Eivind Antonsen Segtnan

Dual-time-point Imaging and Delayed-time-point Fluorodeoxyglucose-PET/Computed Tomography Imaging in Various Clinical Settings

The techniques of dual-time-point imaging (DTPI) and delayed-time-point imaging, which are mostly being used for distinction between inflammatory and malignant diseases, has increased the specificity of fluorodeoxyglucose (FDG)-PET for diagnosis and prognosis of certain diseases. A gradually increasing trend of FDG uptake over time has been shown in malignant cells, and a decreasing or constant trend has been shown in inflammatory/infectious processes. Tumor heterogeneity can be assessed by using early and delayed imaging because differences between primary versus metastatic sites become more detectable compared with single time points. This article discusses the applications of DTPI and delayed-time-point imaging.

18F-Fluorodeoxyglucose PET/Computed Tomography for Primary Brain Tumors

Structural imaging with computed tomography (CT) and MR imaging is the mainstay in primary diagnosis of primary brain tumors, but these modalities depend on morphologic appearance and an intact blood-brain barrier, and important aspects of tumor biology are not addressed. Such issues may be alleviated by (18)F-fluorodeoxyglucose (FDG)-PET and FDG-PET/CT imaging, which may provide clinically important information with regard to primary differentiation between tumor types, initial staging and risk stratification, therapy planning, response evaluation, and recurrence detection. This article describes some of the potential contemporary applications of FDG and PET in primary brain tumors.

Global and regional brain glucose metabolism decline after systemic chemotherapy

Dear Sir, In recent years, few studies have shown the ability of F-fluorodeoxyglucose positron emission tomography (FDG PET) imaging along with standard semiquantitative measurement indices [e.g., standardized uptake value (SUVmean and SUVmax)] in detecting decreased cerebral function following chemotherapy [1]. Although the life expectancy of patients with cancer has improved with modern chemotherapeutic agents, the adverse effects of such therapies on brain function have become the focus of research in recent years [2]. The results from Horky et al. show a significant decrease of cerebral glucose metabolism post-chemotherapy. The authors analyzed longitudinal FDG PET images of patients with non-central nervous system (CNS) cancers, before and after systemic chemotherapy. They placed a region of interest (ROI) around target areas in coregistered MRI/ PET images and measured the activity of each brain structure in a single transverse slice of that specific structure. Regional semiquantitative indices showed decreased glucose metabolic function in almost all brain areas (SUVmax declines vary from 9 to 24 % and SUVmean declines vary from 6 to 26 % in different areas). Comparing baseline to posttreatment images, they found a mean overall decrease of 22 % (SUVmean) in glucose metabolism in the gray matter and also significant reduction of metabolism in the white matter and germinal zones [3]. The methodology adopted and the data generated by Horky et al. are informative and interesting, especially the observation that a decline in brain function occurs in the entire brain in these patients (Fig. 1) [3]. In line with these findings in a recent paper by Sorokin et al. [4], we reported a significant decline in global brain function as measured by the degree of FDG uptake following chemotherapy. The authors used the imaging software ROVER® (ABX, Hamburg, Germany) for whole cortex quantification. ROVER provides one sole number for the global activity, as a result of default algorithms combining volumetric and metabolic information (Fig. 2). Hence, a total glycolysis assessment is provided, done in an easy and solid fashion. Sorokin et al. analyzed preand post-chemotherapy FDG PET brain images in a selected group of non-CNS cancer patients and found a decrease of 16.9±5.04 % in global cortical metabolism after chemotherapy. In addition to assessing global cortical function with this technique, our group has explored the role of this technique in measuring metabolic activity of subcortical structures (i.e., basal ganglia) and cerebellum in patients with memory loss and dementia [5]. Therefore, we believe methods for quantitatively measuring the whole cerebral cortex, as one functional unit, in addition to regional analysis, will succeed as a way for exploring and heightening our understanding of brain functionality and biology. S. Gholami :A. Alavi (*) Department of Radiology, Hospital of the University of Pennsylvania, 3400 Spruce Street, Philadelphia, PA 19104, USA e-mail: abass.alavi@uphs.upenn.edu

