MBq Stress : (AC) : 3/29/10 : 2920 : Dose 3700 MBq Stress : dyn_Arnmoma_Stress (AC) : 329/10 : RN3ionucIide Total Dose 3700 MBq Stress : (AC) : 3/29/10 16:290:20 : RN3ionucIide Total Dose 3700 MBq Rtrest : (AC) : 3,'29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3/29/10 16: 10 15 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 3/29/10 16:290:20 : RN3ionuchide Total Dose 3700 MBq Rest : (AC) : 16: 10:15 : Radionuclide Tota Dose 3700 MBq Stress : (AC) : 3/29/10 16:290:20 : RN3ionucIide Total Dose 370.0 MBq Stress : (AC) : 3/29/10 16: :0:15 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3'29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3629/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Rtrest : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 370.0 МВЧ Stress Rtrest : (AC) : 329/10 16:290:20 : Radionuclide Total Dose 3100 MBq Stress : (AC) : : Stress : (AC) : 3/:29/10 : RN3ionucIide Dose 3700 MBq Rtrest : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 3/:29/10 : Radionuchide Total Dose 3700 MBq Stress : dyn_Ammoma_Stress (AC) : 329/10 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3/29/10 16: 10:15 : RN3ionucIide Total Dose 3700 MBq select Stress : dyn_Amnmomia_Stress (AC) : 3/29/10 16:29:20 : Radionuclide Total Dose 3700 MBq Rest : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq (AC) 10 162920 : Radionuclide Total Dose MBq ; (AC) ; ; MBq ; (AC) ; ; 370, O MBq 162920 : Radionuclide Total Dose 3700 MBq : Radionuclide Total Dose 3700 MBq stress : (AC) : 3/29/10162920 : Radionuclide Total 370.0 MBq : : 067M : 1/1/43 : M : Unknown BMI : PET/UNAM : : 067У : 1ЛШ3 : М : ипкпо•.мп ВИ : РЕПИНАМ : ardioNH3dyn1 : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : : : ШШЗ : М : ипкпоъмп ВИ : РЕТШМАМ : : : ШШЗ : М : : : : ШШЗ : М : ипкпоъмп ВИ : РЕТШИМ : : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : : : 1/1/43 : М : ипкпоъмп ВИ : РЕТШМАМ : : : ШШЗ/43 : М : ипкпоъмп ВИ : РЕТШИМ : : : 1/1/43 : М : : : : Ш/1ШЗ : М : ипкпоъмп ВИ : РЕТШМАМ : : : : М : ВИ : РЕПИНАМ : : 067Y : 1/1/43 : M : unknown BMI : PET/UNAM : : : 1/1Ш3 : М : ипкпоъмп ВИ : РЕТШИАМ : 1 : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM : : 1/1/43 : M : unknown : PET/UNAM unknown : РЕПИНАМ Sess : (AC) : 3/29/10 16: 10:15 : Radionuclide Dose 370.0 MBq Stress : (AC) : 329/10 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3/29/10 : 2920 : Dose 370.0 MBq Stress : (AC) : 3/29/10 162920 : Dose 370.0 MBq Stress : (AC) : 3/29/10 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 329/10 : RN3ionucIide Dose 3700 MBq Stress : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3629/10 16: 10 : Radionuclide Total Dose 3700 MBq Rtrest : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 3/29/10 : Radionuclide Tota Dose 3700 MBq Stress : (AC) : 1629910 : Radionuclide Total Dose 3700 MBq Rest : (AC) : 329/10 16: 10:15 : Radionuclide Dose 3700 MBq stress : (АС) : 3/29/10 16:2920 : Тот МВС; Stress : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 370.0 MBq : : Об7У : 1/1/43 : М : ипкпо•м-, : РЕПИНАМ : 067У : 1/1/43 : М : Unknown ВИ : РЕПИНАМ : : 067M : 1/1/43 : M : Unknown BMI : PET/UNAM : : 067У : 1/1/43 : M : Unknown BИI : PET/UNAM : 067У : 1/1/43 : М : Unknown ВИ : РЕПИНАМM : : 067У : 1/1/43 : М : Unknown ВИ : РЕПИНАМ : : 067M : 1/1/43 : M : Unknown BMI : ИШЗ : М : ВЖ : РЕПИНАМ 11/43 : M : Unknown BMI : PET/UNAM : : 067Y : 1/1/43 : M : Unknown BMI : PET/UNAM Stress : (AC) : 3/29/10 : Radionuclide Total Dose 370.0 MBq stress : (АС) : 3/29/10 16:2920 : Тот зто_о МВС; stress : (АС) : 3/29/10 16:2920 : Тот МВС; stress : (АС) : 3/29/10 