论文信息 - Single cell radiometry using droplet optofluidics

Single cell radiometry using droplet optofluidics

Single cell analysis has become a crucial goal since cellular heterogeneity was acknowledged as one of the greatest challenges in cancer therapeutics. Radioactive probes can play an important role in single cell study thanks to its unique capability of tracking small molecules with minimal modification of their chemical structure. Our lab has recently developed a new technique known as radioluminescence microscopy (RLM) to measure the amount of radiotracer in single cells. Yet, RLM can image only up to about 100 cells and lacks capability of integrating with subsequent sample processing such as cell sorting. Here we introduce a robust, high throughput single cell radiometry based on radiofluorogenesis and droplet optofluidics. As an example, we quantitated [18F]-fluorodeoxyglucose radiotracer uptake in single human breast cancer cells and assessed cellular heterogeneity in single cell metabolism.

Tae Jin Kim | Guillem Pratx | Byunghang Ha | Ejung Moon

[1] Guillem Pratx,et al. Modular platform for low-light microscopy. , 2015, Biomedical optics express.

[2] Guillem Pratx,et al. Modular low-light microscope for imaging cellular bioluminescence and radioluminescence , 2017, Nature Protocols.

[3] Stuart R. Miller,et al. Bright Lu2O3:Eu Thin‐Film Scintillators for High‐Resolution Radioluminescence Microscopy , 2015, Advanced healthcare materials.

[4] Zhen Liu,et al. Microfluidic radiobioassays: a radiometric detection tool for understanding cellular physiology and pharmacokinetics. , 2019, Lab on a chip.

[5] Lei Xing,et al. High-Resolution Radioluminescence Microscopy of 18F-FDG Uptake by Reconstructing the β-Ionization Track , 2013, The Journal of Nuclear Medicine.

[6] Lei Xing,et al. Radioluminescence Microscopy: Measuring the Heterogeneous Uptake of Radiotracers in Single Living Cells , 2012, PloS one.

[7] Guillem Pratx,et al. Single-Cell Characterization of 18F-FLT Uptake with Radioluminescence Microscopy , 2016, The Journal of Nuclear Medicine.