Prognostic Significance of Dynamic <sup>18</sup>F-FET PET in Newly Diagnosed Astrocytic High-Grade Glioma

Jansen, Nathalie; Suchorska, Bogdana; Wenter, Vera; Schmid-Tannwald, Christine; Todica, Andrei; Eigenbrod, Sabina; Niyazi, Maximilian; Tonn, Jörg‐Christian; Bartenstein, Peter; Kreth, Friedrich-Wilhelm; Fougère, Christian la

doi:10.2967/jnumed.114.144675

Cited by 147 publications

(109 citation statements)

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“…Similarly, the presence of curve patterns type II and III were predictive for true progression. TTP of 18 F-FET uptake has already been described as a helpful parameter for determining malignant progression in patients with low-grade glioma (9) and as a prognostic marker in high-grade glioma (22). In our series of patients TTP confirmed these finding by showing significant differences between true tumor progression and late PsP.…”

Section: Discussionsupporting

confidence: 79%

Late Pseudoprogression in Glioblastoma: Diagnostic Value of Dynamic O-(2-[18F]fluoroethyl)-L-Tyrosine PET

Kebir

Fimmers

Galldiks

et al. 2016

Clinical Cancer Research

114

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Purpose: Pseudoprogression (PsP) is characterized by therapyassociated but not tumor growth-associated increases of contrastenhancing glioblastoma lesions on MRI. Although typically occurring during the first 3 months after radiochemotherapy, PsP may occur later in the course of the disease and may then be particularly difficult to distinguish from true tumor progression. We explored PET using O-(2-Experimental Design: Twenty-six patients with glioblastoma that presented with increasing contrast-enhancing lesions later than 3 months after completion of radiochemotherapy underwent 18 F-FET-PET. Maximum and mean tumor/brain ratios (TBR max and TBR mean ) of 18 F-FET uptake as well as time-to-peak (TTP) and patterns of the time-activity curves were determined. The final diagnosis of true progression versus late PsP was based on follow-up MRI using RANO criteria.Results: Late PsP occurred in 7 patients with a median time from radiochemotherapy completion of 24 weeks while the remaining patients showed true tumor progression. TBR max and TBR mean were significantly higher in patients with true progression than in patients with late PsP (TBR max 2.4 AE 0.1 vs. 1.5 AE 0.2, P ¼ 0.003; TBR mean 2.1 AE 0.1 vs. 1.5 AE 0.2, P ¼ 0.012) whereas TTP was significantly shorter (mean TTP 25 AE 2 vs. 40 AE 2 min, P < 0.001). ROC analysis yielded an optimal cutoff value of 1.9 for TBR max to differentiate between true progression and late PsP (sensitivity 84%, specificity 86%, accuracy 85%, P ¼ 0.015).Conclusions: O-(2-[ 18 F]fluoroethyl)-L-tyrosine PET provides valuable information in assessing the elusive phenomenon of late PsP. Clin Cancer Res; 22(9); 2190-6. Ó2015 AACR.

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Section: Discussionsupporting

confidence: 79%

Late Pseudoprogression in Glioblastoma: Diagnostic Value of Dynamic O-(2-[18F]fluoroethyl)-L-Tyrosine PET

Kebir

Fimmers

Galldiks

et al. 2016

Clinical Cancer Research

114

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“…Whether dynamic PET parameters before further therapies do have a prognostic value at initial diagnosis, such as shown in primary gliomas (14,15), has to be evaluated in prospective settings. Additionally, all metastatic lesions showed time-activity curves characteristic for brain neoplasms, whereas no time-activity curve with a shape specific for vascular structures was seen.…”

Section: Discussionmentioning

confidence: 99%

“…Time-activity curve grades 1-2 were then classified as increasing time-activity curves and grades 3-5 as decreasing timeactivity curves. Additionally, the TTP was assessed in each slice within the tumor and the shortest TTP in at least 2 consecutive slices was defined as TTP min , as previously published (15). At the FZJ, dynamic 18 F-FET PET imaging was performed as described elsewhere (23).…”

