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1. TMET-04. DETECTING DYNAMIC PYRUVATE TUMOR METABOLISM IN PATIENTS WITH GLIOMA USING HYPERPOLARIZED CARBON-13 METABOLIC IMAGING

Author

Yan Li, Janine Lupo, Adam Autry, Sana Vaziri, Jeremy Gordon, Marisa Lafontaine, Chen Hsin-Yu, Yaewon Kim, Jasmine Hu, Wendy Ma, Javier Villanueva-Meyer, Peder Larson, Duan Xu, Nancy Ann Oberheim Bush, Jennifer Clarke, Daniel Vigneron, and Susan M Chang

Subjects
Cancer Research, Oncology, Neurology (clinical)
Abstract

INTRODUCTION Hyperpolarized carbon-13 (HP-13C) MR enables rapid dynamic imaging of metabolic pathways in the human brain using non-toxic, non-radioactive metabolites as tracers. This study presents our unique experience on the benefit of using [1-13C]pyruvate and [2-13C]pyruvate MR for evaluating patients with glioma. METHODS 132 scans (71 using an integrated 13C /1H coil) including steady-state 1H-MRSI (~10 min) and dynamic HP-13C imaging (60 sec) following injection of HP [1-13C]pyruvate (N=125) or [2-13C]pyruvate (N=7) were acquired from 46 patients with glioma (18F/28M; 15 IDH-mutant, 27 IDH-wildtype, 4 IDH-status-unknown). Maps of temporally-summed 13C-metabolite signals, ratios, and kinetic rate constants were calculated for contrast-enhancing, nonenhancing, and normal-appearing-white-matter (NAWM) regions and compared to steady-state metabolic metrics. RESULTS The only adverse event, in a single patient, was a burning sensation after the injection that resolved after saline flush. The mean time-to-injection of HP probes was 58.6±14.0 sec. Signal-to-noise ratios of [1-13C]lactate and [13C]bicarbonate within the NAWM from the HP [1-13C]pyruvate data were 53±39 and 13±6, respectively. The SD/mean of repeated injections (N=3) for lactate/pyruvate and pyruvate-to-lactate conversion rates were 3.8±3.1% and 6.5±3.1% in the NAWM, respectively. Patients with progressive GBM had significantly higher lactate/pyruvate and lower bicarbonate/lactate (p< 0.05) in contrast- and non-enhancing lesions compared to NAWM. Significantly elevated lactate/pyruvate and reduced bicarbonate/lactate (p< 0.01) were found in contrast-enhancing compared to nonenhancing regions, whereas choline/NAA and steady-state 1H-lactate levels were similar. HP [2-13C]pyruvate data showed reduced glutamate/pyruvate and pyruvate-to-glutamate conversion rates in T2 lesions compared to contralateral normal-appearing brain in IDH-mutant gliomas, consistent with known metabolic reprogramming. CONCLUSION This study demonstrates the potential benefit of dynamic HP-13C MRI for evaluating patients with glioma, which provides unique and spatially distinct contrast compared to steady-state metabolic imaging. Ongoing studies will further characterize dynamic metabolism in specific glioma subtypes and provide biomarkers for evaluating responses to treatment.

Published
2022

2. NIMG-21. VARIABLE RESOLUTION HYPERPOLARIZED [2-(13)C]PYRUVATE MRI IN HEALTHY VOLUNTEERS AND PATIENTS WITH IDH-MUTANT GLIOMA

Author

Marisa Lafontaine, Yan Li, Yaewon Kim, Jeremy W. Gordon, Nancy Ann Oberheim-Bush, Janine M. Lupo, Duan Xu, Jennifer Clarke, Javier Villanueva-Meyer, Hsin-Yu Chen, Peder E. Z. Larson, Jasmine Hu, Susan M. Chang, Daniel B. Vigneron, Sana Vaziri, and Adam Autry

Subjects
Cancer Research, Pathology, medicine.medical_specialty, business.industry, Mutant, 26th Annual Meeting & Education Day of the Society for Neuro-Oncology, medicine.disease, Variable resolution, Oncology, Glioma, Healthy volunteers, medicine, Neurology (clinical), business
Abstract

