Combined visual and quantitative assessment of somatostatin receptor scintigraphy for staging and restaging of neuroendocrine tumors
Purpose Somatostatin receptor scintigraphy (SRS) using 111 In-DTPA-DPhe 1 -octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management. The lack of precise quantification is a disadvantage of SRS. This study aimed to adapt the standardized uptake value (SUV) to SRS,...
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| Published in | Japanese journal of radiology Vol. 42; no. 5; pp. 519 - 535 |
|---|---|
| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Singapore
Springer Nature Singapore
01.05.2024
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1867-1071 1867-108X 1867-108X |
| DOI | 10.1007/s11604-024-01529-z |
Cover
| Abstract | Purpose
Somatostatin receptor scintigraphy (SRS) using
111
In-DTPA-DPhe
1
-octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management. The lack of precise quantification is a disadvantage of SRS. This study aimed to adapt the standardized uptake value (SUV) to SRS, establish the SUV range for physiological uptake in the liver, kidney, and spleen, and elucidate the utility of combined visual and quantitative SRS assessment for staging and restaging of neuroendocrine tumors (NETs).
Materials and methods
This study included 21 patients with NETs who underwent
111
In-pentetreotide SRS. The SUV of physiological and pathological uptake was calculated using bone single-photon emission computed tomography (SPECT) quantitative analysis software (GI-BONE). For visual analysis, the primary and metastatic lesions were scored visually on planar and SPECT images using a five-point scale. We assessed the relationships between the SUVs of the liver, kidney, and spleen in the dual phase, and among quantitative indices, visual score, and pathological lesions classification.
Results
Sixty-three NEN lesions were evaluated. The mean ± standard deviation maximum SUVs (SUVmax) were liver: 4 h, 2.6 ± 1.0; 24 h, 2.2 ± 1.0; kidney: 4 h, 8.9 ± 1.8; 24 h, 7.0 ± 2.0; and spleen; 4 h, 11.3 ± 4.5; 24 h, 11.5 ± 7.6. Higher SUVmax was significantly associated with higher visual scores on dual-phase SPECT (4 h,
p
< 0.001; 24 h,
p
< 0.001) (4 h: scores 3 and 4,
p
< 0.05; scores 3 and 5:
p
< 0.01; scores 4 and 5:
p
< 0.01; 24 h: scores 3 and 4,
p
= 0.0748; scores 3 and 5:
p
< 0.01; scores 4 and 5:
p
< 0.01).
Conclusion
We adapted the SUV to SRS and established the range of SUV for physiological uptake in the liver, kidney, and spleen. Combined visual and quantitative assessment is useful for imaging individual lesions in greater detail, and may serve as a new tumor marker of SRS for staging and restaging of NETs. |
|---|---|
| AbstractList | Somatostatin receptor scintigraphy (SRS) using 111In-DTPA-DPhe1-octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management. The lack of precise quantification is a disadvantage of SRS. This study aimed to adapt the standardized uptake value (SUV) to SRS, establish the SUV range for physiological uptake in the liver, kidney, and spleen, and elucidate the utility of combined visual and quantitative SRS assessment for staging and restaging of neuroendocrine tumors (NETs).PURPOSESomatostatin receptor scintigraphy (SRS) using 111In-DTPA-DPhe1-octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management. The lack of precise quantification is a disadvantage of SRS. This study aimed to adapt the standardized uptake value (SUV) to SRS, establish the SUV range for physiological uptake in the liver, kidney, and spleen, and elucidate the utility of combined visual and quantitative SRS assessment for staging and restaging of neuroendocrine tumors (NETs).This study included 21 patients with NETs who underwent 111In-pentetreotide SRS. The SUV of physiological and pathological uptake was calculated using bone single-photon emission computed tomography (SPECT) quantitative analysis software (GI-BONE). For visual analysis, the primary and metastatic lesions were scored visually on planar and SPECT images using a five-point scale. We assessed the relationships between the SUVs of the liver, kidney, and spleen in the dual phase, and