Influences of the second motion probing gradient b-value and T2 relaxation time on magnetic resonance diffusion-derived ‘vessel density’ (DDVD) calculation: the examples of liver, spleen, and liver simple cyst
Magnetic resonance (MR) diffusion-derived 'vessel density' (DDVD) is calculated according to: DDVD = Sb0/ROI - S /ROI , where S and S refer to the tissue signal when -value is 0 or 2 s/mm . S and ROI can also be approximated by other low -values diffusion-weighted imaging (DWI). This study...
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| Published in | Quantitative imaging in medicine and surgery Vol. 15; no. 1; pp. 74 - 87 |
|---|---|
| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
China
AME Publishing Company
02.01.2025
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| Abstract | Magnetic resonance (MR) diffusion-derived 'vessel density' (DDVD) is calculated according to: DDVD
= Sb0/ROI
- S
/ROI
, where S
and S
refer to the tissue signal when
-value is 0 or 2 s/mm
. S
and ROI
can also be approximated by other low
-values diffusion-weighted imaging (DWI). This study investigates the influence of the second motion probing gradient
-value and T2 on DDVD calculations of the liver, spleen, and liver simple cyst. Literature analysis shows the liver and spleen have very similar amounts of perfusion. At 3T, liver and spleen have a T2 of around 42 and 60 ms respectively, while cyst has a very long T2.
Twenty-eight subjects had 1.5T DWI data with
-values of 0, 1, 2, 15, 20, 30 s/mm
. Twenty-one subjects had 3.0T DWI data with
-values of 0, 2, 4, 7, 10, 15, 20, 30 s/mm
. DDVD
, DDVD
, DDVD
, DDVD
, DDVD
, DDVD
, DDVD
, and DDVD
were calculated from
=0 and
=1 images,
=0 and
=2 images,
=0 and
=4 images,
=0 and
=7 images,
=0 and
=10 images,
=0 and
=15 images,
=0 and
=20 images,
=0 and
=30 s/mm
images, respectively. For liver simple cyst, two cysts totaling six slices scanned at 1.5T were available for DDVD measurement.
At 1.5T, when the second
-value was 1 s/mm
, DDVD
value was slightly higher than DDVD
value; when the second
-value was 2 s/mm
, DDVD
value was slightly higher than DDVD
value. After that, the absolute difference between DDVD
value and DDVD
value became increasingly larger, with DDVD
value being consistently higher. DDVD
showed values close to 0 when the second
-value was 1 s/mm
. When the second
-value was 20 or 30 s/mm
, DDVD
value was higher than DDVD
value. The absolute DDVD values measured higher at 3.0T than at 1.5T. However, the ratio of DDVD
to DDVD
did not apparently differ between 1.5T and 3.0T. From the second
-value being 2 s/mm
onward, an increasingly larger second
-value was associated with a trend of slow decreasing of the ratio of DDVD
to DDVD
.
When a very low second
-value is applied, the liver and spleen measure similar perfusions by DDVD, and cysts measure DDVD close to zero. When a higher second
-value is applied, relative to the liver, the DDVD of spleen is suppressed while the DDVD of cyst is artificially promoted, which we consider are related to the T2 relaxation times of the liver, spleen, and cyst. |
|---|---|
| AbstractList | Magnetic resonance (MR) diffusion-derived 'vessel density' (DDVD) is calculated according to: DDVD
= Sb0/ROI
- S
/ROI
, where S
and S
refer to the tissue signal when
-value is 0 or 2 s/mm
. S
and ROI
can also be approximated by other low
-values diffusion-weighted imaging (DWI). This study investigates the influence of the second motion probing gradient
-value and T2 on DDVD calculations of the liver, spleen, and liver simple cyst. Literature analysis shows the liver and spleen have very similar amounts of perfusion. At 3T, liver and spleen have a T2 of around 42 and 60 ms respectively, while cyst has a very long T2.
Twenty-eight subjects had 1.5T DWI data with
-values of 0, 1, 2, 15, 20, 30 s/mm
. Twenty-one subjects had 3.0T DWI data with
-values of 0, 2, 4, 7, 10, 15, 20, 30 s/mm
. DDVD
, DDVD
, DDVD
, DDVD
, DDVD
, DDVD
, DDVD
, and DDVD
were calculated from
=0 and
=1 images,
=0 and
=2 images,
=0 and
=4 images,
=0 and
=7 images,
=0 and
=10 images,
=0 and
=15 images,
=0 and
=20 images,
=0 and
=30 s/mm
images, respectively. For liver simple cyst, two cysts totaling six slices scanned at 1.5T were available for DDVD measurement.
