Abdominal vessel depiction on virtual triphasic spectral detector CT: initial clinical experience
Purpose To evaluate vessel assessment in virtual monoenergetic images (VMI 40keV ) and virtual-non-contrast images (VNC) derived from venous phase spectral detector computed tomography (SDCT) acquisitions in comparison to arterial phase and true non-contrast (TNC) images. Methods Triphasic abdominal...
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| Vydáno v: | Abdominal imaging Ročník 46; číslo 7; s. 3501 - 3511 |
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| Hlavní autoři: | , , , , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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New York
Springer US
01.07.2021
Springer Nature B.V |
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| ISSN: | 2366-004X, 2366-0058, 2366-0058 |
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| Abstract | Purpose
To evaluate vessel assessment in virtual monoenergetic images (VMI
40keV
) and virtual-non-contrast images (VNC) derived from venous phase spectral detector computed tomography (SDCT) acquisitions in comparison to arterial phase and true non-contrast (TNC) images.
Methods
Triphasic abdominal SDCT was performed in 25 patients including TNC, arterial and venous phase. VMI
40keV
and VNC were reconstructed from the venous phase and compared to conventional arterial-phase images (CI
art
), TNC and conventional venous-phase images (CI
ven
). Vessel contrast and virtual contrast removal were analyzed with region-of-interest-based measurements and in a qualitative assessment.
Results
Quantitative analysis revealed no significant attenuation differences between TNC and VNC in arterial vessels (
p
-range 0.07–0.47) except for the renal artery (
p
= 0.011). For venous vessels, significant differences between TNC and VNC were found for all veins (
p
< 0.001) except the inferior vena cava (
p
= 0.26), yet these differences remained within a 10 HU range in most patients. No significant attenuation differences were found between CI
art
/VMI
40keV
in arterial vessels (
p
-range 0.06–0.86). Contrast-to-noise ratio provided by VMI
40keV
and CI
art
was equivalent for all arterial vessels assessed (
p
-range 0.14–0.91).
Qualitatively, VMI
40keV
showed similar enhancement of abdominal and pelvic arteries as CI
art
and VNC were rated comparable to TNC.
Conclusion
Our study suggests that VNC and VMI
40keV
derived from single venous-phase SDCT offer comparable assessment of major abdominal vessels as provided by routine triphasic examinations, if no dynamic contrast information is required. |
|---|---|
| AbstractList | PurposeTo evaluate vessel assessment in virtual monoenergetic images (VMI40keV) and virtual-non-contrast images (VNC) derived from venous phase spectral detector computed tomography (SDCT) acquisitions in comparison to arterial phase and true non-contrast (TNC) images.MethodsTriphasic abdominal SDCT was performed in 25 patients including TNC, arterial and venous phase. VMI40keV and VNC were reconstructed from the venous phase and compared to conventional arterial-phase images (CIart), TNC and conventional venous-phase images (CIven). Vessel contrast and virtual contrast removal were analyzed with region-of-interest-based measurements and in a qualitative assessment.ResultsQuantitative analysis revealed no significant attenuation differences between TNC and VNC in arterial vessels (p-range 0.07–0.47) except for the renal artery (p = 0.011). For venous vessels, significant differences between TNC and VNC were found for all veins (p < 0.001) except the inferior vena cava (p = 0.26), yet these differences remained within a 10 HU range in most patients. No significant attenuation differences were found between CIart/VMI40keV in arterial vessels (p-range 0.06–0.86). Contrast-to-noise ratio provided by VMI40keV and CIart was equivalent for all arterial vessels assessed (p-range 0.14–0.91).Qualitatively, VMI40keV showed similar enhancement of abdominal and pelvic arteries as CIart and VNC were rated comparable to TNC.ConclusionOur study suggests that VNC and VMI40keV derived from single venous-phase SDCT offer comparable assessment of major abdominal vessels as provided by routine triphasic examinations, if no dynamic contrast information is required. Purpose