among quantitative indices, visual score, and pathological lesions classification.MATERIALS AND METHODSThis study included 21 patients with NETs who underwent 111In-pentetreotide SRS. The SUV of physiological and pathological uptake was calculated using bone single-photon emission computed tomography (SPECT) quantitative analysis software (GI-BONE). For visual analysis, the primary and metastatic lesions were scored visually on planar and SPECT images using a five-point scale. We assessed the relationships between the SUVs of the liver, kidney, and spleen in the dual phase, and among quantitative indices, visual score, and pathological lesions classification.Sixty-three NEN lesions were evaluated. The mean ± standard deviation maximum SUVs (SUVmax) were liver: 4 h, 2.6 ± 1.0; 24 h, 2.2 ± 1.0; kidney: 4 h, 8.9 ± 1.8; 24 h, 7.0 ± 2.0; and spleen; 4 h, 11.3 ± 4.5; 24 h, 11.5 ± 7.6. Higher SUVmax was significantly associated with higher visual scores on dual-phase SPECT (4 h, p < 0.001; 24 h, p < 0.001) (4 h: scores 3 and 4, p < 0.05; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01; 24 h: scores 3 and 4, p = 0.0748; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01).RESULTSSixty-three NEN lesions were evaluated. The mean ± standard deviation maximum SUVs (SUVmax) were liver: 4 h, 2.6 ± 1.0; 24 h, 2.2 ± 1.0; kidney: 4 h, 8.9 ± 1.8; 24 h, 7.0 ± 2.0; and spleen; 4 h, 11.3 ± 4.5; 24 h, 11.5 ± 7.6. Higher SUVmax was significantly associated with higher visual scores on dual-phase SPECT (4 h, p < 0.001; 24 h, p < 0.001) (4 h: scores 3 and 4, p < 0.05; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01; 24 h: scores 3 and 4, p = 0.0748; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01).We adapted the SUV to SRS and established the range of SUV for physiological uptake in the liver, kidney, and spleen. Combined visual and quantitative assessment is useful for imaging individual lesions in greater detail, and may serve as a new tumor marker of SRS for staging and restaging of NETs.CONCLUSIONWe adapted the SUV to SRS and established the range of SUV for physiological uptake in the liver, kidney, and spleen. Combined visual and quantitative assessment is useful for imaging individual lesions in greater detail, and may serve as a new tumor marker of SRS for staging and restaging of NETs. Purpose Somatostatin receptor scintigraphy (SRS) using 111 In-DTPA-DPhe 1 -octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management. The lack of precise quantification is a disadvantage of SRS. This study aimed to adapt the standardized uptake value (SUV) to SRS, establish the SUV range for physiological uptake in the liver, kidney, and spleen, and elucidate the utility of combined visual and quantitative SRS assessment for staging and restaging of neuroendocrine tumors (NETs). Materials and methods This study included 21 patients with NETs who underwent 111 In-pentetreotide SRS. The SUV of physiological and pathological uptake was calculated using bone single-photon emission computed tomography (SPECT) quantitative analysis software (GI-BONE). For visual analysis, the primary and metastatic lesions were scored visually on planar and SPECT images using a five-point scale. We assessed the relationships between the SUVs of the liver, kidney, and spleen in the dual phase, and among quantitative indices, visual score, and pathological lesions classification. Results Sixty-three NEN lesions were evaluated. The mean ± standard deviation maximum SUVs (SUVmax) were liver: 4 h, 2.6 ± 1.0; 24 h, 2.2 ± 1.0; kidney: 4 h, 8.9 ± 1.8; 24 h, 7.0 ± 2.0; and spleen; 4 h, 11.3 ± 4.5; 24 h, 11.5 ± 7.6. Higher SUVmax was significantly associated with higher visual scores on dual-phase SPECT (4 h, p < 0.001; 24 h, p < 0.001) (4 h: scores 3 and 4, p < 0.05; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01; 24 h: scores 3 and 4, p = 0.0748; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01). Conclusion We adapted the SUV to SRS and established the range of SUV for physiological uptake in the liver, kidney, and spleen. Combined visual and quantitative assessment is useful for imaging individual lesions in greater detail, and may serve