Prognostic implications of total hemispheric glucose metabolism ratio in cerebro-cerebellar diaschisis

Diaschisis denotes brain dysfunction remote from a focal brain lesion. We have quantified diaschisis and investigated its prognostic value in glioma. Methods: We compared 50 18F-FDG PET/CT studies collected prospectively from 14 patients with supratentorial glioma (5 men and 9 women; age range, 35–77 y) with 10 single scans from healthy controls (age range, 43–75 y). Dedicated 3-dimensional segmentation software was used to obtain total hemispheric glucose metabolic ratios (THGr) by dividing total hemispheric 18F-FDG uptake in each diaschitic hemisphere—that is, the ipsilateral cerebral hemisphere (THGr(Ce)) and the contralateral cerebellar hemisphere (THGr(Cb))—by its respective contralateral side. Receiver-operating-characteristic (ROC) analysis was performed to determine optimal cut-offs for combinations of THGr(Ce) and THGr(Cb). Two independent observers obtained data for reproducibility analysis, and THGr values were compared with qualitative assessment of diaschisis performed by a PET neuroimaging specialist. Results: Qualitative analysis confirmed cerebrocerebellar diaschisis in all glioblastoma PET studies performed within 1 y of death. Healthy subjects had significantly higher THGr(Ce) values (P = 0.0007) and THGr(Cb) values (P = 0.02) than glioblastoma patients. ROC analysis yielded diaschisis thresholds of 0.62 for THGr(Ce) and 0.84 for THGr (Cb). Qualitative assessment demonstrated cerebral diaschisis in 16 of 17 (94%) cases with THGr(Ce) below the determined threshold and cerebellar diaschisis in 25 of 26 (96%) cases with THGr(Cb) below the determined threshold. When both THGr(Ce) and THGr(Cb) were below the ROC threshold, the combined diaschisis measures had a positive predictive value for survival below 1 y of 100%. When one parameter was below the threshold, it had a positive predictive value of 75%, and when both parameters exceeded thresholds, the negative predictive value for survival above 1 y was 79%. Median interrater variability was 3.3% and 5.9% for THGr(Ce) and THGr(Cb), respectively. Conclusion: The THGr measures demonstrated diaschisis in the cerebrum and cerebellum of patients with glioma. Combined cerebrocerebellar diaschisis ratios with ROC thresholds for both forebrain and hindbrain had high negative and positive predictive values for survival for less than a year. The THGr method allows comparison of data obtained at different institutions and is now open for further validation in gliomas and other cerebral diseases.

Diagnostic implications of total hemi-spheric glucose metabolism ratio in Mild cognitive impairment and Alzheimer´s disease

European Journal of Nuclear Medicine and Molecular Imaging Volume 44, Supplement 2 10.1007/s00259-017-3822-1 This supplement was not sponsored by outside commercial interests. It was funded entirely by the association’s own resources DOI 10.1007/s00259-017-3822-1 S119 Eur J Nucl Med Mol Imaging (2017) 44 (Suppl 2):S119–S956

Intra- and interrater agreement with quantitative positron emission tomography measures using variance components analysis

Joris de Groot, Christiana Naaktgeboren, Hans Reitsma, Carl Moons Julius Center for Health Sciences and Primary Care, University Medical Center Utrecht, 3584 CG Utrecht, Netherlands Correspondence: Joris de Groot (j.degroot-17@umcutrecht.nl) A major contributor to the rising problem of overdiagnosis, with the subsequent risk of overtreatment, is the development of highly sensitive diagnostic technologies that challenge and sometimes expand prevailing disease definitions. Although the value of such new technology might be that it identifies new, milder, earlier or even other abnormalities, it is uncertain whether these “abnormalities” provide the same diagnostic and prognostic information, or require the same treatment as the original targeted disease. It is often unclear which of the newly detected abnormalities are benign and how many people might be diagnosed and treated unnecessarily as a result of widespread introduction of the new test. Failure to investigate the clinical relevance of broadening disease definitions which include these newly detected abnormalities may therefore lead to overdiagnosis and overtreatment. Spiral CT used in diagnosing pulmonary embolism, detecting small subsegmental embolisms, has been mentioned as an example of such situation. On-going technological advancements in medicine will only further increase the development of new diagnostic technologies that challenge existing disease definitions. We show why traditional cross-sectional diagnostic accuracy studies are insufficient to evaluate such new tests and how methodology for assessing their performance should catch up and keep pace with present-day technological developments. It is crucial to improve data analysis and presentation of current diagnostic studies, to make better use of existing data, or ultimately perform test-treatment trials to answer the question whether introduction of a new high sensitive test will in fact improve patient relevant outcomes, or rather induce overdiagnosis and overtreatment.