16:2920 : Тот stress : (АС) : 3/29/10 : Тот МВЧ stress : (АС) : 3/29/10 16:2920 : Тот зто_о МВЧ; stress : (АС) : 3/29/10 16: Тот : stress : (АС) : 3/29/10 : Stress : (AC) : 3/29/10 : 2920 : Dose 3700 MBq stress : (АС) : 3/29/10 16:2920 : МВС; stress : (AC) : 3/29/10 16:2920 Rest : (AC) : 3/29/10 16: 90:15 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 3/29/10 16:29:20 : Radionuclide Total Dose 370.0 MBq stress : (АС) : 3/29/10 : МВС; 10 16:2920 : Radionuclide Dose 370.0 o. stress : (АС) : 3129/10 : ТоИ МВЧ High 20 : Тот Dose МВЧ 20 : Тот Dose 370.0 15 : ТоИ Dose МВЧ Radionuclide Total Dose 370.0 MBq Total Dose 3700 MBq Тои Dose МВЧ AWanced Options Аф•апсеб 0ptions Motion sep• sep- Нф МоЬоп Ио•оп Согтаоп Frame E Нф New Database Нф Motion RCA 2 Stess Stress Database Name My Oataoase 92/168 -Rest Rest Description Description Rest RCA SIEMENS Res•al Согтеаоп ) : 3/29/10 : Radionuclide Total Dose MBq Stress : (AC) : 3/29/10 : Radionuclide Total Dose 370.0 MBq Rest : (AC) : 329/10 6: 115 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3/29/10 : Radionuclide Total Dose 3700 MBq : Radionuclide Total Dose 3700 MBq : Radionuclide Total Dose MBq Sess : (AC) : 329/10 : Radionuclide Total Dose 3700 MBq Rest : (AC) : 329/10 16: 10:15 : Radionuclide Total Dose 3700 MBq : 3/29/10 16:10:15 : Radionuclide Total Dose 370.0 MBq _Rest (AC) : 3/29/10 10:15 : Total Dose 370.0 MBq Patienvstudy criteria criteria SBress Stress Stess Stocess Stess Rate SteSS Residual Activity Correcton ResiduaI Activity сопеаоп Uptake Normalized 3.04 3 07 uptake Rest : (AC) : 15 : Radionuc'de Total Dose 370.0 MBq : ТоИ oose МВЧ Res1 Rest -Rest -Res1 Reset ; 16: 15 : Dose Rest ; Rest ; ; 3/29/10 Dose Rate R Rate Rest Rest : (AC) : 329/10 : Total Dose 370.0 MBq Sess : (AC) : 16:29/10 : RN3ionucIide Dose 3700 MBq Rest : (AC) : 329/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Rtrest : (AC) : 329/10 : Radionuclide Total Dose 3700 MBq Rest : (AC) : 329/10 : Total Dose 3700 MBq Rtrest : (AC) : 3/29/10 : Total: Dose 370.0 MBq Rest : (AC) : 329/10 6: 115 : Radionuclide Total Dose 3700 MBq Rest : (AC) : 3'29/'10 : Total Dose 3700 MBq Rest : (AC) : 3'29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Rest : (AC) : 3'29/'10 16: 10:15 : Radionuclide Total Dose 370.0 MBq Tracer NH3 Age Range (years) Age Range (years) 18 Rest : (AC) : 329/10 16: 10:15 : RN3ionucIide Dose 3700 MBq Rtrest : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 370.0 MBq Stress : (AC) : 329/10 16: 10:15 : RN3ionucIide Total Dose 3700 MBq Rest : (AC) : 16: 10:15 : Radionuclide Tot* Dose 3700 MBq Rest : (AC) : 329/10 16: 10:15 : RadionucIide Dose 3700 MBq Stress : (AC) : 3/29/10 : 2920 : Dose 3700 MBq Rest : (AC) : 329/10 16: 10:15 : Radionuclide Dose 3700 MBq Rest : (AC) : 329/10 16: 10:15 : RN3ionucIide Dose 3700 MBq Stress : (AC) : 3/29/10 16: 10:15 : RN3ionucIide Total Dose 3700 MBq : (АС) : 3/29/10 16: 1015 : Radionuchde Тои Dose 370.0 МВЧ Stress : (AC) : 3/29/10 16:290:20 : Radionuclide Total Dose 3700 MBq Rest : (AC) : 329/10 16: Stress : (AC) : 329/10 16:290:20 : RN3ionucIide Total Dose 3700 MBq Rest : (AC) : 16: 10:15 : Rmfionuclide Dose 3700 MBq Stress : (AC) : 3/29/10 16: 10:15 : RN3ionucIide Total Dose 370.0 MBq Rest : (AC) : 32910 16: 10:15 : Radionuclide Tota Dose 3700 MBq Rtrest : (AC) : 3,'29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3/'29/10 16: 10:15 : RN3ionucIide Total Dose 3700 MBq : (АС) : 3/29/10 16: 1015 : Radionuchde Тои Dose 370,0 М Rest : (AC) : 329/10 16: 10:15 : Rmfionuclide Total Dose 3700 MBq : Radionuclide Total Dose MBq ) : 3/29/10 : Radionuclide Total Dose MBq 