Section: Pet Acquisition and Data Evaluationmentioning

confidence: 99%

“…Furthermore, patterns of timeactivity-curves and minimal time-to-peak (TTP min ) values derived from dynamic 18 F-FET PET provide more detailed information on glioma characteristics. For example, it has been demonstrated that dynamic 18 F-FET PET parameters have a high prognostic value in newly diagnosed low-and high-grade glioma (14,15). In secondary cerebral neoplasms, a few PET studies on pretreated brain metastases are currently available and have assessed the value of amino acid PET for the differentiation of recurrent disease from radiation-induced changes after radiotherapy (13,(16)(17)(18)(19).…”

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confidence: 99%

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¹⁸F-FET PET Uptake Characteristics in Patients with Newly Diagnosed and Untreated Brain Metastasis

Galldiks

Suchorska

Kowalew³

et al. 2016

J Nucl Med

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In patients with brain metastasis, PET using labeled amino acids has gained clinical importance, mainly regarding the differentiation of viable tumor tissue from treatment-related effects. However, there is still limited knowledge concerning the uptake characteristics in patients with newly diagnosed and untreated brain metastases. Hence, we evaluated the uptake characteristics in these patients using dynamic . In 39 of 45 brain metastases eligible for dynamic analysis, a wide range of TTP min was observed (median, 22.5 min; range, 4.5-47.5 min). All 18 F-FETnegative metastases had a diameter of # 1.0 cm, whereas metastases with a . 1.0 cm diameter all showed pathologic 18 F-FET uptake, which did not correlate with lesion size. The highest variability of uptake intensity was observed within the group of melanoma metastases. Conclusion: Untreated metastases predominantly show increased 18 F-FET uptake, and only a third of metastases , 1.0 cm were 18 F-FET-negative, most likely because of scanner resolution and partial-volume effects. In metastases . 1.0 cm, 18 F-FET uptake intensity was highly variable and independent of tumor size (even intraindividually). 18 F-FET PET might provide additional information beyond the tumor extent by reflecting molecular features of a metastasis and might be a useful tool for future clinical applications, for example, response assessment. Br ain metastases are secondary intracerebral neoplasms and occur in up to 17% of all cancer patients. Because of the improved treatment options for extracranial primary tumors with consecutive prolonged survival, the incidence of brain metastases is expected to increase. The most common originating primary tumors are lung cancer, breast cancer, and malignant melanoma (in sum up to 80% of all metastases) (1).Systemic treatment usually consists of chemotherapy, immunotherapies, and targeted therapy, which, however, are mostly unable to cross the blood-brain barrier (BBB) (2,3). In brain metastases, treatment options such as whole resection, whole-brain radiation therapy, external fractionated radiotherapy, radiosurgery, and brachytherapy (4,5) are frequently used; additionally, recent experimental developments are heading toward new immunotherapies being able to cross the BBB (6).Currently, contrast-enhanced standard MRI represents the diagnostic gold standard in the clinical management of patients with brain metastases (7). However, the diagnostic performance of this technique is limited regarding the differentiation between primary and secondary intracerebral malignancies, tumor delineation, differentiation of recurrent brain metastasis from posttherapeutic effects, and providing prognostic information in newly diagnosed brain tumors (8,9). Thus, there is an increasing demand for additional imaging options.Regarding the diagnostic evaluation of intracerebral neoplasms, molecular imaging using PET has gained great importance. Particularly, radiolabeled amino acids such as O-(2-18 F-fluoroethyl)-L-tyrosine ( 18 F-FET) were reported to be particula...

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“…During recent years, 18 F-FET PET has been increasingly used to optimize and individualize the specific therapy: 18 F-FET PET has shown its value for biopsy guidance and planning of surgery and radiotherapy (4)(5)(6). Furthermore, dynamic 18 F-FET PET has shown utility for the estimation of tumor grade (7)(8)(9) and a remarkably high prognostic value in newly diagnosed glioma using the analysis of the timeactivity curves including the parameter minimal time to peak (TTP min ), for which short TTP min was associated with worse outcome (10,11). Besides these clinically relevant features at primary diagnosis, 18 F-FET PET imaging was shown to improve disease monitoring by early identification of tumor recurrence and progression and discrimination from posttherapeutic changes (12)(13)(14)(15)(16)(17).…”

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Serial ¹⁸F-FET PET Imaging of Primarily ¹⁸F-FET–Negative Glioma: Does It Make Sense?