Intra- and Interobserver Agreement with Quantitative PET Measures: Deriving Repeatability Coefficients from Variance Component Analysis

Hypothesis: We assessed in in vitro and in vivo models of ovarian cancer the therapeutic efficacy of 16F12 mAbs directed against Mullerian Inhibiting Substance type II receptor (MISRII) radiolabeled with 213Bi Methods: In vitro, both direct and bystander cytotoxic effects were measured using clonogenic assay and standard medium transfer protocol. Typically, Clonogenic survival was assessed in SK-OV-3 donor cells expressing MISRII and exposed for 90 min to 0.06-0.5MBq/mL of 16F12 213Bi-mAbs. Bystander cytotoxicity was measured in recipient cells grown in non-radioactive culture medium preconditioned for 2 hours in the presence of donor cells. DNA double strand breaks (DSBs) were measured in both donor and recipients cells using immunofluorescent detection of gamma-H2AX and of 53BP1. In vivo we explored in athymic nude mice bearing intraperitoneal (IP) MISRII-expressing AN3CA tumor the therapeutic efficacy of brief-intraperitoneal radioimmunotherapy (BIP-RIT, 12.95 37 MBq; 37MBq/mg) or of intraperitoneal RIT (IP-RIT; 2.96-12.95 MBq; 37MBq/mg) using 213Bi-16F12. BIP-RIT mimics hyperthermic intraperitoneal chemotherapy as used in clinic. It consists of intraperitoneal injection of high activities of radiolabeled mAbs followed 30 min later by wash of the peritoneal cavity with saline solution to remove unbound radioactivity. The biodistribution of radiolabeled antibodies following IP-RIT (12.95 MBq; 37MBq/mg) or BIP-RIT (37 MBq; 37MBq/mg) was assessed. Results: In vitro we showed in donor cells a strong direct cytotoxicity of 16F12 213Bi-mAbs. A significant bystander cytotoxicity was also measured in recipient cells. Genotoxic effects were also demonstrated as measured by the formation of DNA DSBs in both donor and recipient cells. In vivo, results of biodistribution indicated that tumour uptake of 213Bi-16F12 during BIP RIT was higher than after IP RIT. The tumour-to-blood uptake ratio was 9 versus 3, respectively, one hour post RIT while it decreased down to 3 and 1, respectively, three hours post-RIT. Finally, a similar delay in tumor growth was observed in mice treated with 12.95 MBq of 213Bi-16F12 following IP-RIT or treated with 37 MBq using BIP-RIT. Conclusions: We confirmed in vitro the therapeutic efficacy of newly developed 16F12 213Bi-mAbs. in vivo results indicate that similar therapeutic efficacy and lower toxicity could be obtained with BIP-RIT compared with IP-RIT. BIP-RIT could be a new tool in the therapy of peritoneal carcinomatosis. URI: Authors: LADJOHOUNLOU Riad PICHARD Alexandre DEHAYES E BOUDOUSQ Vincent BRUCHERTSEIFER Frank MORGENSTERN Alfred NAVARRO-TEULON Isabelle POUGET Jean-Pierre Publication Year: 2016 Science Areas: Health and consumer protection [1]European Journal of Nuclear