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University of California, Los Angeles (UCLA)

3 ARTICLES PUBLISHED IN JoVE

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Biology

Derivation and Characterization of a Transgene-free Human Induced Pluripotent Stem Cell Line and Conversion into Defined Clinical-grade Conditions
Jason P. Awe 1, Agustin Vega-Crespo 1, James A. Byrne 1,2
1Department of Molecular and Medical Pharmacology, University of California, Los Angeles (UCLA), 2Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research, University of California, Los Angeles (UCLA)

We describe a protocol for deriving lentiviral-based reprogrammed and characterized factor-free human induced pluripotent stem cells and conversion into putative clinical-grade conditions.

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Chemistry

Automation of a Positron-emission Tomography (PET) Radiotracer Synthesis Protocol for Clinical Production
Eric Schopf *1, Christopher M. Waldmann *2,3, Jeffrey Collins 2,4, Christopher Drake 1, Roger Slavik 2,3, R. Michael van Dam 2,4
1SOFIE, 2Department of Molecular & Medical Pharmacology, David Geffen School of Medicine, University of California, Los Angeles (UCLA), 3Ahmanson Translational Imaging Division, University of California, Los Angeles (UCLA), 4Crump Institute for Molecular Imaging, University of California, Los Angeles (UCLA)

Positron-emission tomography (PET) imaging sites that are involved in multiple early clinical research trials need robust and versatile radiotracer manufacturing capabilities. Using the radiotracer [18F]Clofarabine as an example, we illustrate how to automate the synthesis of a radiotracer using a flexible, cassette-based radiosynthesizer and validate the synthesis for clinical use.

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Chemistry

Optimization of Radiochemical Reactions using Droplet Arrays
Alejandra Rios 1,2, Travis S. Holloway 2,3, Jia Wang 2,4, R. Michael van Dam 1,2,3,4
1Physics and Biology in Medicine Interdepartmental Graduate Program, University of California Los Angeles (UCLA), 2Crump Institute of Molecular Imaging, UCLA, 3Department of Molecular & Medical Pharmacology, David Geffen School of Medicine, 4Department of Bioengineering, UCLA

This method describes the use of a novel high-throughput methodology, based on droplet chemical reactions, for the rapid and economical optimization of radiopharmaceuticals using nanomole amounts of reagents.

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