3 results on '"Sandra Luna-Fineman"'
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2. Data from Magnetic Resonance Imaging of Tumor-Associated Macrophages: Clinical Translation
- Author
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Heike E. Daldrup-Link, Sheri L. Spunt, Ranjana Advani, Sandra Luna-Fineman, Dita Gratzinger, Florette K. Hazard, Samantha J. Holdsworth, Tarsheen K. Sethi, Anne M. Muehe, Raphael Alford, Laura L. Pisani, Anuj Pareek, Ashok J. Theruvath, and Maryam Aghighi
- Abstract
Purpose: Tumor-associated macrophages (TAMs) in malignant tumors have been linked to tumor aggressiveness and represent a new target for cancer immunotherapy. As new TAM-targeted immunotherapies are entering clinical trials, it is important to detect and quantify TAM with noninvasive imaging techniques. The purpose of this study was to determine if ferumoxytol-enhanced MRI can detect TAM in lymphomas and bone sarcomas of pediatric patients and young adults.Experimental Design: In a first-in-patient, Institutional Review Board–approved prospective clinical trial, 25 pediatric and young adult patients with lymphoma or bone sarcoma underwent ferumoxytol-enhanced MRI. To confirm ferumoxytol enhancement, five pilot patients (two lymphoma and three bone sarcoma) underwent pre- and postcontrast MRI. Subsequently, 20 patients (10 lymphoma and 10 bone sarcoma) underwent ferumoxytol-enhanced MRI 24 to 48 hours after i.v. injection, followed by tumor biopsy/resection and macrophage staining. To determine if ferumoxytol-MRI can differentiate tumors with different TAM content, we compared T2* relaxation times of lymphomas and bone sarcomas. Tumor T2* values of 20 patients were correlated with CD68+ and CD163+ TAM quantities on histopathology.Results: Significant ferumoxytol tumor enhancement was noted on postcontrast scans compared with precontrast scans (P = 0.036). Bone sarcomas and lymphomas demonstrated significantly different MRI enhancement and TAM density (P < 0.05). Within each tumor group, T2* signal enhancement on MR images correlated significantly with the density of CD68+ and CD163+ TAM (P < 0.05).Conclusions: Ferumoxytol-enhanced MRI is immediately clinically applicable and could be used to stratify patients with TAM-rich tumors to immune-targeted therapies and to monitor tumor response to these therapies. Clin Cancer Res; 24(17); 4110–8. ©2018 AACR.
- Published
- 2023
3. Abstract 1681: Single cell RNA sequencing of primary Ewing sarcoma tumors and identification of circulating tumor cells in patient-matched peripheral blood samples
- Author
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Sarah K. Nelson-Taylor, Avery Bodlack, Andrew Goodspeed, Amy Treece, Nathan Donaldson, Carrye Cost, Tim Garrington, Brian Greffe, Sandra Luna-Fineman, Jenna Sopfe, and Masanori Hayashi
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Cancer Research ,Oncology - Abstract
Ewing sarcoma (ES) is the second most common bone cancer in children, accounting for 2% of pediatric cancer diagnoses. Patients who present with metastatic disease at the time of diagnosis have a dismal prognosis, compared to the >70% 5-year survival of those with localized disease. Here, we utilized single-cell RNA sequencing (scRNA-seq) to characterize the transcriptional landscape of primary ES tumors, and to identify circulating tumor cells (CTCs) in peripheral blood at the time of diagnosis in order to further understand ES transcriptional heterogeneity and factors that drive metastasis. Methods: Viably frozen primary tumor and peripheral blood samples were obtained from 7 ES patients at the time of diagnosis and prior to the initiation of treatment. Tumors were dissociated into a single cell suspension and sorted for viability using FACS (fluorescence activated cell sorting) whereas peripheral blood samples were subjected to a size-based selection with the CellSieve microfiltration system. ScRNA-seq was performed using the 10xChromium platform and count matrices were generated using 10x Genomics Cell Ranger software. Quality control, integration, and cluster analysis was performed with Seurat. Results: Cluster analysis of integrated, primary tumor samples demonstrated that candidate ES cell clusters express FLI1 and ES marker NKX2-2 and cluster separately from immune cell populations. Additionally, using inferCNV, ES clusters were demonstrated to harbor chromosomal copy number alterations known to be associated with ES and that were previously identified clinically on preliminary pathology reports for each patient; further GSEA analysis showed significant overlap between published ES gene sets and genes upregulated in ES clusters. Further analysis of ES cells demonstrated that cell-cycle phase determined a cluster enriched in pro-proliferation gene signatures, and overall heterogeneity of expression of previously known therapeutic targets. Candidate ES CTCs were identified among the peripheral blood samples among clusters which corresponded with distinct immune cell populations. The candidate ES CTCs expressed NKX2-2 and demonstrated enrichment in oncogenic gene signatures. Conclusion: ScRNA-seq of primary ES tumors is feasible and demonstrates that ES tumor cells are largely homogeneous in nature; and candidate ES CTCs can be identified in peripheral blood at the time of diagnosis in ES patient and warrant further investigation as to their utility as a biomarker of metastatic disease. Citation Format: Sarah K. Nelson-Taylor, Avery Bodlack, Andrew Goodspeed, Amy Treece, Nathan Donaldson, Carrye Cost, Tim Garrington, Brian Greffe, Sandra Luna-Fineman, Jenna Sopfe, Masanori Hayashi. Single cell RNA sequencing of primary Ewing sarcoma tumors and identification of circulating tumor cells in patient-matched peripheral blood samples [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1681.
- Published
- 2022
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