et al. 2016

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PET with O-(2-18 F-fluoroethyl)-L-tyrosine ( 18 F-FET) has gained increasing importance for glioma management. With regard to the occurrence of 18 F-FET-negative glioma, we investigated the value of 18 F-FET PET monitoring of primarily 18 F-FET-negative gliomas concerning the detection of progression and malignant transformation. Methods: We included 31 patients (26 World Health Organization [WHO] grade II, 5 WHO grade III) with primarily 18 F-FET-negative glioma and available 18 F-FET PET follow-up. 18 F-FET PET analysis comprised maximal tumor-to-background ratio (TBR max ) and dynamic analysis of tumoral 18 F-FET uptake over time (increasing vs. decreasing) including minimal time to peak (TTP min ). PET findings were correlated with MRI and clinical findings of progression as well as histology of recurrent tumors. Results: Twenty-three of 31 patients experienced tumor progression (median progression-free survival, 41.7 mo). Fourteen of 23 patients showed tumoral 18 F-FET uptake concurrent to and 4 of 23 before MRI-derived or clinical signs of tumor progression; 2 of 23 patients presented signs of progression in MRI when no concomitant 18 F-FET PET was available, but subsequent follow-up PET was positive. In 3 of 23 patients, no 18 F-FET uptake was detected at tumor progression. Overall, 20 of 31 primarily 18 F-FET-negative glioma turned 18 F-FET-positive during the followup. At first occurrence of tumoral 18 F-FET uptake, TBR max was significantly higher in patients with malignant transformation (11/20) than in those without malignant progression (3.2 ± 0.9 vs. 1.9 ± 0.5; P 5 0.001), resulting in a high detection rate for malignant transformation (for TBR max . 2.46: sensitivity, 82%; specificity, 89%; negative predictive value, 80%; positive predictive value, 90%; and accuracy, 85%). Although static evaluation was superior to dynamic analysis for the detection of malignant transformation (for TTP min # 17.5 min: sensitivity, 73%; specificity, 67%; negative predictive value, 67%; positive predictive value, 73%; and accuracy, 70%), short TTP min was associated with an early malignant transformation in the further disease course. Overall, 18 of 31 patients experienced malignant transformation; of these, 16 of 17 (94%) evaluable patients showed 18 F-FET uptake at the time of malignant transformation. Conclusion: 18 F-FET PET monitoring with static and dynamic evaluation is useful even in primarily 18 F-FET-negative glioma, providing a high detection rate of both tumor progression and malignant transformation, partly before further signs of progression in MRI. Hence, 18 F-FET uptake indicating malignant transformation might influence the patient management.

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Prognostic Significance of Dynamic ¹⁸F-FET PET in Newly Diagnosed Astrocytic High-Grade Glioma

Cited by 147 publications

References 35 publications

Late Pseudoprogression in Glioblastoma: Diagnostic Value of Dynamic O-(2-[18F]fluoroethyl)-L-Tyrosine PET

Late Pseudoprogression in Glioblastoma: Diagnostic Value of Dynamic O-(2-[18F]fluoroethyl)-L-Tyrosine PET

¹⁸F-FET PET Uptake Characteristics in Patients with Newly Diagnosed and Untreated Brain Metastasis

Serial ¹⁸F-FET PET Imaging of Primarily ¹⁸F-FET–Negative Glioma: Does It Make Sense?

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Prognostic Significance of Dynamic 18F-FET PET in Newly Diagnosed Astrocytic High-Grade Glioma

Cited by 147 publications

References 35 publications

Late Pseudoprogression in Glioblastoma: Diagnostic Value of Dynamic O-(2-[18F]fluoroethyl)-L-Tyrosine PET

Late Pseudoprogression in Glioblastoma: Diagnostic Value of Dynamic O-(2-[18F]fluoroethyl)-L-Tyrosine PET

18F-FET PET Uptake Characteristics in Patients with Newly Diagnosed and Untreated Brain Metastasis

Serial 18F-FET PET Imaging of Primarily 18F-FET–Negative Glioma: Does It Make Sense?

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Prognostic Significance of Dynamic ¹⁸F-FET PET in Newly Diagnosed Astrocytic High-Grade Glioma

¹⁸F-FET PET Uptake Characteristics in Patients with Newly Diagnosed and Untreated Brain Metastasis

Serial ¹⁸F-FET PET Imaging of Primarily ¹⁸F-FET–Negative Glioma: Does It Make Sense?