Medicine and Molecular Imaging Volume 43, Supplement 1 10.1007/s00259-016-3484-4 This supplement was not sponsored by outside commercial interests. It was funded entirely by the association’s own resources. ABSTRACT DOI 10.1007/s00259-016-3484-4 Eur J Nucl Med Mol Imaging (2016) 43 (Suppl 1):S1–S734Background: In the context of the EORTC LungTech trial, a QA procedure including a PET/CT credentialing has been developed. This procedure will ultimately allow us to pool data from 23 institutions with the overall goal of investigating the impact of tumour motion on quantification. As no standardized procedure exists under respiratory conditions, we investigated the variability of 14 SUV metrics to assess their robustness over respiratory noise. Methods: The customized CIRS-008A phantom was scanned at 13 institutions. This phantom consists of a 18 cm long body, a rod attached to a motion actuator, and a sphere of either 1.5 or 2.5cm diameters. Body, rods and spheres were filled with homogeneous 18FDG solutions representative of activity concentrations in mediastinum, lung and tumour for a 70kg patient. Three respiratory patterns with peak-to-peak amplitudes and periods of 15mm/3sec, 15mm/6sec and 25mm/4sec were tested. Prior to scanning in respiratory condition, a 3D static PET/CT was acquired as reference. During motion, images were acquired using 3D or 4D gated PET(average image) according to institutional settings. 14 SUV(mean) metrics were obtained per acquisition varying VOI/ ROI shape and location. Three ROIs and three VOIs with respective radii of 0.5, 0.6 and 0.8cm were investigated. These ROIs/VOIs were first centred on the maximum activity voxel; a second analysis was made changing the location from the voxel to the region (ROI5voxels) or the volume (VOI7voxels) with the maximum value. Two additional VOIs were defined as 3D isocontours respectively at 70% and 50% of the maximum voxel value. The SUV metrics were normalized by the corresponding 3D static SUV. Converting to recovery coefficients (RC) allowed us to pool data from all institutions, while maintaining focus solely on motion. For each RC from each motion setting we calculated the mean over institutions, we then looked at the standard deviation (Sd) and spread of each averaged RC over each motion setting (formula [1], [2], Figure1). Results: For the institutions visited we found that RCVOI70% and RCVOI50%, yielded over the 14 metrics the lowest variability to motion with Sd of 0.04 and 0.03 respectively. The RCs based on ROIs/VOIs centered on a single voxel were less impacted by motion (Sd: 0.08) compared to region RCs (Sd: 0.14). The averaged Sd over the RCs based on VOIs and ROIs was 0.12 and 0.11 respectively. Conclusion: Quantification over breathing types depends on ROI/VOI definition. Variables based on SUV max thresholds were found the most robust against respiratory noise.