To evaluate vessel assessment in virtual monoenergetic images (VMI 40keV ) and virtual-non-contrast images (VNC) derived from venous phase spectral detector computed tomography (SDCT) acquisitions in comparison to arterial phase and true non-contrast (TNC) images. Methods Triphasic abdominal SDCT was performed in 25 patients including TNC, arterial and venous phase. VMI 40keV and VNC were reconstructed from the venous phase and compared to conventional arterial-phase images (CI art ), TNC and conventional venous-phase images (CI ven ). Vessel contrast and virtual contrast removal were analyzed with region-of-interest-based measurements and in a qualitative assessment. Results Quantitative analysis revealed no significant attenuation differences between TNC and VNC in arterial vessels ( p -range 0.07–0.47) except for the renal artery ( p = 0.011). For venous vessels, significant differences between TNC and VNC were found for all veins ( p < 0.001) except the inferior vena cava ( p = 0.26), yet these differences remained within a 10 HU range in most patients. No significant attenuation differences were found between CI art /VMI 40keV in arterial vessels ( p -range 0.06–0.86). Contrast-to-noise ratio provided by VMI 40keV and CI art was equivalent for all arterial vessels assessed ( p -range 0.14–0.91). Qualitatively, VMI 40keV showed similar enhancement of abdominal and pelvic arteries as CI art and VNC were rated comparable to TNC. Conclusion Our study suggests that VNC and VMI 40keV derived from single venous-phase SDCT offer comparable assessment of major abdominal vessels as provided by routine triphasic examinations, if no dynamic contrast information is required. To evaluate vessel assessment in virtual monoenergetic images (VMI ) and virtual-non-contrast images (VNC) derived from venous phase spectral detector computed tomography (SDCT) acquisitions in comparison to arterial phase and true non-contrast (TNC) images. Triphasic abdominal SDCT was performed in 25 patients including TNC, arterial and venous phase. VMI and VNC were reconstructed from the venous phase and compared to conventional arterial-phase images (CI ), TNC and conventional venous-phase images (CI ). Vessel contrast and virtual contrast removal were analyzed with region-of-interest-based measurements and in a qualitative assessment. Quantitative analysis revealed no significant attenuation differences between TNC and VNC in arterial vessels (p-range 0.07-0.47) except for the renal artery (p = 0.011). For venous vessels, significant differences between TNC and VNC were found for all veins (p < 0.001) except the inferior vena cava (p = 0.26), yet these differences remained within a 10 HU range in most patients. No significant attenuation differences were found between CI /VMI in arterial vessels (p-range 0.06-0.86). Contrast-to-noise ratio provided by VMI and CI was equivalent for all arterial vessels assessed (p-range 0.14-0.91). Qualitatively, VMI showed similar enhancement of abdominal and pelvic arteries as CI and VNC were rated comparable to TNC. Our study suggests that VNC and VMI derived from single venous-phase SDCT offer comparable assessment of major abdominal vessels as provided by routine triphasic examinations, if no dynamic contrast information is required. To evaluate vessel assessment in virtual monoenergetic images (VMI40keV) and virtual-non-contrast images (VNC) derived from venous phase spectral detector computed tomography (SDCT) acquisitions in comparison to arterial phase and true non-contrast (TNC) images.PURPOSETo evaluate vessel assessment in virtual monoenergetic images (VMI40keV) and virtual-non-contrast images (VNC) derived from venous phase spectral detector computed tomography (SDCT) acquisitions in comparison to arterial phase and true non-contrast (TNC) images.Triphasic abdominal SDCT was performed in 25 patients including TNC, arterial and venous phase. VMI40keV and VNC were reconstructed from the venous phase and compared to conventional arterial-phase images (CIart), TNC and conventional venous-phase images (CIven). Vessel contrast and virtual contrast removal were analyzed with region-of-interest-based measurements and in a qualitative assessment.METHODSTriphasic abdominal SDCT was performed in 25 patients including TNC, arterial and venous phase. VMI40keV