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Potassium Molybdate Mo 99 Source Vessels for RadioGenix System

Potassium Molybdate Mo 99 Source Vessels for RadioGenix System (Photo: Business Wire)

News | Radiopharmaceuticals and Tracers | February 18, 2020
February 18, 2020 — NorthStar Medical Radioisotopes, LLC, a
Feinstein Institutes' Thomas Chaly, Ph.D., poses in front of a PET-CT imaging machine. He has been instrumental in pushing for FDA approval of a new PET imaging agent, Fluorodopa F-18 (FDOPA), to combat Parkinson’s

Feinstein Institutes' Thomas Chaly, Ph.D., in front of a PET-CT imaging machine. He has been instrumental in pushing for FDA approval of a new PET imaging agent, Fluorodopa F-18 (FDOPA), to combat Parkinson’s

News | Nuclear Imaging | December 26, 2019
December 26, 2019 — The Feinstein Institutes for Medical R...
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News | Clinical Trials | November 15, 2019
November 15, 2019 — Theragnostics, which is developing innovative radiopharm
 Phoenix’s fusion neutron generation technology.
News | Radiopharmaceuticals and Tracers | October 28, 2019
October 28, 2019 — Phoenix LLC and Shine Medical Technologies LLC, nuclear technology companies focused on near-term
GE Healthcare and Theragnostics Partnering on PSMA PET/CT Imaging Agent
News | Prostate Cancer | October 16, 2019
GE Healthcare and Theragnostics have entered into a global commercial partnership for a new prostate-specific membrane...
A SPECT nuclear scan of the heart to show perfusion defects in the myocardium due to coronary artery blockages or heart attack. The imaging uses the Mo-99 based medical imaging isotope Tc-99m. The U.S. government has created policy to move away from use of highly enriched uranium (HEU) to low-enriched uranium (LEU) for Mo-99 isotope production, but there is one hold out who has not yet converted before a 2020 deadline. Photo courtesy of Philips Healthcare.

A SPECT nuclear scan of the heart to show perfusion defects in the myocardium due to coronary artery blockages or heart attack. The imaging uses the Mo-99 based medical imaging isotope Tc-99m. The U.S. government has created policy to move away from use of highly enriched uranium (HEU) to low-enriched uranium (LEU) for Mo-99 isotope production, but there is one holdout who has not yet converted before a 2020 deadline. Photo courtesy of Philips Healthcare.

Feature | Nuclear Imaging | August 30, 2019 | Dave Fornell, Editor
In a surprising move, the National Institute for Radioelements (IRE) has applied for a new license to export highly e
University of Alabama at Birmingham Leading Production of Theranostic Radioisotope

Image courtesy of the University of Alabama at Birmingham

News | Radiopharmaceuticals and Tracers | August 29, 2019
The University of Alabama at Birmingham, in conjunction with researchers at the University of Wisconsin and Argonne...
ASRT Supports Radiopharmaceutical Reimbursement Bill
News | Radiopharmaceuticals and Tracers | August 02, 2019
The American Society of Radiologic Technologists (ASRT) announced its support for House Resolution (HR) 3772, a measure...
NorthStar Medical Radioisotopes Awarded $30 Million by U.S. Department of Energy
News | Radiopharmaceuticals and Tracers | July 26, 2019
NorthStar Medical Radioisotopes LLC has been awarded $15 million in a cooperative agreement with the U.S. Department of...
NorthStar Medical Radioisotopes Completes Construction on Beloit, Wis. Molybdenum-99 Processing Facility
News | Radiopharmaceuticals and Tracers | July 16, 2019
NorthStar Medical Radioisotopes LLC  announced completion of construction on its 20,000-square-foot molybdenum-99 (Mo-...