as a new tumor marker of SRS for staging and restaging of NETs. Somatostatin receptor scintigraphy (SRS) using In-DTPA-DPhe -octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management. The lack of precise quantification is a disadvantage of SRS. This study aimed to adapt the standardized uptake value (SUV) to SRS, establish the SUV range for physiological uptake in the liver, kidney, and spleen, and elucidate the utility of combined visual and quantitative SRS assessment for staging and restaging of neuroendocrine tumors (NETs). This study included 21 patients with NETs who underwent In-pentetreotide SRS. The SUV of physiological and pathological uptake was calculated using bone single-photon emission computed tomography (SPECT) quantitative analysis software (GI-BONE). For visual analysis, the primary and metastatic lesions were scored visually on planar and SPECT images using a five-point scale. We assessed the relationships between the SUVs of the liver, kidney, and spleen in the dual phase, and among quantitative indices, visual score, and pathological lesions classification. Sixty-three NEN lesions were evaluated. The mean ± standard deviation maximum SUVs (SUVmax) were liver: 4 h, 2.6 ± 1.0; 24 h, 2.2 ± 1.0; kidney: 4 h, 8.9 ± 1.8; 24 h, 7.0 ± 2.0; and spleen; 4 h, 11.3 ± 4.5; 24 h, 11.5 ± 7.6. Higher SUVmax was significantly associated with higher visual scores on dual-phase SPECT (4 h, p < 0.001; 24 h, p < 0.001) (4 h: scores 3 and 4, p < 0.05; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01; 24 h: scores 3 and 4, p = 0.0748; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01). We adapted the SUV to SRS and established the range of SUV for physiological uptake in the liver, kidney, and spleen. Combined visual and quantitative assessment is useful for imaging individual lesions in greater detail, and may serve as a new tumor marker of SRS for staging and restaging of NETs. PurposeSomatostatin receptor scintigraphy (SRS) using 111In-DTPA-DPhe1-octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management. The lack of precise quantification is a disadvantage of SRS. This study aimed to adapt the standardized uptake value (SUV) to SRS, establish the SUV range for physiological uptake in the liver, kidney, and spleen, and elucidate the utility of combined visual and quantitative SRS assessment for staging and restaging of neuroendocrine tumors (NETs).Materials and methodsThis study included 21 patients with NETs who underwent 111In-pentetreotide SRS. The SUV of physiological and pathological uptake was calculated using bone single-photon emission computed tomography (SPECT) quantitative analysis software (GI-BONE). For visual analysis, the primary and metastatic lesions were scored visually on planar and SPECT images using a five-point scale. We assessed the relationships between the SUVs of the liver, kidney, and spleen in the dual phase, and among quantitative indices, visual score, and pathological lesions classification.ResultsSixty-three NEN lesions were evaluated. The mean ± standard deviation maximum SUVs (SUVmax) were liver: 4 h, 2.6 ± 1.0; 24 h, 2.2 ± 1.0; kidney: 4 h, 8.9 ± 1.8; 24 h, 7.0 ± 2.0; and spleen; 4 h, 11.3 ± 4.5; 24 h, 11.5 ± 7.6. Higher SUVmax was significantly associated with higher visual scores on dual-phase SPECT (4 h, p < 0.001; 24 h, p < 0.001) (4 h: scores 3 and 4, p < 0.05; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01; 24 h: scores 3 and 4, p = 0.0748; scores 3 and 5: p < 0.01; scores 4 and 5: p < 0.01).ConclusionWe adapted the SUV to SRS and established the range of SUV for physiological uptake in the liver, kidney, and spleen. Combined visual and quantitative assessment is useful for imaging individual lesions in greater detail, and may serve as a new tumor marker of SRS for staging and restaging of NETs. |
| Author | Harada, Masafumi Otsuka, Hideki Kasai, Ryosuke Matsuda, Noritake Takayama, Tetsuji Bando, Takanori Azane, Shota Okada, Yasuyuki Ikemitsu, Daiki Kunikane, Yamato Ueki, Yuya Otani, Tamaki Otomi, Yoichi |