Biological mechanisms of FDG uptake in nonsmall cell lung cancer

Hypothesis: We assessed in in vitro and in vivo models of ovarian cancer the therapeutic efficacy of 16F12 mAbs directed against Mullerian Inhibiting Substance type II receptor (MISRII) radiolabeled with 213Bi Methods: In vitro, both direct and bystander cytotoxic effects were measured using clonogenic assay and standard medium transfer protocol. Typically, Clonogenic survival was assessed in SK-OV-3 donor cells expressing MISRII and exposed for 90 min to 0.06-0.5MBq/mL of 16F12 213Bi-mAbs. Bystander cytotoxicity was measured in recipient cells grown in non-radioactive culture medium preconditioned for 2 hours in the presence of donor cells. DNA double strand breaks (DSBs) were measured in both donor and recipients cells using immunofluorescent detection of gamma-H2AX and of 53BP1. In vivo we explored in athymic nude mice bearing intraperitoneal (IP) MISRII-expressing AN3CA tumor the therapeutic efficacy of brief-intraperitoneal radioimmunotherapy (BIP-RIT, 12.95 37 MBq; 37MBq/mg) or of intraperitoneal RIT (IP-RIT; 2.96-12.95 MBq; 37MBq/mg) using 213Bi-16F12. BIP-RIT mimics hyperthermic intraperitoneal chemotherapy as used in clinic. It consists of intraperitoneal injection of high activities of radiolabeled mAbs followed 30 min later by wash of the peritoneal cavity with saline solution to remove unbound radioactivity. The biodistribution of radiolabeled antibodies following IP-RIT (12.95 MBq; 37MBq/mg) or BIP-RIT (37 MBq; 37MBq/mg) was assessed. Results: In vitro we showed in donor cells a strong direct cytotoxicity of 16F12 213Bi-mAbs. A significant bystander cytotoxicity was also measured in recipient cells. Genotoxic effects were also demonstrated as measured by the formation of DNA DSBs in both donor and recipient cells. In vivo, results of biodistribution indicated that tumour uptake of 213Bi-16F12 during BIP RIT was higher than after IP RIT. The tumour-to-blood uptake ratio was 9 versus 3, respectively, one hour post RIT while it decreased down to 3 and 1, respectively, three hours post-RIT. Finally, a similar delay in tumor growth was observed in mice treated with 12.95 MBq of 213Bi-16F12 following IP-RIT or treated with 37 MBq using BIP-RIT. Conclusions: We confirmed in vitro the therapeutic efficacy of newly developed 16F12 213Bi-mAbs. in vivo results indicate that similar therapeutic efficacy and lower toxicity could be obtained with BIP-RIT compared with IP-RIT. BIP-RIT could be a new tool in the therapy of peritoneal carcinomatosis. URI: Authors: LADJOHOUNLOU Riad PICHARD Alexandre DEHAYES E BOUDOUSQ Vincent BRUCHERTSEIFER Frank MORGENSTERN Alfred NAVARRO-TEULON Isabelle POUGET Jean-Pierre Publication Year: 2016 Science Areas: Health and consumer protection [1]European Journal of Nuclear Medicine and Molecular Imaging Volume 43, Supplement 1 10.1007/s00259-016-3484-4 This supplement was not sponsored by outside commercial interests. It was funded entirely by the association’s own resources. ABSTRACT DOI 10.1007/s00259-016-3484-4 Eur J Nucl Med Mol Imaging (2016) 43 (Suppl 1):S1–S734Background: In the context of the EORTC LungTech trial, a QA procedure including a PET/CT credentialing has been developed. This procedure will ultimately allow us to pool data from 23 institutions with the overall goal of investigating the impact of tumour motion on quantification. As no standardized procedure exists under respiratory conditions, we investigated the variability of 14 SUV metrics to assess their robustness over respiratory noise. Methods: The customized CIRS-008A phantom was scanned at 13 institutions. This phantom consists of a 18 cm long body, a rod attached to a motion actuator, and a sphere of either 1.5 or 2.5cm diameters. Body, rods and spheres were filled with homogeneous 18FDG solutions representative of activity concentrations in mediastinum, lung and tumour for a 70kg patient. Three respiratory patterns with peak-to-peak amplitudes and periods of 15mm/3sec, 15mm/6sec and 25mm/4sec were tested. Prior to scanning in respiratory condition, a 3D static PET/CT was acquired as reference. During motion, images were acquired using 3D or 4D gated PET(average image) according to institutional settings. 14 SUV(mean) metrics were obtained per acquisition varying VOI/ ROI shape and location. Three ROIs and three VOIs with respective radii of 0.5, 0.6 and 0.8cm were investigated. These ROIs/VOIs were first centred on the maximum activity voxel; a second analysis was made changing the location from the voxel to the region (ROI5voxels) or the volume (VOI7voxels) with the maximum value. Two additional VOIs were defined as 3D isocontours respectively at 70% and 50% of the maximum voxel value. The SUV metrics were normalized by the corresponding 3D static SUV. Converting to recovery coefficients (RC) allowed us to pool data from all institutions, while maintaining focus solely on motion. For each RC from each motion setting we calculated the mean over institutions, we then looked at the standard deviation (Sd) and spread of each averaged RC over each motion setting (formula [1], [2], Figure1). Results: For the institutions visited we found that RCVOI70% and RCVOI50%, yielded over the 14 metrics the lowest variability to motion with Sd of 0.04 and 0.03 respectively. The RCs based on ROIs/VOIs centered on a single voxel were less impacted by motion (Sd: 0.08) compared to region RCs (Sd: 0.14). The averaged Sd over the RCs based on VOIs and ROIs was 0.12 and 0.11 respectively. Conclusion: Quantification over breathing types depends on ROI/VOI definition. Variables based on SUV max thresholds were found the most robust against respiratory noise.