At 1.5T, when the second
-value was 1 s/mm
, DDVD
value was slightly higher than DDVD
value; when the second
-value was 2 s/mm
, DDVD
value was slightly higher than DDVD
value. After that, the absolute difference between DDVD
value and DDVD
value became increasingly larger, with DDVD
value being consistently higher. DDVD
showed values close to 0 when the second
-value was 1 s/mm
. When the second
-value was 20 or 30 s/mm
, DDVD
value was higher than DDVD
value. The absolute DDVD values measured higher at 3.0T than at 1.5T. However, the ratio of DDVD
to DDVD
did not apparently differ between 1.5T and 3.0T. From the second
-value being 2 s/mm
onward, an increasingly larger second
-value was associated with a trend of slow decreasing of the ratio of DDVD
to DDVD
.
When a very low second
-value is applied, the liver and spleen measure similar perfusions by DDVD, and cysts measure DDVD close to zero. When a higher second
-value is applied, relative to the liver, the DDVD of spleen is suppressed while the DDVD of cyst is artificially promoted, which we consider are related to the T2 relaxation times of the liver, spleen, and cyst. Magnetic resonance (MR) diffusion-derived 'vessel density' (DDVD) is calculated according to: DDVDb0b2 = Sb0/ROIarea0 - Sb2/ROIarea2, where Sb0 and Sb2 refer to the tissue signal when b-value is 0 or 2 s/mm2. Sb2 and ROIarea2 can also be approximated by other low b-values diffusion-weighted imaging (DWI). This study investigates the influence of the second motion probing gradient b-value and T2 on DDVD calculations of the liver, spleen, and liver simple cyst. Literature analysis shows the liver and spleen have very similar amounts of perfusion. At 3T, liver and spleen have a T2 of around 42 and 60 ms respectively, while cyst has a very long T2.BackgroundMagnetic resonance (MR) diffusion-derived 'vessel density' (DDVD) is calculated according to: DDVDb0b2 = Sb0/ROIarea0 - Sb2/ROIarea2, where Sb0 and Sb2 refer to the tissue signal when b-value is 0 or 2 s/mm2. Sb2 and ROIarea2 can also be approximated by other low b-values diffusion-weighted imaging (DWI). This study investigates the influence of the second motion probing gradient b-value and T2 on DDVD calculations of the liver, spleen, and liver simple cyst. Literature analysis shows the liver and spleen have very similar amounts of perfusion. At 3T, liver and spleen have a T2 of around 42 and 60 ms respectively, while cyst has a very long T2.Twenty-eight subjects had 1.5T DWI data with b-values of 0, 1, 2, 15, 20, 30 s/mm2. Twenty-one subjects had 3.0T DWI data with b-values of 0, 2, 4, 7, 10, 15, 20, 30 s/mm2. DDVDb0b1, DDVDb0b2, DDVDb0b4, DDVDb0b7, DDVDb0b10, DDVDb0b15, DDVDb0b20, and DDVDb0b30 were calculated from b=0 and b=1 images, b=0 and b=2 images, b=0 and b=4 images, b=0 and b=7 images, b=0 and b=10 images, b=0 and b=15 images, b=0 and b=20 images, b=0 and b=30 s/mm2 images, respectively. For liver simple cyst, two cysts totaling six slices scanned at 1.5T were available for DDVD measurement.MethodsTwenty-eight subjects had 1.5T DWI data with b-values of 0, 1, 2, 15, 20, 30 s/mm2. Twenty-one subjects had 3.0T DWI data with b-values of 0, 2, 4, 7, 10, 15, 20, 30 s/mm2. DDVDb0b1, DDVDb0b2, DDVDb0b4, DDVDb0b7, DDVDb0b10, DDVDb0b15, DDVDb0b20, and DDVDb0b30 were calculated from b=0 and b=1 images, b=0 and b=2 images, b=0 and b=4 images, b=0 and b=7 images, b=0 and b=10 images, b=0 and b=15 images, b=0 and b=20 images, b=0 and b=30 s/mm2 images, respectively. For liver simple cyst, two cysts totaling six slices scanned at 1.5T were available for DDVD measurement.At 1.5T, when the second b-value was 1 s/mm2, DDVDspleen value was slightly higher than DDVDliver value; when the second b-value was 2 s/mm2, DDVDliver value was slightly higher than DDVDspleen value. After that, the absolute difference between DDVDliver value and DDVDspleen value became increasingly larger, with DDVDliver value being consistently higher. DDVDcyst showed values close to 0 when the second b-value was 1 s/mm2. When the second b-value was 20 or 30 s/mm2, DDVDcyst value was higher than DDVDliver value. The absolute DDVD values measured higher at 3.0T than at 1.5T. However, the ratio of DDVDspleen to DDVDliver did not apparently differ between 1.5T and 3.0T. From the second b-value being 2 s/mm2 onward, an increasingly larger second b-value was associated with a trend of slow decreasing of the ratio of DDVDspleen to DDVDliver.ResultsAt 1.5T, when the second b-value was 1 s/mm2, DDVDspleen value was slightly higher than DDVDliver value; when the second b-value was 2 s/mm2, DDVDliver value was slightly higher than DDVDspleen value. After that, the absolute difference between DDVDliver value and DDVDspleen value became increasingly larger, with