| Author_xml | – sequence: 1 givenname: Yuya surname: Ueki fullname: Ueki, Yuya organization: Tokushima University Graduate School of Health Sciences – sequence: 2 givenname: Hideki orcidid: 0000-0001-7165-6099 surname: Otsuka fullname: Otsuka, Hideki email: hideki.otsuka@tokushima-u.ac.jp organization: Department of Medical Imaging/Nuclear Medicine, Tokushima University Graduate School of Biomedical Sciences – sequence: 3 givenname: Tamaki surname: Otani fullname: Otani, Tamaki organization: Advance Radiation Research, Education and Management Center, Tokushima University – sequence: 4 givenname: Ryosuke surname: Kasai fullname: Kasai, Ryosuke organization: Department of Medical Imaging/Nuclear Medicine, Tokushima University Graduate School of Biomedical Sciences – sequence: 5 givenname: Yoichi surname: Otomi fullname: Otomi, Yoichi organization: Department of Radiology and Radiation Oncology, Tokushima University Graduate School of Biomedical Sciences – sequence: 6 givenname: Daiki surname: Ikemitsu fullname: Ikemitsu, Daiki organization: Department of Radiology, Tokushima University Hospital – sequence: 7 givenname: Shota surname: Azane fullname: Azane, Shota organization: Department of Radiology, Tokushima University Hospital – sequence: 8 givenname: Yamato surname: Kunikane fullname: Kunikane, Yamato organization: Department of Radiology, Tokushima University Hospital – sequence: 9 givenname: Takanori surname: Bando fullname: Bando, Takanori organization: Department of Radiology, Tokushima University Hospital – sequence: 10 givenname: Noritake surname: Matsuda fullname: Matsuda, Noritake organization: Department of Radiology, Tokushima University Hospital – sequence: 11 givenname: Yasuyuki surname: Okada fullname: Okada, Yasuyuki organization: Department of Gastroenterology and Oncology, Tokushima University Graduate School of Biomedical Sciences – sequence: 12 givenname: Tetsuji surname: Takayama fullname: Takayama, Tetsuji organization: Department of Gastroenterology and Oncology, Tokushima University Graduate School of Biomedical Sciences – sequence: 13 givenname: Masafumi surname: Harada fullname: Harada, Masafumi organization: Department of Radiology and Radiation Oncology, Tokushima University Graduate School of Biomedical Sciences |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38345724$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1038_s41598_024_66823_2 |
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| Keywords | Standardized uptake value (SUV) Becquerel calibration factor (BCF) Somatostatin receptor (SSTR) In-pentetreotide Neuroendocrine tumors (NETs) Somatostatin receptor scintigraphy (SRS) 111In-pentetreotide |
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| Snippet | Purpose
Somatostatin receptor scintigraphy (SRS) using
111
In-DTPA-DPhe
1
-octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm... Somatostatin receptor scintigraphy (SRS) using In-DTPA-DPhe -octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management. The... PurposeSomatostatin receptor scintigraphy (SRS) using 111In-DTPA-DPhe1-octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm... Somatostatin receptor scintigraphy (SRS) using 111In-DTPA-DPhe1-octreotide (pentetreotide) has become an integral part of neuroendocrine neoplasm management.... |
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| SubjectTerms | Adult Aged Aged, 80 and over Computed tomography Female Humans Imaging Kidneys Lesions Liver Male Medical imaging Medicine Medicine & Public Health Metastases Middle Aged Neoplasm Staging Neuroendocrine tumors Neuroendocrine Tumors - diagnostic imaging Neuroendocrine Tumors - pathology Nuclear Medicine Octreotide Original Article Photon emission Physiology Quantitative analysis Radiology Radiopharmaceuticals Radiotherapy Receptors Receptors, Somatostatin - metabolism Retrospective Studies Scintigraphy Single photon emission computed tomography Somatostatin Somatostatin - analogs & derivatives Spleen Tomography, Emission-Computed, Single-Photon - methods Tumor markers Tumors |
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| Title | Combined visual and quantitative assessment of somatostatin receptor scintigraphy for staging and restaging of neuroendocrine tumors |
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