Development of a multi-scale platform to quantify metabolic heterogeneity in vivo
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Deutsch, RJ; Wang, R; Sunassee, ED; Madonna, MC; Crouch, BT; Ramanujam, N
Published in: Optical Molecular Probes Imaging and Drug Delivery Omp 2023
January 1, 2023
We developed an approach to quantify intratumoral metabolic heterogeneity of in vivo tumor models by leveraging a computationally designed multi-scale microscope and a suite of exogenous fluorescent contrast agents to provide functional and structural information.
Duke Scholars
Published In
Optical Molecular Probes Imaging and Drug Delivery Omp 2023
Publication Date
January 1, 2023
Citation
APA
Chicago
ICMJE
MLA
NLM
Deutsch, R. J., Wang, R., Sunassee, E. D., Madonna, M. C., Crouch, B. T., & Ramanujam, N. (2023). Development of a multi-scale platform to quantify metabolic heterogeneity in vivo. In Optical Molecular Probes Imaging and Drug Delivery Omp 2023.
Deutsch, R. J., R. Wang, E. D. Sunassee, M. C. Madonna, B. T. Crouch, and N. Ramanujam. “Development of a multi-scale platform to quantify metabolic heterogeneity in vivo.” In Optical Molecular Probes Imaging and Drug Delivery Omp 2023, 2023.
Deutsch RJ, Wang R, Sunassee ED, Madonna MC, Crouch BT, Ramanujam N. Development of a multi-scale platform to quantify metabolic heterogeneity in vivo. In: Optical Molecular Probes Imaging and Drug Delivery Omp 2023. 2023.
Deutsch, R. J., et al. “Development of a multi-scale platform to quantify metabolic heterogeneity in vivo.” Optical Molecular Probes Imaging and Drug Delivery Omp 2023, 2023.
Deutsch RJ, Wang R, Sunassee ED, Madonna MC, Crouch BT, Ramanujam N. Development of a multi-scale platform to quantify metabolic heterogeneity in vivo. Optical Molecular Probes Imaging and Drug Delivery Omp 2023. 2023.
Published In
Optical Molecular Probes Imaging and Drug Delivery Omp 2023
Publication Date
January 1, 2023