Repeat assessment of total hemispheric glycolysis by FDG-PET/CT: Variability with reuse of baseline masks defined by dedicated software

Hypothesis: We assessed in in vitro and in vivo models of ovarian cancer the therapeutic efficacy of 16F12 mAbs directed against Mullerian Inhibiting Substance type II receptor (MISRII) radiolabeled with 213Bi Methods: In vitro, both direct and bystander cytotoxic effects were measured using clonogenic assay and standard medium transfer protocol. Typically, Clonogenic survival was assessed in SK-OV-3 donor cells expressing MISRII and exposed for 90 min to 0.06-0.5MBq/mL of 16F12 213Bi-mAbs. Bystander cytotoxicity was measured in recipient cells grown in non-radioactive culture medium preconditioned for 2 hours in the presence of donor cells. DNA double strand breaks (DSBs) were measured in both donor and recipients cells using immunofluorescent detection of gamma-H2AX and of 53BP1. In vivo we explored in athymic nude mice bearing intraperitoneal (IP) MISRII-expressing AN3CA tumor the therapeutic efficacy of brief-intraperitoneal radioimmunotherapy (BIP-RIT, 12.95 37 MBq; 37MBq/mg) or of intraperitoneal RIT (IP-RIT; 2.96-12.95 MBq; 37MBq/mg) using 213Bi-16F12. BIP-RIT mimics hyperthermic intraperitoneal chemotherapy as used in clinic. It consists of intraperitoneal injection of high activities of radiolabeled mAbs followed 30 min later by wash of the peritoneal cavity with saline solution to remove unbound radioactivity. The biodistribution of radiolabeled antibodies following IP-RIT (12.95 MBq; 37MBq/mg) or BIP-RIT (37 MBq; 37MBq/mg) was assessed. Results: In vitro we showed in donor cells a strong direct cytotoxicity of 16F12 213Bi-mAbs. A significant bystander cytotoxicity was also measured in recipient cells. Genotoxic effects were also demonstrated as measured by the formation of DNA DSBs in both donor and recipient cells. In vivo, results of biodistribution indicated that tumour uptake of 213Bi-16F12 during BIP RIT was higher than after IP RIT. The tumour-to-blood uptake ratio was 9 versus 3, respectively, one hour post RIT while it decreased down to 3 and 1, respectively, three hours post-RIT. Finally, a similar delay in tumor growth was observed in mice treated with 12.95 MBq of 213Bi-16F12 following IP-RIT or treated with 37 MBq using BIP-RIT. Conclusions: We confirmed in vitro the therapeutic efficacy of newly developed 16F12 213Bi-mAbs. in vivo results indicate that similar therapeutic efficacy and lower toxicity could be obtained with BIP-RIT compared with IP-RIT. BIP-RIT could be a new tool in the therapy of peritoneal carcinomatosis. URI: Authors: LADJOHOUNLOU Riad PICHARD Alexandre DEHAYES E BOUDOUSQ Vincent BRUCHERTSEIFER Frank MORGENSTERN Alfred NAVARRO-TEULON Isabelle POUGET Jean-Pierre Publication Year: 2016 Science Areas: Health and consumer protection [1]European Journal of Nuclear