How is Technetium-99m generated for medical use?

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Prepare for the Technetium (Tc) Labeled Radiopharmaceuticals Test. Study with flashcards, multiple-choice questions, and detailed explanations. Ace your exam!

Multiple Choice

How is Technetium-99m generated for medical use?

Explanation:
Technetium-99m is generated primarily in a nuclear reactor or a cyclotron through processes like fission or activation. The most common approach involves irradiating molybdenum-98 with neutrons in a nuclear reactor, which leads to the production of molybdenum-99. Molybdenum-99 is the parent isotope that decays to Technetium-99m, which is widely used in various medical imaging applications due to its favorable physical characteristics such as a half-life of about six hours and the emission of gamma rays that are ideal for imaging. In addition, a cyclotron can be used to produce Technetium-99m directly from certain target materials through various activation reactions. These methods provide a reliable and efficient means to generate this crucial radiopharmaceutical, making it widely available for diagnostic procedures in nuclear medicine. Other options do not accurately describe the production process of Technetium-99m. Fission and activation are well-established and primary methods, while the decay of radioactive waste or the fusion of Uranium-238 are not relevant to the generation of this radiopharmaceutical. Furthermore, chemical processes in a laboratory do not produce Technetium-99m, as it requires specific nuclear reactions to

Technetium-99m is generated primarily in a nuclear reactor or a cyclotron through processes like fission or activation. The most common approach involves irradiating molybdenum-98 with neutrons in a nuclear reactor, which leads to the production of molybdenum-99. Molybdenum-99 is the parent isotope that decays to Technetium-99m, which is widely used in various medical imaging applications due to its favorable physical characteristics such as a half-life of about six hours and the emission of gamma rays that are ideal for imaging.

In addition, a cyclotron can be used to produce Technetium-99m directly from certain target materials through various activation reactions. These methods provide a reliable and efficient means to generate this crucial radiopharmaceutical, making it widely available for diagnostic procedures in nuclear medicine.

Other options do not accurately describe the production process of Technetium-99m. Fission and activation are well-established and primary methods, while the decay of radioactive waste or the fusion of Uranium-238 are not relevant to the generation of this radiopharmaceutical. Furthermore, chemical processes in a laboratory do not produce Technetium-99m, as it requires specific nuclear reactions to

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