and VNC were reconstructed from the venous phase and compared to conventional arterial-phase images (CIart), TNC and conventional venous-phase images (CIven). Vessel contrast and virtual contrast removal were analyzed with region-of-interest-based measurements and in a qualitative assessment.Quantitative analysis revealed no significant attenuation differences between TNC and VNC in arterial vessels (p-range 0.07-0.47) except for the renal artery (p = 0.011). For venous vessels, significant differences between TNC and VNC were found for all veins (p < 0.001) except the inferior vena cava (p = 0.26), yet these differences remained within a 10 HU range in most patients. No significant attenuation differences were found between CIart/VMI40keV in arterial vessels (p-range 0.06-0.86). Contrast-to-noise ratio provided by VMI40keV and CIart was equivalent for all arterial vessels assessed (p-range 0.14-0.91). Qualitatively, VMI40keV showed similar enhancement of abdominal and pelvic arteries as CIart and VNC were rated comparable to TNC.RESULTSQuantitative analysis revealed no significant attenuation differences between TNC and VNC in arterial vessels (p-range 0.07-0.47) except for the renal artery (p = 0.011). For venous vessels, significant differences between TNC and VNC were found for all veins (p < 0.001) except the inferior vena cava (p = 0.26), yet these differences remained within a 10 HU range in most patients. No significant attenuation differences were found between CIart/VMI40keV in arterial vessels (p-range 0.06-0.86). Contrast-to-noise ratio provided by VMI40keV and CIart was equivalent for all arterial vessels assessed (p-range 0.14-0.91). Qualitatively, VMI40keV showed similar enhancement of abdominal and pelvic arteries as CIart and VNC were rated comparable to TNC.Our study suggests that VNC and VMI40keV derived from single venous-phase SDCT offer comparable assessment of major abdominal vessels as provided by routine triphasic examinations, if no dynamic contrast information is required.CONCLUSIONOur study suggests that VNC and VMI40keV derived from single venous-phase SDCT offer comparable assessment of major abdominal vessels as provided by routine triphasic examinations, if no dynamic contrast information is required. |
| Author | Laukamp, Kai Roman Gupta, Amit Lennartz, Simon Pennig, Lenhard Obmann, Markus Tandon, Yasmeen Gilkeson, Robert C. Ramaiya, Nikhil Große Hokamp, Nils Herrmann, Karin A. Jordan, Michelle Zopfs, David |
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| CitedBy_id | crossref_primary_10_1007_s00261_022_03682_3 crossref_primary_10_1097_RCT_0000000000001330 crossref_primary_10_3390_diagnostics14060627 crossref_primary_10_1055_a_2203_2945 crossref_primary_10_1007_s00261_024_04639_4 crossref_primary_10_3390_jcm14155571 crossref_primary_10_1097_RCT_0000000000001713 |
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| Keywords | Virtual monoenergetic images Virtual non-contrast images Spectral-detector CT Multiphase CT |
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| PublicationTitle | Abdominal imaging |
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To evaluate vessel assessment in virtual monoenergetic images (VMI
40keV
) and virtual-non-contrast images (VNC) derived from venous phase spectral... To evaluate vessel assessment in virtual monoenergetic images (VMI ) and virtual-non-contrast images (VNC) derived from venous phase spectral detector computed... PurposeTo evaluate vessel assessment in virtual monoenergetic images (VMI40keV) and virtual-non-contrast images (VNC) derived from venous phase spectral... To evaluate vessel assessment in virtual monoenergetic images (VMI40keV) and virtual-non-contrast images (VNC) derived from venous phase spectral detector... |
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| SubjectTerms | Abdomen Arteries Attenuation Blood vessels Computed tomography Gastroenterology Hepatology Image contrast Image reconstruction Imaging Medical imaging Medicine Medicine & Public Health Qualitative analysis Radiology Renal artery Technical Tomography |
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| Title | Abdominal vessel depiction on virtual triphasic spectral detector CT: initial clinical experience |
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