INTRODUCTION Mutations in isocitrate dehydrogenase (IDH) have been investigated as a prognostic biomarker in glioma. The presence of the IDH mutation (IDHm) is associated with 2-hydroxyglutarate (2HG) production and inhibition of glutamate synthesis (McBrayer, Cell 2018). Hyperpolarized carbon-13 (HP-13C) MRI enables dynamic measurements of in-vivo metabolism using a [2-13C]pyruvate labeled probe that undergoes conversion to [2-13C]lactate and [5-13C]glutamate. Here, we present HP [2-13C]pyruvate data from healthy volunteers and patients with IDHm diffuse glioma. Due to its intrinsic low signal-to-noise ratio (SNR), we demonstrate the ability of post-processing denoising to improve its utility and aid in detection of metabolic changes associated with IDHm. METHODS Dynamic HP 13C data were acquired following intravenous injection of [2-13C]pyruvate from five healthy volunteers and one patient with IDHm grade III astrocytoma. A novel multi-resolution frequency specific multislice EPI sequence was used to obtain [2-13C]pyruvate, [5-13C]glutamate, and downfield and upfield [2-13C]lactate signals (3s temporal resolution, pyruvate/lactate/glutamate spatial resolutions = 0.75x0.75cm2/ 2.25x2.25cm2/ 2.25x2.25cm2, 5 slices 3cm thick). Following phase correction, patch-based tensor decomposition denoising was applied to metabolite images. Metabolite differences between normal-appearing white matter (NAWM) and T2 lesion were examined for the patient data. RESULTS HP [2-13C]pyruvate imaging is able to simultaneously probe glycolytic ([2-13C]lactate) and oxidative ([5-13C]glutamate) metabolism. Denoised pyruvate/lactate/glutamate signals achieved a 4-9/3-6/3-7 fold increase in SNR. T2 lesion exhibited decreased glutamate-to-pyruvate and glutamate-to-lactate AUC ratios versus contralateral NAWM (p< 0.018, p < 1.5e-5), consistent with IDH mutant status. CONCLUSION We successfully demonstrated the feasibility of applying variable resolution HP [2-13C]pyruvate metabolic imaging to detect IDHm specific metabolism. This technique addresses a major hurdle in HP 13C MRI by improving SNR while permitting robust metabolism quantification. Future studies will optimize methods for acquiring and processing data to evaluate further data acquired from IDHm glioma patients. Supported by NIH T32 CA151022, P01 CA118816, and NICO.

Published
2021

3. NIMG-47. METABOLIC CHARACTERIZATION OF IDH MUTANT LOWER GRADE GLIOMA USING SPECTROSCOPIC IMAGING OPTIMIZED FOR 2-HYDROXYGLUTARATE DETECTION

Author

Marisa Lafontaine, Javier Villanueva-Meyer, Elizabeth Philips, Adam Autry, Yan Li, Susan M. Chang, and Llewellyn E. Jalbert

Subjects
Cancer Research, Lower grade, 2-Hydroxyglutarate, Oncology, Chemistry, Glioma, Mutant, medicine, Neuroimaging, Neurology (clinical), medicine.disease, Molecular biology
Abstract

INTRODUCTION Mutations in isocitrate dehydrogenase (IDH1/2) genes are both diagnostic and prognostic biomarkers for lower grade gliomas, which can be noninvasively evaluated via MRS detection of 2-hydroxyglutarate (2HG). A high percentage of lower grade gliomas harbor IDH mutations that have a major impact on tumor biology. METHODS Forty IDH-mutant lower grade glioma patients were recruited and scanned using 2HG-optimized 97ms PRESS spectroscopy prior to surgical resection, whereupon image-guided tissue samples were acquired and analyzed via histopathology. Spectra were processed and quantified using LCModel. Wilcoxon ranksum tests were used to compare the difference in metabolic parameters between patient subgroups. Cox proportional hazard models were used to evaluate the influence of metabolic parameters on progression free survival (PFS). Pearson and Kendall Tau rank correlations were used for metabolites and histopathology parameters. RESULTS Levels of 2HG were quantifiable in 37/40 (92.5%) IDH+ patients, yielding a detection rate of 92.5%. A significant difference in myoinositol/total choline was found between astrocytoma and oligodendroglioma in the newly diagnosed grade II population (N=10/13, p=0.042) and also in the overall population (N=25/15, p=0.022). 2HG/creatine was the only significant prognostic indicator on PFS in newly diagnosed patients (p=0.036, HR=4.435; N=33), who had a median PFS of 1472 days [95%CI 994 1950 days] (15 censored). Significantly decreased glutamate/creatine and increased (2HG+GABA)/creatine (p< 0.0001) were found in the T2 lesion compared to those in the normal appearing white matter. At the location where the biopsy samples were taken, there was a significant relationship between 2HG/creatine and glycine/creatine (0.93±0.01; mean±SD Tau; p=0.0005) as well as 2HG/creatine and glutathione/creatine (0.96±0.02; mean±SD Tau; p=0.001) but no significance between the metabolites and pathology parameters were found. CONCLUSIONS The non-invasive detection of 2HG can provide clinically relevant information for patient management and our study demonstrated both the feasibility of 2HG detection and its relationship with PFS.

