Combined measurement of tumor perfusion and glucose metabolism for improved tumor characterization in advanced cervical carcinoma: A PET/CT pilot study using [15O]water and [18F]fluorodeoxyglucose

Ivayla Apostolova; F. Hofheinz; R. Buchert; I. G. Steffen; R. Michel; C. Rosner; V. Prasad; C. Köhler; T. Derlin; W. Brenner; S. Marnitz

doi:10.1007/s00066-014-0611-7

Combined measurement of tumor perfusion and glucose metabolism for improved tumor characterization in advanced cervical carcinoma: A PET/CT pilot study using [¹⁵O]water and [¹⁸F]fluorodeoxyglucose

Ivayla Apostolova, F. Hofheinz, R. Buchert, I. G. Steffen, R. Michel, C. Rosner, V. Prasad, C. Köhler, T. Derlin, W. Brenner, S. Marnitz

Division of Nuclear Medicine

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Background and purpose: The aim of this pilot study was (1) to evaluate the combination of [¹⁸F]fluorodeoxyglucose (FDG) and [ ¹⁵O]water for detection of flow-metabolism mismatch in advanced cervical carcinomas, i.e., increased glycolysis at low blood flow, as a possible parameter for prediction of response to treatment, and (2) to propose a method for automated quantification of its spatial extent. Patients and methods: The study retrospectively included 10 women with advanced cervical carcinoma in whom PET with both FDG and [¹⁵O]water had been performed prior to therapy. The metabolically active tumor volume was delineated automatically in the FDG images. For computation of the regional blood flow in the tumor, a recovery corrected image-derived arterial input function was used. A tumor voxel was classified as mismatched when the voxel SUV of FDG was larger than the median tumor SUV and the voxel perfusion (K1) was smaller than the median perfusion. The absolute mismatch volume (aMMV) was defined as the volume of all mismatched voxels in ml, and the relative mismatch volume (rMMV) as the ratio of the aMMV to the metabolic tumor volume in percent. Results: The tumors were quite heterogeneous with respect to both FDG uptake and perfusion. The aMMV clustered into 2 groups: "large aMMV" ∈10 ml in 40∈% of patients and "small aMMV" 5 ml in 60∈% of patients. The rMMV ranged from 12.7-24.9∈%. There was no correlation between rMMV and metabolic tumor volume. There was a tendency (p∈=∈0.126) for an association between rMMV and histological grading, rMMV being about 20∈% higher in G3 than in G2 tumors. rMMV did not correlate with SUV or perfusion. Conclusion: These results suggest that combined PET with FDG and [;bsupesup&O]water allows detection and quantitative characterization of flow-metabolism mismatch in advanced cervical carcinomas.

Original language	English
Pages (from-to)	575-581
Number of pages	7
Journal	Strahlentherapie und Onkologie
Volume	190
Issue number	6
DOIs	https://doi.org/10.1007/s00066-014-0611-7
State	Published - Jun 2014

Keywords

Positron emission tomography
Prognosis
Uterine cervical carcinoma

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Apostolova, I., Hofheinz, F., Buchert, R., Steffen, I. G., Michel, R., Rosner, C., Prasad, V., Köhler, C., Derlin, T., Brenner, W., & Marnitz, S. (2014). Combined measurement of tumor perfusion and glucose metabolism for improved tumor characterization in advanced cervical carcinoma: A PET/CT pilot study using [¹⁵O]water and [¹⁸F]fluorodeoxyglucose. Strahlentherapie und Onkologie, 190(6), 575-581. https://doi.org/10.1007/s00066-014-0611-7

