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Image display software

Manufactured by Siemens
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The Siemens Image Display Software is a digital imaging solution designed to provide clear and accurate visualization of medical images. The software's core function is to enable the display and manipulation of various medical imaging modalities, including radiological scans, without interpreting or extrapolating the intended use.

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Lab products found in correlation

Inveon micropet ct scanner, by Siemens (2 mentions)

Close spelling variants of this product

Inveon Research Workstation image display software (4 citations)

2 protocols using image display software

1

FDG-PET Imaging of Tumor Uptake in Mice

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FDG-PET imaging was performed on untreated mice on day 15 and on treated mice on day 30. The mice were fasted for 6 h before each scan and clinical grade FDG was obtained from the Washington University Cyclotron Facility. After anesthetizing the mice with 1.5–2% Isoflurane and Oxygen, 0.19 mCi (7.03 MBq)/0.1 ml of FDG was administered intravenously. Small animal PET imaging was performed at 1h post injection using Inveon MicroPET/CT scanner (Siemens, Knoxville, TN). A 10-minute transition scan was performed just before the10-minute static PET images were acquired. The images were registered with the image display software (Inveon Research Workplace, Siemens, Knoxville, TN). Using this software, the tumour region was contoured and the standard uptake values (SUVs) were calculated as follows: SUV = [(mCi/ml)×(animal weight (g))/(injected dose (mCi)].
Kotagiri N., Sudlow G.P., Akers W.J, & Achilefu S. (2015). Breaking the Depth Dependency of Phototherapy with Cerenkov Radiation and Low Radiance Responsive Nanophotosensitizers. Nature nanotechnology, 10(4), 370-379.
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2

FDG-PET Imaging of Tumor Uptake in Mice

Check if the same lab product or an alternative is used in the 5 most similar protocols
FDG-PET imaging was performed on untreated mice on day 15 and on treated mice on day 30. The mice were fasted for 6 h before each scan and clinical grade FDG was obtained from the Washington University Cyclotron Facility. After anesthetizing the mice with 1.5–2% Isoflurane and Oxygen, 0.19 mCi (7.03 MBq)/0.1 ml of FDG was administered intravenously. Small animal PET imaging was performed at 1h post injection using Inveon MicroPET/CT scanner (Siemens, Knoxville, TN). A 10-minute transition scan was performed just before the10-minute static PET images were acquired. The images were registered with the image display software (Inveon Research Workplace, Siemens, Knoxville, TN). Using this software, the tumour region was contoured and the standard uptake values (SUVs) were calculated as follows: SUV = [(mCi/ml)×(animal weight (g))/(injected dose (mCi)].
Kotagiri N., Sudlow G.P., Akers W.J, & Achilefu S. (2015). Breaking the Depth Dependency of Phototherapy with Cerenkov Radiation and Low Radiance Responsive Nanophotosensitizers. Nature nanotechnology, 10(4), 370-379.
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