Published
2020

4. NIMG-43. ADVANCED MULTI-PARAMETRIC HYPERPOLARIZED 13C/1H IMAGING OF GBM

Author

Javier Villanueva-Meyer, Susan M. Chang, Janine M. Lupo, Jennifer Clarke, Marisa Lafontaine, Daniel B. Vigneron, Hsin-Yu Chen, Sana Vaziri, Adam Autry, Peder E. Z. Larson, Jeremy W. Gordon, Duan Xu, and Yan Li

Subjects
Cancer Research, Multi parametric, Oncology, Hyperpolarized 13c, Neurology (clinical)
Abstract

INTRODUCTION The goal of this study was to characterize progressive and pseudoprogressive GBM using multi-parametric hyperpolarized (HP)-13C / 1H MRI. METHODS Dynamic HP-13C MRI was acquired from 13 patients with progressive GBM [patients (scans): 2(3) IDH-mutant; 11(13) IDH-wildtype] and 2 IDH-wildtype patients (3 scans) demonstrating pseudo-progression following intravenous injection of HP [1-13C]pyruvate. Frequency-selective echo-planar imaging (3s temporal resolution, 3.38 cm3 spatial resolution) captured [1-13C]pyruvate metabolism to [1-13C]lactate and 13C-bicarbonate in the brain. Dynamic 13C data were kinetically modeled to obtain the pyruvate-to-lactate conversion rate constant k PL and temporally summed to calculate 13C-metabolite percentiles and ratios (linearly interpolated 2x in-plane). 1H imaging included T2, post-Gd T1, perfusion (nCBV, %recovery), diffusion (ADC), and lactate-edited spectroscopy (CNI, choline-to-NAA index; 1H-lactate). The normal-appearing white matter (NAWM), non-enhancing lesion (NEL), and contrast-enhancing lesion (CEL) were segmented from 1H images. 13C-resolution masks were iteratively applied on a voxel-wise basis to evaluate 1H imaging parameters within each ROI and multi-parametric data were collectively evaluated using a mixed effects model in R. RESULTS Progressive IDH-mutant GBM compared to wildtype counterparts displayed increased perfusion %recovery (p < 0.001) and k PL (p < 0.01), together with reduced 1H-lactate (p < 0.001) and pyruvate percentile (p < 0.01), in the T2 lesion. Among IDH-wildtype progressive GBM, the CEL was distinguished from NEL/NAWM by increased nCBV (p < 0.05/0.001), 1H-lactate (p < 0.05/0.001); and decreased bicarbonate / lactate (p < 0.05/0.001). The CEL and NEL were collectively distinguished from NAWM by elevated CNI (p < 0.001/0.001), ADC (p < 0.05/0.001), pyruvate percentile (p < 0.001/0.001), lactate percentile (p < 0.001/0.001), and relative lactate / pyruvate (p < 0.001/0.05). Psuedo-progressive IDH-wildtype GBM displayed lower k PL (T2 Lesion; p < 0.01) and nCBV (CEL; p < 0.01) compared to progressive GBM. CONCLUSION HP-13C parameters can potentially augment proton imaging and demonstrated Warburg-associated metabolic alterations.