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title = "Combined measurement of tumor perfusion and glucose metabolism for improved tumor characterization in advanced cervical carcinoma: A PET/CT pilot study using [15O]water and [18F]fluorodeoxyglucose",

abstract = "Background and purpose: The aim of this pilot study was (1) to evaluate the combination of [18F]fluorodeoxyglucose (FDG) and [ 15O]water for detection of flow-metabolism mismatch in advanced cervical carcinomas, i.e., increased glycolysis at low blood flow, as a possible parameter for prediction of response to treatment, and (2) to propose a method for automated quantification of its spatial extent. Patients and methods: The study retrospectively included 10 women with advanced cervical carcinoma in whom PET with both FDG and [15O]water had been performed prior to therapy. The metabolically active tumor volume was delineated automatically in the FDG images. For computation of the regional blood flow in the tumor, a recovery corrected image-derived arterial input function was used. A tumor voxel was classified as mismatched when the voxel SUV of FDG was larger than the median tumor SUV and the voxel perfusion (K1) was smaller than the median perfusion. The absolute mismatch volume (aMMV) was defined as the volume of all mismatched voxels in ml, and the relative mismatch volume (rMMV) as the ratio of the aMMV to the metabolic tumor volume in percent. Results: The tumors were quite heterogeneous with respect to both FDG uptake and perfusion. The aMMV clustered into 2 groups: {"}large aMMV{"} ∈10 ml in 40∈% of patients and {"}small aMMV{"} 5 ml in 60∈% of patients. The rMMV ranged from 12.7-24.9∈%. There was no correlation between rMMV and metabolic tumor volume. There was a tendency (p∈=∈0.126) for an association between rMMV and histological grading, rMMV being about 20∈% higher in G3 than in G2 tumors. rMMV did not correlate with SUV or perfusion. Conclusion: These results suggest that combined PET with FDG and [;bsupesup&O]water allows detection and quantitative characterization of flow-metabolism mismatch in advanced cervical carcinomas.",

keywords = "Positron emission tomography, Prognosis, Uterine cervical carcinoma",

author = "Ivayla Apostolova and F. Hofheinz and R. Buchert and Steffen, {I. G.} and R. Michel and C. Rosner and V. Prasad and C. K{\"o}hler and T. Derlin and W. Brenner and S. Marnitz",

year = "2014",

month = jun,

doi = "10.1007/s00066-014-0611-7",

language = "English",

volume = "190",

pages = "575--581",

journal = "Strahlentherapie und Onkologie",

issn = "0179-7158",

number = "6",

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Apostolova, I, Hofheinz, F, Buchert, R, Steffen, IG, Michel, R, Rosner, C, Prasad, V, Köhler, C, Derlin, T, Brenner, W & Marnitz, S 2014, 'Combined measurement of tumor perfusion and glucose metabolism for improved tumor characterization in advanced cervical carcinoma: A PET/CT pilot study using [¹⁵O]water and [¹⁸F]fluorodeoxyglucose', Strahlentherapie und Onkologie, vol. 190, no. 6, pp. 575-581. https://doi.org/10.1007/s00066-014-0611-7

Combined measurement of tumor perfusion and glucose metabolism for improved tumor characterization in advanced cervical carcinoma: A PET/CT pilot study using [¹⁵O]water and [¹⁸F]fluorodeoxyglucose. / Apostolova, Ivayla; Hofheinz, F.; Buchert, R. et al.
In: Strahlentherapie und Onkologie, Vol. 190, No. 6, 06.2014, p. 575-581.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Combined measurement of tumor perfusion and glucose metabolism for improved tumor characterization in advanced cervical carcinoma

T2 - A PET/CT pilot study using [15O]water and [18F]fluorodeoxyglucose

AU - Apostolova, Ivayla

AU - Hofheinz, F.

AU - Buchert, R.

AU - Steffen, I. G.

AU - Michel, R.

AU - Rosner, C.

AU - Prasad, V.

AU - Köhler, C.

AU - Derlin, T.

AU - Brenner, W.

AU - Marnitz, S.