DDVDliver value being consistently higher. DDVDcyst showed values close to 0 when the second b-value was 1 s/mm2. When the second b-value was 20 or 30 s/mm2, DDVDcyst value was higher than DDVDliver value. The absolute DDVD values measured higher at 3.0T than at 1.5T. However, the ratio of DDVDspleen to DDVDliver did not apparently differ between 1.5T and 3.0T. From the second b-value being 2 s/mm2 onward, an increasingly larger second b-value was associated with a trend of slow decreasing of the ratio of DDVDspleen to DDVDliver.When a very low second b-value is applied, the liver and spleen measure similar perfusions by DDVD, and cysts measure DDVD close to zero. When a higher second b-value is applied, relative to the liver, the DDVD of spleen is suppressed while the DDVD of cyst is artificially promoted, which we consider are related to the T2 relaxation times of the liver, spleen, and cyst.ConclusionsWhen a very low second b-value is applied, the liver and spleen measure similar perfusions by DDVD, and cysts measure DDVD close to zero. When a higher second b-value is applied, relative to the liver, the DDVD of spleen is suppressed while the DDVD of cyst is artificially promoted, which we consider are related to the T2 relaxation times of the liver, spleen, and cyst. |
| Author | Leng, Xiao-Ming Sun, Ming-Hua Hu, Gen-Wen Sun, Ji-Hong Zhang, Ge Wáng, Yì Xiáng J. Ju, Zhi-Guo Zhu, Michael S. Y. Guglielmi, Giuseppe Xiao, Ben-Heng Huang, Hua |
| Author_xml | – sequence: 1 givenname: Zhi-Guo surname: Ju fullname: Ju, Zhi-Guo – sequence: 2 givenname: Xiao-Ming surname: Leng fullname: Leng, Xiao-Ming – sequence: 3 givenname: Ben-Heng surname: Xiao fullname: Xiao, Ben-Heng – sequence: 4 givenname: Ming-Hua surname: Sun fullname: Sun, Ming-Hua – sequence: 5 givenname: Hua surname: Huang fullname: Huang, Hua – sequence: 6 givenname: Gen-Wen surname: Hu fullname: Hu, Gen-Wen – sequence: 7 givenname: Ge surname: Zhang fullname: Zhang, Ge – sequence: 8 givenname: Ji-Hong surname: Sun fullname: Sun, Ji-Hong – sequence: 9 givenname: Michael S. Y. surname: Zhu fullname: Zhu, Michael S. Y. – sequence: 10 givenname: Giuseppe surname: Guglielmi fullname: Guglielmi, Giuseppe – sequence: 11 givenname: Yì Xiáng J. surname: Wáng fullname: Wáng, Yì Xiáng J. |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/39838988$$D View this record in MEDLINE/PubMed |
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| Copyright | 2025 AME Publishing Company. All rights reserved. 2025 AME Publishing Company. All rights reserved. 2025 AME Publishing Company. |
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| Keywords | Magnetic resonance imaging (MRI) diffusion-derived ‘vessel density’ (DDVD) perfusion T2 relaxation time |
| Language | English |
| License | 2025 AME Publishing Company. All rights reserved. Open Access Statement: This is an Open Access article distributed in accordance with the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International License (CC BY-NC-ND 4.0), which permits the non-commercial replication and distribution of the article with the strict proviso that no changes or edits are made and the original work is properly cited (including links to both the formal publication through the relevant DOI and the license). See: https://creativecommons.org/licenses/by-nc-nd/4.0. |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Contributions: (I) Conception and design: YXJ Wáng; (II) Administrative support: ZG Ju, XM Leng, BH Xiao, MSY Zhu, G Guglielmi; (III) Provision of study materials or patients: H Huang, GW Hu, G Zhang; (IV) Collection and assembly of data: ZG Ju, XM Leng, H Huang, GW Hu, G Zhang; (V) Data analysis and interpretation: BH Xiao, MH Sun, JH Sun, YXJ Wáng; (VI) Manuscript writing: All authors; (VII) Final approval of manuscript: All authors. These authors contributed equally to this work. |
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| Snippet | Magnetic resonance (MR) diffusion-derived 'vessel density' (DDVD) is calculated according to: DDVD
= Sb0/ROI
- S
/ROI
, where S
and S
refer to the tissue... Magnetic resonance (MR) diffusion-derived 'vessel density' (DDVD) is calculated according to: DDVDb0b2 = Sb0/ROIarea0 - Sb2/ROIarea2, where Sb0 and Sb2 refer... |
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| StartPage | 74 |
| SubjectTerms | Original |
| Title | Influences of the second motion probing gradient b-value and T2 relaxation time on magnetic resonance diffusion-derived ‘vessel density’ (DDVD) calculation: the examples of liver, spleen, and liver simple cyst |
| URI | https://www.ncbi.nlm.nih.gov/pubmed/39838988 https://www.proquest.com/docview/3158101010 https://pubmed.ncbi.nlm.nih.gov/PMC11744176 |
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