Published
2021

5. NIMG-57. SERIAL HYPERPOLARIZED (13)C PYRUVATE AND (1)H METABOLIC IMAGING IN RECURRENT HIGH-GRADE GLIOMA

Author

Daniel B. Vigneron, Marisa Lafontaine, Jeremy W. Gordon, Adam Autry, Hsin-Yu Chen, Peder E. Z. Larson, Duan Xu, Susan M. Chang, Yan Li, and Javier Villanueva-Meyer

Subjects
Cancer Research, Pathology, medicine.medical_specialty, Standard of care, medicine.diagnostic_test, business.industry, Metabolic imaging, Magnetic resonance imaging, medicine.disease, Oncology, Glioma, medicine, Neuro-Imaging, Neurology (clinical), business, Perfusion, Hyperpolarized 13C-Pyruvate, High-Grade Glioma
Abstract

INTRODUCTION Hyperpolarized (HP) 13C MRI is a novel metabolic imaging that allows for real time in vivo probing of pathway-specific metabolic processes relevant to gliomas. The first human brain application reports were published recently. In this study, we characterized longitudinal dynamic and static brain metabolism changes from serial HP 13C and 1H metabolic imaging in a patient with multiply recurrent glioma. METHODS Eight dynamic HP 13C imaging, 1H MRI and MRSI examinations were acquired over a period of 15 months in a patient with multiply recurrent glioma that underwent malignant transformation. The patient was imaged after initial tumor debulking, after chemoradiotherapy, at first recurrence, after re-irradiation and anti-angiogentic therapy, and at second recurrence. Ratios of pyruvate-to-lactate and pyruvate-to-bicarbonate were calculated from HP 13C imaging and choline-to-NAA index (CNI) was derived from 1H MRSI. RESULTS/ DISCUSSION Successful therapies are usually associated with a drop in pyruvate-to-lactate conversion, mediated by different mechanisms from various treatments. We identified three key findings over repeat HP 13C MRIs: 1) a marked response to therapy with a reduction in pyruvate-to-lactate conversion corresponding to associated imaging response to therapy at the primary site of disease. Following chemoradiotherapy, the volume of T2 hyperintensity decreased from 28.21cc to 15.29 cc, and the volume of metabolic abnormality (CNI >3) decreased from 27.84 cc to 10.36 cc. 2) increasing pyruvate-to-lactate conversion in a region of recurrence before morphologic signal abnormality, and 3) a reduction in pyruvate-to-lactate conversion in a recurrent lesion following anti-angiogenic therapy. CONCLUSION Here we show that one can reliably image glioma patients using HP 13C MRI alongside standard of care morphologic and physiologic MRI including diffusion, perfusion, and 1H MRSI. Serial HP 13C MRI can be performed in the neuro-oncologic clinical setting and pyruvate-to-lactate metabolism may be useful to monitor treatment response.

Published
2019

6. NIMG-66. COMPARISON OF STEADY STATE AND DYNAMIC BRAIN METABOLISM BY USING 1H MRSI AND HYPERPOLARIZED [1-(13)C]PYRUVATE IMAGING IN PATIENTS WITH GLIOMA

Author

Jason C. Crane, Marisa Lafontaine, Sarah J. Nelson, Yan Li, Adam Autry, Jeremy W. Gordon, Susan M. Chang, Ilwoo Park, Beck Olson, Javier Villanueva-Meyer, and Daniel B. Vigneron

Subjects
Cancer Research, medicine.diagnostic_test, Chemistry, Metabolism, Fluid-attenuated inversion recovery, medicine.disease, Abstracts, Nuclear magnetic resonance, Oncology, Positron emission tomography, Glioma, medicine, In patient, Neurology (clinical), Steady state (chemistry), Molecular imaging
Abstract