Medicine and Molecular Imaging Volume 43, Supplement 1 10.1007/s00259-016-3484-4 This supplement was not sponsored by outside commercial interests. It was funded entirely by the association’s own resources. ABSTRACT DOI 10.1007/s00259-016-3484-4 Eur J Nucl Med Mol Imaging (2016) 43 (Suppl 1):S1–S734Background: In the context of the EORTC LungTech trial, a QA procedure including a PET/CT credentialing has been developed. This procedure will ultimately allow us to pool data from 23 institutions with the overall goal of investigating the impact of tumour motion on quantification. As no standardized procedure exists under respiratory conditions, we investigated the variability of 14 SUV metrics to assess their robustness over respiratory noise. Methods: The customized CIRS-008A phantom was scanned at 13 institutions. This phantom consists of a 18 cm long body, a rod attached to a motion actuator, and a sphere of either 1.5 or 2.5cm diameters. Body, rods and spheres were filled with homogeneous 18FDG solutions representative of activity concentrations in mediastinum, lung and tumour for a 70kg patient. Three respiratory patterns with peak-to-peak amplitudes and periods of 15mm/3sec, 15mm/6sec and 25mm/4sec were tested. Prior to scanning in respiratory condition, a 3D static PET/CT was acquired as reference. During motion, images were acquired using 3D or 4D gated PET(average image) according to institutional settings. 14 SUV(mean) metrics were obtained per acquisition varying VOI/ ROI shape and location. Three ROIs and three VOIs with respective radii of 0.5, 0.6 and 0.8cm were investigated. These ROIs/VOIs were first centred on the maximum activity voxel; a second analysis was made changing the location from the voxel to the region (ROI5voxels) or the volume (VOI7voxels) with the maximum value. Two additional VOIs were defined as 3D isocontours respectively at 70% and 50% of the maximum voxel value. The SUV metrics were normalized by the corresponding 3D static SUV. Converting to recovery coefficients (RC) allowed us to pool data from all institutions, while maintaining focus solely on motion. For each RC from each motion setting we calculated the mean over institutions, we then looked at the standard deviation (Sd) and spread of each averaged RC over each motion setting (formula [1], [2], Figure1). Results: For the institutions visited we found that RCVOI70% and RCVOI50%, yielded over the 14 metrics the lowest variability to motion with Sd of 0.04 and 0.03 respectively. The RCs based on ROIs/VOIs centered on a single voxel were less impacted by motion (Sd: 0.08) compared to region RCs (Sd: 0.14). The averaged Sd over the RCs based on VOIs and ROIs was 0.12 and 0.11 respectively. Conclusion: Quantification over breathing types depends on ROI/VOI definition. Variables based on SUV max thresholds were found the most robust against respiratory noise.

