Reconstruction of input functions from a dynamic PET image with sequential administration of 15O2 and H215O for noninvasive and ultra-rapid measurement of CBF, OEF, and CMRO2
CBF, OEF, and CMRO 2 images can be quantitatively assessed using PET. Their image calculation requires arterial input functions, which require invasive procedure. The aim of the present study was to develop a non-invasive approach with image-derived input functions (IDIFs) using an image from an ult...
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| Published in | Journal of cerebral blood flow and metabolism Vol. 38; no. 5; pp. 780 - 792 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Sage UK: London, England
SAGE Publications
09.06.2017
|
| Subjects | |
| Online Access | Get full text |
| ISSN | 0271-678X 1559-7016 |
| DOI | 10.1177/0271678X17713574 |
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| Abstract | CBF, OEF, and CMRO
2
images can be quantitatively assessed using PET. Their image calculation requires arterial input functions, which require invasive procedure. The aim of the present study was to develop a non-invasive approach with image-derived input functions (IDIFs) using an image from an ultra-rapid O
2
and C
15
O
2
protocol. Our technique consists of using a formula to express the input using tissue curve with rate constants. For multiple tissue curves, the rate constants were estimated so as to minimize the differences of the inputs using the multiple tissue curves. The estimated rates were used to express the inputs and the mean of the estimated inputs was used as an IDIF. The method was tested in human subjects (
n
= 24). The estimated IDIFs were well-reproduced against the measured ones. The difference in the calculated CBF, OEF, and CMRO
2
values by the two methods was small (<10%) against the invasive method, and the values showed tight correlations (
r
= 0.97). The simulation showed errors associated with the assumed parameters were less than ∼10%. Our results demonstrate that IDIFs can be reconstructed from tissue curves, suggesting the possibility of using a non-invasive technique to assess CBF, OEF, and CMRO
2
. |
|---|---|
| AbstractList | CBF, OEF, and CMRO
2
images can be quantitatively assessed using PET. Their image calculation requires arterial input functions, which require invasive procedure. The aim of the present study was to develop a non-invasive approach with image-derived input functions (IDIFs) using an image from an ultra-rapid O
2
and C
15
O
2
protocol. Our technique consists of using a formula to express the input using tissue curve with rate constants. For multiple tissue curves, the rate constants were estimated so as to minimize the differences of the inputs using the multiple tissue curves. The estimated rates were used to express the inputs and the mean of the estimated inputs was used as an IDIF. The method was tested in human subjects (
n
= 24). The estimated IDIFs were well-reproduced against the measured ones. The difference in the calculated CBF, OEF, and CMRO
2
values by the two methods was small (<10%) against the invasive method, and the values showed tight correlations (
r
= 0.97). The simulation showed errors associated with the assumed parameters were less than ∼10%. Our results demonstrate that IDIFs can be reconstructed from tissue curves, suggesting the possibility of using a non-invasive technique to assess CBF, OEF, and CMRO
2
. |
| Author | Maeda, Yukito Hatakeyama, Tetsuhiro Kudomi, Nobuyuki Yamamoto, Yuka Nishiyama, Yoshihiro Yamamoto, Hiroyuki |
| AuthorAffiliation | 4 Department of Neurological Surgery, Kagawa University, Kagawa, Japan 2 Department of Radiology, Kagawa University Hospital, Kagawa, Japan 3 Department of Radiology, Kagawa University, Kagawa, Japan 1 Department of Medical Physics, Kagawa University, Kagawa, Japan |
| AuthorAffiliation_xml | – name: 1 Department of Medical Physics, Kagawa University, Kagawa, Japan – name: 2 Department of Radiology, Kagawa University Hospital, Kagawa, Japan – name: 3 Department of Radiology, Kagawa University, Kagawa, Japan – name: 4 Department of Neurological Surgery, Kagawa University, Kagawa, Japan |
| Author_xml | – sequence: 1 givenname: Nobuyuki surname: Kudomi fullname: Kudomi, Nobuyuki email: kudomi@med.kagawa-u.ac.jp organization: Department of Medical Physics, Kagawa University, Kagawa, Japan Department of Radiology, Kagawa University Hospital, Kagawa, Japan Department of Radiology, Kagawa University, Kagawa, Japan Department of Neurological Surgery, Kagawa University, Kagawa, Japan – sequence: 2 givenname: Yukito surname: Maeda fullname: Maeda, Yukito organization: Department of Medical Physics, Kagawa University, Kagawa, Japan Department of Radiology, Kagawa University Hospital, Kagawa, Japan Department of Radiology, Kagawa University, Kagawa, Japan Department of Neurological Surgery, Kagawa University, Kagawa, Japan – sequence: 3 givenname: Hiroyuki surname: Yamamoto fullname: Yamamoto, Hiroyuki organization: Department of Medical Physics, Kagawa University, Kagawa, Japan Department of Radiology, Kagawa University Hospital, Kagawa, Japan Department of Radiology, Kagawa University, Kagawa, Japan Department of Neurological Surgery, Kagawa University, Kagawa, Japan – sequence: 4 givenname: Yuka surname: Yamamoto fullname: Yamamoto, Yuka organization: Department of Medical Physics, Kagawa University, Kagawa, Japan Department of Radiology, Kagawa University Hospital, Kagawa, Japan Department of Radiology, Kagawa University, Kagawa, Japan Department of Neurological Surgery, Kagawa University, Kagawa, Japan – sequence: 5 givenname: Tetsuhiro surname: Hatakeyama fullname: Hatakeyama, Tetsuhiro organization: Department of Medical Physics, Kagawa University, Kagawa, Japan Department of Radiology, Kagawa University Hospital, Kagawa, Japan Department of Radiology, Kagawa University, Kagawa, Japan Department of Neurological Surgery, Kagawa University, Kagawa, Japan – sequence: 6 givenname: Yoshihiro surname: Nishiyama fullname: Nishiyama, Yoshihiro organization: Department of Medical Physics, Kagawa University, Kagawa, Japan Department of Radiology, Kagawa University Hospital, Kagawa, Japan Department of Radiology, Kagawa University, Kagawa, Japan Department of Neurological Surgery, Kagawa University, Kagawa, Japan |
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| Snippet | CBF, OEF, and CMRO
2
images can be quantitatively assessed using PET. Their image calculation requires arterial input functions, which require invasive... |
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| Title | Reconstruction of input functions from a dynamic PET image with sequential administration of 15O2 and H215O for noninvasive and ultra-rapid measurement of CBF, OEF, and CMRO2 |
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