Proton magnetic resonance spectroscopic imaging (1H MRSI) is a powerful noninvasive method for assessing the spatial extent and properties of abnormal metabolism in patients with glioma. Hyperpolarized 13C metabolic imaging is a new molecular imaging modality that can be used to assess real-time changes in metabolism and has been shown to be safe and feasible in patients with glioma. In this study, both 3D 1H lactate-edited MRSI and hyperpolarized [1-13C]pyruvate imaging data were obtained and compared in thirteen patients with glioma to assess steady state versus dynamic brain metabolism. FLAIR images from the 1H examination were registered to the FSE images from the 13C examination for each subject. The corresponding transformation matrix was then applied to spectra and metabolite maps from the excitation volume of the 1H MRSI data. The volumes of the anatomic and metabolic lesions varied between patients, and using a multi-slice frequency specific EPI sequence allowed improved coverage of the lesion of interest compared to a 2D dynamic EPSI sequence. The choline-to-NAA index values and levels of steady state lactate peak heights from the 1H MRSI data were elevated in the lesion, while 13C bicarbonate levels were reduced and 13C lactate levels were similar or lower compared with normal appearing brain. The initial results indicated that there was a negative association between estimates of hyperpolarized 13C lactate/pyruvate and steady state normalized lactate peak heights, and a positive association between hyperpolarized 13C lactate/pyruvate and Cho/NAA in the T2 lesion. For one patient who received repeated examinations within 2 months and was assessed as having stable disease after treatment, the 13C lactate-to-pyruvate ratio in the T2 lesion was 0.65 vs. 0.35 and 0.43 vs. 0.43 in normal appearing brain. Future studies will evaluate a larger patient population to see whether these relationships hold up.

Published
2018

7. CBMT-26. SERIAL CHARACTERIZATION OF HYPERPOLARIZED [1-13C]PYRUVATE METABOLISM IN PATIENTS WITH GLIOMA AND THE INFLUENCE OF BEVACIZUMAB

Author

Javier Villanueva-Meyer, Hsin-Yu Chen, Jeremy W. Gordon, Duan Xu, Daniel B. Vigneron, Susan M. Chang, Peder E. Z. Larson, Marisa Lafontaine, Adam Autry, and Yan Li

Subjects
Cancer Research, medicine.diagnostic_test, Bevacizumab, business.industry, Pyruvate Dehydrogenase (Lipoamide), Magnetic resonance imaging, Metabolism, Mitochondrion, medicine.disease, Cell Biology and Metabolism, chemistry.chemical_compound, Oncology, chemistry, Glioma, Lactate dehydrogenase, Cancer research, Medicine, In patient, Neurology (clinical), business, medicine.drug
Abstract

Treatment-related changes often mimic or mask tumor on standard anatomic imaging, making it difficult to monitor disease recurrence. Hyperpolarized (HP) carbon-13 MR imaging allows for real-time non-invasive measurement of metabolism, which may improve patient surveillance. Here, we focused on characterizing serial HP scans in patients undergoing treatment compared to healthy controls. Serial dynamic HP C-13 MRI scans were performed on 5 patients with recurrent glioma (22 total) and 3 healthy controls (4 total) using an echo-planar imaging sequence (2.88-8cm3 spatial resolution, 3s temporal resolution, 60s), following injection of 0.43mL/kg of 250mM HP [1-13C]pyruvate. Apparent rate constants were modeled for enzymatic conversion of pyruvate-to-lactate (kPL) via cytosolic lactate dehydrogenase and pyruvate-to-bicarbonate (kPB) via mitochondrial pyruvate dehydrogenase and carbonic anhydrase. Regions of interest included normal-appearing white matter (NAWM) and T2-hyperintense lesions (T2L), which were segmented from H-1 MR images and then aligned to the HP data. Carbon voxels containing >30% of NAWM or T2L were included in the analysis. Healthy controls demonstrated consistent kPL and kPB values over 4 scans in NAWM with SD/Mean of 5% and 12%, respectively. Compared to the median kPL-NAWM of 0.022s-1 in controls, the 5 patients had median serial kPL-NAWM values of 0.023, 0.023, 0.023, 0.029, and 0.015s-1, and mean serial ratios of kPL between T2L and NAWM (kPL-T2L/kPL-NAWM) of 1.22, 1.27, 1.05, 1.32, and 1.37s-1, indicating higher values in putative tumor. Median kPB-NAWM in controls was 0.004s-1 and ranged in patients 0.003-0.006s-1. Two patients with >4 serial scans, showed consistent kPL-NAWM over standard-of-care treatment and elevated kPL-T2L within new lesions, but up to 85% increase in kPL-NAWM with bevacizumab, which may be attributed to reduced BBB permeability. Stable patients generally demonstrated consistent kPL-T2L values that were lower compared to progressive patients. Future studies will include multi-parametric 1H imaging analysis in a larger patient population.