Total hemispheric glycolysis ratio by FDG-PET/CT in gliomas; Evaluating diaschisis and potential prognostic information

Hypothesis: We assessed in in vitro and in vivo models of ovarian cancer the therapeutic efficacy of 16F12 mAbs directed against Mullerian Inhibiting Substance type II receptor (MISRII) radiolabeled with 213Bi Methods: In vitro, both direct and bystander cytotoxic effects were measured using clonogenic assay and standard medium transfer protocol. Typically, Clonogenic survival was assessed in SK-OV-3 donor cells expressing MISRII and exposed for 90 min to 0.06-0.5MBq/mL of 16F12 213Bi-mAbs. Bystander cytotoxicity was measured in recipient cells grown in non-radioactive culture medium preconditioned for 2 hours in the presence of donor cells. DNA double strand breaks (DSBs) were measured in both donor and recipients cells using immunofluorescent detection of gamma-H2AX and of 53BP1. In vivo we explored in athymic nude mice bearing intraperitoneal (IP) MISRII-expressing AN3CA tumor the therapeutic efficacy of brief-intraperitoneal radioimmunotherapy (BIP-RIT, 12.95 37 MBq; 37MBq/mg) or of intraperitoneal RIT (IP-RIT; 2.96-12.95 MBq; 37MBq/mg) using 213Bi-16F12. BIP-RIT mimics hyperthermic intraperitoneal chemotherapy as used in clinic. It consists of intraperitoneal injection of high activities of radiolabeled mAbs followed 30 min later by wash of the peritoneal cavity with saline solution to remove unbound radioactivity. The biodistribution of radiolabeled antibodies following IP-RIT (12.95 MBq; 37MBq/mg) or BIP-RIT (37 MBq; 37MBq/mg) was assessed. Results: In vitro we showed in donor cells a strong direct cytotoxicity of 16F12 213Bi-mAbs. A significant bystander cytotoxicity was also measured in recipient cells. Genotoxic effects were also demonstrated as measured by the formation of DNA DSBs in both donor and recipient cells. In vivo, results of biodistribution indicated that tumour uptake of 213Bi-16F12 during BIP RIT was higher than after IP RIT. The tumour-to-blood uptake ratio was 9 versus 3, respectively, one hour post RIT while it decreased down to 3 and 1, respectively, three hours post-RIT. Finally, a similar delay in tumor growth was observed in mice treated with 12.95 MBq of 213Bi-16F12 following IP-RIT or treated with 37 MBq using BIP-RIT. Conclusions: We confirmed in vitro the therapeutic efficacy of newly developed 16F12 213Bi-mAbs. in vivo results indicate that similar therapeutic efficacy and lower toxicity could be obtained with BIP-RIT compared with IP-RIT. BIP-RIT could be a new tool in the therapy of peritoneal carcinomatosis. URI: Authors: LADJOHOUNLOU Riad PICHARD Alexandre DEHAYES E BOUDOUSQ Vincent BRUCHERTSEIFER Frank MORGENSTERN Alfred NAVARRO-TEULON Isabelle POUGET Jean-Pierre Publication Year: 2016 Science Areas: Health and consumer protection [1]European Journal of Nuclear Medicine and Molecular Imaging Volume 43, Supplement 1 10.1007/s00259-016-3484-4 This supplement was not sponsored by outside commercial interests. It was funded entirely by the association’s own resources. ABSTRACT DOI 10.1007/s00259-016-3484-4 Eur J Nucl Med Mol Imaging (2016) 43 (Suppl 1):S1–S734Background: In the context of the EORTC LungTech trial, a QA procedure including a PET/CT credentialing has been developed. This procedure will ultimately allow us to pool data from 23 institutions with the overall goal of investigating the impact of tumour motion on quantification. As no standardized procedure exists under respiratory conditions, we investigated the variability of 14 SUV metrics to assess their robustness over respiratory noise. Methods: The customized CIRS-008A phantom was scanned at 13 institutions. This phantom consists of a 18 cm long body, a rod attached to a motion actuator, and a sphere of either 1.5 or 2.5cm diameters. Body, rods and spheres were filled with homogeneous 18FDG solutions representative of activity concentrations in mediastinum, lung and tumour for a 70kg patient. Three respiratory patterns with peak-to-peak amplitudes and periods of 15mm/3sec, 15mm/6sec and 25mm/4sec were tested. Prior to scanning in respiratory condition, a 3D static PET/CT was acquired as reference. During motion, images were acquired using 3D or 4D gated PET(average image) according to institutional settings. 14 SUV(mean) metrics were obtained per acquisition varying VOI/ ROI shape and location. Three ROIs and three VOIs with respective radii of 0.5, 0.6 and 0.8cm were investigated. These ROIs/VOIs were first centred on the maximum activity voxel; a second analysis was made changing the location from the voxel to the region (ROI5voxels) or the volume (VOI7voxels) with the maximum value. Two additional VOIs were defined as 3D isocontours respectively at 70% and 50% of the maximum voxel value. The SUV metrics were normalized by the corresponding 3D static SUV. Converting to recovery coefficients (RC) allowed us to pool data from all institutions, while maintaining focus solely on motion. For each RC from each motion setting we calculated the mean over institutions, we then looked at the standard deviation (Sd) and spread of each averaged RC over each motion setting (formula [1], [2], Figure1). Results: For the institutions visited we found that RCVOI70% and RCVOI50%, yielded over the 14 metrics the lowest variability to motion with Sd of 0.04 and 0.03 respectively. The RCs based on ROIs/VOIs centered on a single voxel were less impacted by motion (Sd: 0.08) compared to region RCs (Sd: 0.14). The averaged Sd over the RCs based on VOIs and ROIs was 0.12 and 0.11 respectively. Conclusion: Quantification over breathing types depends on ROI/VOI definition. Variables based on SUV max thresholds were found the most robust against respiratory noise.