Worldwide, more than 80% of Nuclear Medicine procedures use a radiotracer produced through a 99Mo/99mTc generator - 99mTc – Technetium 99metastable. Most of the radiochemistry and equipments is optimized for this radioisotope characteristics already for more than 35 years, making it very difficult to replace. Worldwide production of 99Mo is based essentially with only five Nuclear Reactors that are becoming obsolete and fragile with aging, shutting down more and more frequently as they approach the end of their shelf-life. Seeking for solutions, some Governments – and the EU – plan to build new dedicated Nuclear Reactor(s). Our work defends another option
Because of its favourable physical and chemical properties, " ̂ Tc is today the radionuclide of...
This paper discusses the benefits of obtaining 99mTc from non–fission reactor–produced low-specific-...
In 2009, the nuclear industry employed approximately 120,000 people. Nearly 38 percent of the nuclea...
Technetium 99-metastable (99mTc) is the most important radionuclide, responsible for more than 80% o...
olybdenum-99 (99Mo) (;66-h half-life) decays to 99mTc (;6-h half-life), an isotope that is widely us...
increasingly challenging and unpredictable medical isotope supply shortages have ranged from proposa...
America’s first commercial nuclear reactors began powering the grid in the 1960s, with the most mode...
Abstract This paper discusses the recent problems with Canadian supply of molybdenum-99 for medical ...
You may make 3 attempts to pass the test and must answer 80 % of the questions correctly to receive ...
This article continues from the earlier article "An Introduction to Nuclear Medicine" where the gene...
The continuing rapid expansion of 99mTc diagnostic agents always calls for scaling up 99mTc producti...
Approximately 9 million nuclear cardiology studies performed each year in the U.S. use technetium-99...
First paragraph: Human use of radioactivity is increasing in fields such as nuclear power generation...
This paper presents work in progress, to develop an efficient and economic way to directly produce T...
99mTc is a very useful radioisotope in medical diagnostic procedure. 99mTc is produced from 99Mo dec...
Because of its favourable physical and chemical properties, " ̂ Tc is today the radionuclide of...
This paper discusses the benefits of obtaining 99mTc from non–fission reactor–produced low-specific-...
In 2009, the nuclear industry employed approximately 120,000 people. Nearly 38 percent of the nuclea...
Technetium 99-metastable (99mTc) is the most important radionuclide, responsible for more than 80% o...
olybdenum-99 (99Mo) (;66-h half-life) decays to 99mTc (;6-h half-life), an isotope that is widely us...
increasingly challenging and unpredictable medical isotope supply shortages have ranged from proposa...
America’s first commercial nuclear reactors began powering the grid in the 1960s, with the most mode...
Abstract This paper discusses the recent problems with Canadian supply of molybdenum-99 for medical ...
You may make 3 attempts to pass the test and must answer 80 % of the questions correctly to receive ...
This article continues from the earlier article "An Introduction to Nuclear Medicine" where the gene...
The continuing rapid expansion of 99mTc diagnostic agents always calls for scaling up 99mTc producti...
Approximately 9 million nuclear cardiology studies performed each year in the U.S. use technetium-99...
First paragraph: Human use of radioactivity is increasing in fields such as nuclear power generation...
This paper presents work in progress, to develop an efficient and economic way to directly produce T...
99mTc is a very useful radioisotope in medical diagnostic procedure. 99mTc is produced from 99Mo dec...
Because of its favourable physical and chemical properties, " ̂ Tc is today the radionuclide of...
This paper discusses the benefits of obtaining 99mTc from non–fission reactor–produced low-specific-...
In 2009, the nuclear industry employed approximately 120,000 people. Nearly 38 percent of the nuclea...