Published
2019

8. Characterization of Metabolic, Diffusion, and Perfusion Properties in GBM: Contrast-Enhancing versus Non-Enhancing Tumor

Author

Annette M. Molinaro, Joanna J. Phillips, Janine M. Lupo, Stojan Maleschlijski, Susan M. Chang, Ritu Roy, Adam Autry, Sarah J. Nelson, and Soonmee Cha

Subjects
Original article, Cancer Research, medicine.medical_specialty, Pathology, Clinical Sciences, Oncology and Carcinogenesis, lcsh:RC254-282, 030218 nuclear medicine & medical imaging, Phosphocreatine, Lesion, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Rare Diseases, In vivo, Clinical Research, medicine, Choline, Oncology & Carcinogenesis, Cancer, screening and diagnosis, business.industry, Histology, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Brain Disorders, Brain Cancer, Detection, Oncology, chemistry, Biomedical Imaging, Histopathology, Biochemistry and Cell Biology, medicine.symptom, Nuclear medicine, business, Perfusion, 030217 neurology & neurosurgery, Ex vivo, 4.2 Evaluation of markers and technologies
Abstract

BACKGROUND: Although the contrast-enhancing (CE) lesion on T 1 -weighted MR images is widely used as a surrogate for glioblastoma (GBM), there are also non-enhancing regions of infiltrative tumor within the T 2 -weighted lesion, which elude radiologic detection. Because non-enhancing GBM (Enh−) challenges clinical patient management as latent disease, this study sought to characterize ex vivo metabolic profiles from Enh− and CE GBM (Enh+) samples, alongside histological and in vivo MR parameters, to assist in defining criteria for estimating total tumor burden. Methods: Fifty-six patients with newly diagnosed GBM received a multi-parametric pre-surgical MR examination. Targets for obtaining image-guided tissue samples were defined based on in vivo parameters that were suspicious for tumor. The actual location from where tissue samples were obtained was recorded, and half of each sample was analyzed for histopathology while the other half was scanned using HR-MAS spectroscopy. Results: The Enh+ and Enh− tumor samples demonstrated comparable mitotic activity, but also significant heterogeneity in microvascular morphology. Ex vivo spectroscopic parameters indicated similar levels of total choline and N -acetylaspartate between these contrast-based radiographic subtypes of GBM, and characteristic differences in the levels of myo-inositol, creatine/phosphocreatine, and phosphoethanolamine. Analysis of in vivo parameters at the sample locations were consistent with histological and ex vivo metabolic data. CONCLUSIONS: The similarity between ex vivo levels of choline and NAA, and between in vivo levels of choline, NAA and nADC in Enh+ and Enh− tumor, indicate that these parameters can be used in defining non-invasive metrics of total tumor burden for patients with GBM.

Published
2017

10. NIMG-08. REPRODUCIBILITY OF HYPERPOLARIZED C-13 METABOLIC IMAGING IN PATIENTS WITH GLIOMA

Author

Marisa Lafontaine, Jeremy W. Gordon, Susan M. Chang, Sarah J. Nelson, Daniel B. Vigneron, Javier Villanueva-Meyer, Yan Li, and Adam Autry

Subjects
Cancer Research, Reproducibility, Temozolomide, Gliosarcoma, business.industry, Metabolic imaging, medicine.disease, Abstracts, Nuclear magnetic resonance, Oncology, Metabolic disturbance, Glioma, Medical imaging, medicine, In patient, Neurology (clinical), business, medicine.drug
Abstract

