NIDC News

2022 Commercial Customer Survey
2022 NIDC Commercial Customer Survey
The NIDC, on behalf of the DOE Isotope Program, seeks input from commercial stakeholders on anticipated isotope product needs and potential supply shortages in the next five years.
Ashleigh Kimberlin and Mikayla Molnar achieve success with a gas-trapping apparatus for Ac-225 production. Credit: ORNL, U.S. Dept. of Energy
Tri-Lab effort makes strides toward increasing supply of Ac-225
In experiment after experiment, the synthetic radioisotope actinium-225 has shown promise for targeting and attacking certain types of cancer cells.
2021 Fall newsletter
The 2021 Fall Newsletter is Available Now!
The 2021 Fall newsletter is available now!

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DOE Isotope Program Highlights

Image courtesy of Oak Ridge National Laboratory and Army Research Laboratory. Direct deposition of a radioisotope source onto a converter. This can improve conversion of the radioisotope source’s beta decay emissions to electricity by using two converters instead of one. The result is greater power density for the power source.

New Approach to Radioisotope Power Sources for Improved Efficiency, Long Life

NextGen power sources may satisfy the need for long-term, compact power for use in remote or extreme environments.
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Image courtesy of Carlos Jones, Oak Ridge National Laboratory Researcher Sandra Davern looks at non-radioactive metal ions enclosed in biodegradable polymers in her lab at Oak Ridge National Laboratory. Her work is paving the way for enclosing isotopes in the same polymers for targeted treatment of cancer cells.

Enclosing Radiation-Loaded Particles to Better Seek and Destroy Cancer

Promising study details how radioactive agents could be sent directly to cancer cells.
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Image courtesy of Jon Burns, Texas A&M University At-211 – ketone interaction within the chromatography column.

New Elegant Method for Rapid Recovery of Anti-Cancer Agent At-211

A high-speed, high-yield recovery approach for At-211 means improved availability of this cancer-treating isotope.
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Image courtesy of Donald Montoya, Los Alamos National Laboratory Cerium-134 can be targeted to provide an imaging analogue for two different therapy isotopes, actinium-225 and thorium-227. This helps scientists understand these therapy isotopes and develop new treatments. These novel isotopes are being developed and produced by the DOE Isotope Program.

New Imaging Isotope Meets Promising Therapy Isotopes

New production methods for Ce-134 advance technologies for imaging human disease and guiding treatment.
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Upcoming Events

June
11–14
2022

SNMMI 2022 Annual Meeting

Vancouver, British Columbia

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Recent Publications

Evaluation of 177 Lu and 47 Sc Picaga-Linked, Prostate-Specific Membrane Antigen-Targeting Constructs for Their Radiotherapeutic Efficacy and Dosimetry

Nuclear data for reactor production of Ba-131 and Ba-133

Science Direct

Visions by Women in Molecular Imaging Network: Antiracism and Allyship in Action

Molecular Imaging and Biology

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