Qualitative Assessment of Advanced MRI in Post-Treatment High Grade Gliomas Follow Up: Do We Agree?

Zakhari, Nader; Taccone, Michael S.; Torres, Carlos; Chakraborty, Santanu; Sinclair, John; Woulfe, John; Jansen, Gerard H.; Cron, Greg O.; Nguyen, Thanh Binh

doi:10.1177/08465371211013568

Cited by 2 publications

(3 citation statements)

References 27 publications

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“…Importantly, when dynamic susceptibility contrast or dynamic contrast-enhanced MRI is suboptimal or nondiagnostic, 18 F-FET PET still supports high clinician diagnostic confidence because it resists PWI failure (36). Because interreader qualitative assessment varies with PWI alone (37), complementary imaging enables a more robust diagnostic outcome. Previous studies have advocated for sequential PWI and 18 F-FET PET in glioma evaluation due to a 100% reported positive predictive value for rCBV, but our reported 93% positive predictive value for rCBV did not exceed that of TBR mean or TBR max (96% and 97%, respectively) (38).…”

Section: Discussionmentioning

confidence: 99%

Hybrid¹⁸F-Fluoroethyltyrosine PET and MRI with Perfusion to Distinguish Disease Progression from Treatment-Related Change in Malignant Brain Tumors: The Quest to Beat the Toughest Cases

et al. 2023

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Conventional MRI has important limitations when assessing for progression of disease (POD) versus treatment-related changes (TRC) in patients with malignant brain tumors. We describe the observed impact and pitfalls of implementing 18 F-fluoroethyltyrosine ( 18 F-FET) perfusion PET/MRI into routine clinical practice. Methods: Through expanded-access investigational new drug use of 18 F-FET, hybrid 18 F-FET perfusion PET/MRI was performed during clinical management of 80 patients with World Health Organization central nervous system grade 3 or 4 gliomas or brain metastases of 6 tissue origins for which the prior brain MRI results were ambiguous. The diagnostic performance with 18 F-FET PET/MRI was dually evaluated within routine clinical service and for retrospective parametric evaluation. Various 18 F-FET perfusion PET/MRI parameters were assessed, and patients were monitored for at least 6 mo to confirm the diagnosis using pathology, imaging, and clinical progress. Results: Hybrid 18 F-FET perfusion PET/MRI had high overall accuracy (86%), sensitivity (86%), and specificity (87%) for difficult diagnostic cases for which conventional MRI accuracy was poor (66%). 18 F-FET tumor-to-brain ratio static metrics were highly reliable for distinguishing POD from TRC (area under the curve, 0.90). Dynamic tumor-to-brain intercept was more accurate (85%) than SUV slope (73%) or time to peak (73%). Concordant PET/MRI findings were 89% accurate. When PET and MRI conflicted, 18 F-FET PET was correct in 12 of 15 cases (80%), whereas MRI was correct in 3 of 15 cases (20%). Clinical management changed after 88% (36/41) of POD diagnoses, whereas management was maintained after 87% (34/39) of TRC diagnoses. Conclusion: Hybrid 18 F-FET PET/MRI positively impacted the routine clinical care of challenging malignant brain tumor cases at a U.S. institution. The results add to a growing body of literature that 18 F-FET PET complements MRI, even rescuing MRI when it fails.

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Section: Discussionmentioning

confidence: 99%

Hybrid¹⁸F-Fluoroethyltyrosine PET and MRI with Perfusion to Distinguish Disease Progression from Treatment-Related Change in Malignant Brain Tumors: The Quest to Beat the Toughest Cases

et al. 2023

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“…Among patients without or with decreased post-radiotherapy necrosis, the median OS was 17.6 months and 18.1 months for patients that did and did not use bevacizumab, respectively (M). Relevant Kaplan-Meier plots are shown (after [44][45][46][47] with permission).…”

Section: Pseudoprogression and Other Post-treatment Effectsmentioning

confidence: 99%

“…The concordance between different diagnosticians using visual qualitative assessments of MRI images, compared to the concordance of different quantitative perfusion measurements, was studied by Zakhari and colleagues (Figure 5E-G) (Table 1). While quantitative measurements of DSC and dynamic CE (DCE) perfusion maps showed satisfactory inter-rater agreements, qualitative assessment using only conventional MRI images had an inferior inter-observer agreement and was insufficient for a correct diagnostic interpretation [45]. L,M).…”

Section: Pseudoprogression and Other Post-treatment Effectsmentioning

confidence: 99%

Advancements in Image-Based Models for High-Grade Gliomas Might Be Accelerated

Frosina

2024

Cancers

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The first half of 2022 saw the publication of several major research advances in image-based models and artificial intelligence applications to optimize treatment strategies for high-grade gliomas, the deadliest brain tumors. We review them and discuss the barriers that delay their entry into clinical practice; particularly, the small sample size and the heterogeneity of the study designs and methodologies used. We will also write about the poor and late palliation that patients suffering from high-grade glioma can count on at the end of life, as well as the current legislative instruments, with particular reference to Italy. We suggest measures to accelerate the gradual progress in image-based models and end of life care for patients with high-grade glioma.

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Qualitative Assessment of Advanced MRI in Post-Treatment High Grade Gliomas Follow Up: Do We Agree?

Cited by 2 publications

References 27 publications

Hybrid¹⁸F-Fluoroethyltyrosine PET and MRI with Perfusion to Distinguish Disease Progression from Treatment-Related Change in Malignant Brain Tumors: The Quest to Beat the Toughest Cases

Hybrid¹⁸F-Fluoroethyltyrosine PET and MRI with Perfusion to Distinguish Disease Progression from Treatment-Related Change in Malignant Brain Tumors: The Quest to Beat the Toughest Cases

Advancements in Image-Based Models for High-Grade Gliomas Might Be Accelerated

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Qualitative Assessment of Advanced MRI in Post-Treatment High Grade Gliomas Follow Up: Do We Agree?

Cited by 2 publications

References 27 publications

Hybrid18F-Fluoroethyltyrosine PET and MRI with Perfusion to Distinguish Disease Progression from Treatment-Related Change in Malignant Brain Tumors: The Quest to Beat the Toughest Cases

Hybrid18F-Fluoroethyltyrosine PET and MRI with Perfusion to Distinguish Disease Progression from Treatment-Related Change in Malignant Brain Tumors: The Quest to Beat the Toughest Cases

Advancements in Image-Based Models for High-Grade Gliomas Might Be Accelerated

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Hybrid¹⁸F-Fluoroethyltyrosine PET and MRI with Perfusion to Distinguish Disease Progression from Treatment-Related Change in Malignant Brain Tumors: The Quest to Beat the Toughest Cases

Hybrid¹⁸F-Fluoroethyltyrosine PET and MRI with Perfusion to Distinguish Disease Progression from Treatment-Related Change in Malignant Brain Tumors: The Quest to Beat the Toughest Cases