As a non-invasive method for probing in vivo metabolism, hyperpolarized carbon-13 metabolic imaging may enhance the diagnostic assessment of response-to-treatment in patients with glioma. Having demonstrated the feasibility of applying this technique to human glioma (Park et al. 2017), the current study seeks to evaluate the reproducibility of carbon data by measuring serial metabolic changes in white matter. In total, 4 radiologically stable patients (2 male, 2 female) who were treated with radiation and TMZ for heterogeneous diagnoses (GBM, grade III oligo, gliosarcoma, secondary GBM) received either 2 (n=1) or 3 (n=3) serial exams. Following injection of hyperpolarized [1-(13)C]pyruvate, dynamic echo-planar imaging was acquired with a 3s temporal resolution and 2–8 cm(3) spatial resolution. Dynamic data were summed together and the ratio of metabolically-produced lactate relative to pyruvate substrate (lac/pyr) was evaluated in segmented normal-appearing white matter (NAWM, >50% voxel). Median and SD of lac/pyr values in NAWM are reported for serial scans, along with %change per interval: P1-male [0.32 ± 0.14, 0.28 ± 0.11 (-12.5%), 0.33 ± 0.10 (+17.9%)]; P2-male [0.32 ± 0.10, 0.28 ± 0.10 (-12.5%)]; P3-female [0.37 ± 0.09, 0.45 ± 0.14 (+21.6%), 0.59 ± 0.19 (+31.1%)]; and P4-female [0.49 ± 0.14, 0.43 ± 0.12 (-12.2%), 0.44 ± 0.10 (2.3%)]. These results show an average absolute change of 15.7% in lac/pyr within NAWM over the entire population, with considerable overlap of the variance. Patient P3, who was treated with adjuvant agent pembrolizumab, also notably showed a serial increase in lac/pyr. When separating the population according to gender, females demonstrated a higher average lac/pyr value of 0.46, compared to 0.31 in males. In summary, our initial experience with serial hyperpolarized carbon data indicates that the range of lactate-to-pyruvate ratios is relatively consistent across patient scans, but may differ according to gender and adjuvant treatment. Future studies will evaluate changes in the T2 lesion relative to NAWM over the course of treatment.

Published
2018

11. EXTH-71. HYPERPOLARIZED [1-13C] PYRUVATE AS A BIOMARKER FOR TREATMENT MONITORING IN LYMPHOMA MURINE MODELS

Author

Sébastien L. Degorce, Rana Anjum, Ming Lu, Michele Mayo, Keith Dillman, Adam Autry, James L. Rubenstein, Brice Tiret, Liza Drew, Myriam M. Chaumeil, and Ilwoo Park

Subjects
Cancer Research, Pathology, medicine.medical_specialty, business.industry, medicine.disease, Lymphoma, Abstracts, 03 medical and health sciences, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, medicine, Cancer research, Biomarker (medicine), Neurology (clinical), business, 030215 immunology, Treatment monitoring
Abstract

In primary central nervous system lymphoma (PCNSL), L265P mutation of the myeloid differentiation 88 (MYD88) protein is the most common, and induces a constitutive activation of IRAK4 kinase, IRAK1 phosphorylation and increased NF-kB signaling, offering a unique window for therapeutic development. We previously show that AZ1495, a potent inhibitor of IRAK4, significantly delayed progression and improved OS in L265P-mutated PCNSL models [ASH 2016], highlighting the clinical potential of IRAK inhibition. In the clinic however, early monitoring of such targeted therapies remains challenging using conventional imaging, as treatment often results in non-readily detectable anatomical changes. Here, we questioned the potential of a new neuroimaging method, hyperpolarized 13C magnetic resonance spectroscopic imaging (HP-13C MRSI), to non-invasively monitor IRAK inhibition in PCNSL for the first time. Two PCNSL patient-derived xenografts models were studied: one harboring the L265P MYD88 mutation (MYD88mut), and the other, wild type for this protein (MYD88wt). Using HP-13C MRSI, a high production of HP [1-13C] lactate was detected in both MYD88wt and MYD88mut (0.5 ± 0.04, n=2 MYD88wt; 0.61 ± 0.2, n=4 MYD88mut), indicating PCNSL presence throughout the brain. At day 2 and 4 of AZ1495 treatment, the HP [1-13C] lactate-to-pyruvate ratio remains unchanged in MYD88wt animals at all treatment time points (p=0.29 and p=0.29 at day 2 and 4 when compared to baseline, respectively) On the other hand, this ratio significantly decreased in MYD88mut animals at all time points (36.6% at day 2, p=0.07 and 56.3% at day 4, p=0.0006), in line with the previously reported effect of AZ1495 treatment on MYD88mut PCNSL only. To conlude, we showed that HP-13C MRSI can detect MYD88-mutation-specific modulations of HP lactate production following IRAK inhibition. Because HP-13C MRSI is clinically translatable and expanding rapidly, this study is of high significance for future clinical trials, to enhance monitoring of PCNSL progression and response of targeted therapies.

Published
2017

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