PY - 2014/6

Y1 - 2014/6

N2 - Background and purpose: The aim of this pilot study was (1) to evaluate the combination of [18F]fluorodeoxyglucose (FDG) and [ 15O]water for detection of flow-metabolism mismatch in advanced cervical carcinomas, i.e., increased glycolysis at low blood flow, as a possible parameter for prediction of response to treatment, and (2) to propose a method for automated quantification of its spatial extent. Patients and methods: The study retrospectively included 10 women with advanced cervical carcinoma in whom PET with both FDG and [15O]water had been performed prior to therapy. The metabolically active tumor volume was delineated automatically in the FDG images. For computation of the regional blood flow in the tumor, a recovery corrected image-derived arterial input function was used. A tumor voxel was classified as mismatched when the voxel SUV of FDG was larger than the median tumor SUV and the voxel perfusion (K1) was smaller than the median perfusion. The absolute mismatch volume (aMMV) was defined as the volume of all mismatched voxels in ml, and the relative mismatch volume (rMMV) as the ratio of the aMMV to the metabolic tumor volume in percent. Results: The tumors were quite heterogeneous with respect to both FDG uptake and perfusion. The aMMV clustered into 2 groups: "large aMMV" ∈10 ml in 40∈% of patients and "small aMMV" 5 ml in 60∈% of patients. The rMMV ranged from 12.7-24.9∈%. There was no correlation between rMMV and metabolic tumor volume. There was a tendency (p∈=∈0.126) for an association between rMMV and histological grading, rMMV being about 20∈% higher in G3 than in G2 tumors. rMMV did not correlate with SUV or perfusion. Conclusion: These results suggest that combined PET with FDG and [;bsupesup&O]water allows detection and quantitative characterization of flow-metabolism mismatch in advanced cervical carcinomas.

AB - Background and purpose: The aim of this pilot study was (1) to evaluate the combination of [18F]fluorodeoxyglucose (FDG) and [ 15O]water for detection of flow-metabolism mismatch in advanced cervical carcinomas, i.e., increased glycolysis at low blood flow, as a possible parameter for prediction of response to treatment, and (2) to propose a method for automated quantification of its spatial extent. Patients and methods: The study retrospectively included 10 women with advanced cervical carcinoma in whom PET with both FDG and [15O]water had been performed prior to therapy. The metabolically active tumor volume was delineated automatically in the FDG images. For computation of the regional blood flow in the tumor, a recovery corrected image-derived arterial input function was used. A tumor voxel was classified as mismatched when the voxel SUV of FDG was larger than the median tumor SUV and the voxel perfusion (K1) was smaller than the median perfusion. The absolute mismatch volume (aMMV) was defined as the volume of all mismatched voxels in ml, and the relative mismatch volume (rMMV) as the ratio of the aMMV to the metabolic tumor volume in percent. Results: The tumors were quite heterogeneous with respect to both FDG uptake and perfusion. The aMMV clustered into 2 groups: "large aMMV" ∈10 ml in 40∈% of patients and "small aMMV" 5 ml in 60∈% of patients. The rMMV ranged from 12.7-24.9∈%. There was no correlation between rMMV and metabolic tumor volume. There was a tendency (p∈=∈0.126) for an association between rMMV and histological grading, rMMV being about 20∈% higher in G3 than in G2 tumors. rMMV did not correlate with SUV or perfusion. Conclusion: These results suggest that combined PET with FDG and [;bsupesup&O]water allows detection and quantitative characterization of flow-metabolism mismatch in advanced cervical carcinomas.

KW - Positron emission tomography

KW - Prognosis

KW - Uterine cervical carcinoma

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U2 - 10.1007/s00066-014-0611-7

DO - 10.1007/s00066-014-0611-7

M3 - Article

C2 - 24535649

AN - SCOPUS:84901585504

SN - 0179-7158

VL - 190

SP - 575

EP - 581

JO - Strahlentherapie und Onkologie

JF - Strahlentherapie und Onkologie

IS - 6

ER -

Combined measurement of tumor perfusion and glucose metabolism for improved tumor characterization in advanced cervical carcinoma: A PET/CT pilot study using [¹⁵O]water and [¹⁸F]fluorodeoxyglucose

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