16: 15 : Dose MBq Rest Res1 Rat. R P. inif 85/168 base Rate Rate Rest : : 3/29/10 : Total Dose MBq Rest : (AC) : 3/29/10 : Total Dose MBq Gender НоттаКе Rate Presswe Normalize using Rate Pressure 00 on Ноттапе Rate Presswe Нем 0. Normalize using Rate Pressure Normalize using Rate pressure Healthineers O Female @CFR O CFR Resbng Н ем Rate Resting Heart Rate Resbng Нем Rate Reshng Heart Rate Reshing Heart Rate 1.14 16Лб 1Ы1б 16Лб Не 01.13. Д Rate Normalize using Rate pressure 3.04 Нате 1.6E5 @ Male Rate Rest : (АС) : 16/16 1Ы116 1.13 1Ы/16 16116 1.14 1.116 1.19 ResBng Systohc Вооб Reshng Systolic good Pre •sure Resbng Systolic pressure Flow (ml/g/min) Rest : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 370.0 MBq Resbng Systohc Вооб Resting Heart Rate Restinq Неай Rate Resbng Н ем Rate stinq Неай Rate tinq Неай Rate Rest : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq : (АС) : 3/29/10 16: 1015 : Radionuchde Тои Dose 370.0 МВЧ Stress : (AC) : 3/29/10 16: 10:15 : Radionuclide Total Dose 370.0 MBq Sess : (AC) : 16:29/10 : RN3ionucIide Total Dose 3700 MBq Rest : (AC) : 3/29/10 16: 10:15 : Radionuclide Tota Dose 370.0 MBq : (АС) : 3/29/10 16: 1015 : Radionuchde Тои Dose 370,0 МВЧ : (АС) : 3/29/10 16: 1015 : Radionuchde Тои Dose 370,0 МВч Rest : (AC) : 329/10 16: 10:15 : Radionuclide Dose 3700 MBq Rest : (AC) : 329/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 329/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Rest : (AC) : 3/29/10 16: 10: 15 : Radionuclide Total Dose 370.0 MBq Rest : (АС) : 3/29/10 16: 1015 : Radionuchide Тоиal Dose 370.0 МВЧ Stress : (AC) : 329/10 16:29:20 : RadionucIide Total Dose 3700 MBq Rest : (AC) : 3'29/10 16: 10:15 : Radionuclide Total Dose 3700 MBq Rtrest : (AC) : 3/29/10 16: 15 : Radionuclide Total Dose 3700 MBq Stress : (AC) : 3/29/10 : RadionucIide Dose 3700 MBq Rtrest : (AC) : 3/29/10 16:10 15 : Radionuclide Total Dose 370.0 MBq : (АС) : 3/29/10 16: 1015 : Radionuchde Тои Dose 3700 МВЧ 015 : Radionuchde Тои Dose 370.0 МВЧ • Radionuchde ТОИ Dose 370.0 MBq Radionuclide Total Dose 370.0 MBq Reserve Radionuchde [)ose 370,0 MBq : Radionuchide Tota1 Dose 3700 MBq 15 : ТоИ Dose МВЧ 20 : Тот Dose МВЧ sep Both O - stress Pressure Rate Stress Radionuchde Tota1 Dose 370.0 МВД : Radionuclide Total Dose MBq Radionuchde Tota1 Dose 3700 MBq Rest Resbng Systolic Blood pressure Resbng Systolic pressure Total Dose 370.0 Rate pressure 1.8E5 1.2E5 1 ,2E5 de Total Dose MBq ТоИ std dev. std dev. mean* Rate Pressure Product Rate Pressure Rate Pressure РгоТ'с1 Rate Pressure Threshold Rate pressure Threshold Rate pressure ,6E5 IE5 Frame 10000 2.34 1.13 1.319 1Ы16 2.60 2.65 2.70 Rate Rate pressure Threshold Rate Pressure Threshold R Rate 3.07 Rest Flow LCX 1.6E5 2.34 0.36 0.326 0.327 Те Не Flow OK Cancel Flow (ml/g/min) 85/168 92/168 Flow Reserve mean • Stress RCA Rest 3.04 0.327 0.26 mean' 2E4 4E4 8E4 mean mean' Normalized Normalized Res Global 3.04 3.07 1.319 1.19 1.313 1.20 1.13 2.60 1.2E5 036 1.6E5 1.4E5 0.15 0.415 0.15 3.04 1.313 40 Flow (ml/g/min) Ammonia Reserve 8E4 LCX LCX 3.04 RCA 3_oa RCA 3.14 3.04 100 bpm Frame 10000 Frame Stress -Rest -Res1 Rest Ammonia Resting HR std dev Global RCA RCA 3.04 RCA 3.04 3, 04 3.14 3.07 Global 3.07 Global Resting HR 100 born 0.40 mean' mean' Нате Resting Systolic BP ResBng Systohc Вооб 100 mmHg Rpp Threshold std dev. std dev mean Global Global 3.07 3.04 0.27 1.19 Global 3.07 Global 0.27 3.07 039 150 00 50 150 2.65 50 1.313 120 normalized Normalized Res 3.04 1.14 1.13 1.130 2.70 2.70 0.41 Frocess Process 16/16 16116 1Ы116 16116 Process 150 3.04 0.21 2.70 1.6E5 033 14:38 14:49 14:39