radiochemistry$66462$ - ορισμός. Τι είναι το radiochemistry$66462$
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Τι (ποιος) είναι radiochemistry$66462$ - ορισμός

PHARMACOLOGIC STUDY OF RADIATED MEDICAL COMPOUNDS
FP-CIT; Radioactive drug; FPCIT; Medical radioisotopes; Radionuclide drug; Radioactive pharmaceuticals; Radioactive pharmaceutical; I-FP-CIT; Medicinal radiochemistry; Medical radioisotope

radiochemistry         
CHEMISTRY OF RADIOACTIVE MATERIALS
Radio chemistry; Radiochemist
¦ noun the branch of chemistry concerned with radioactive substances.
Derivatives
radiochemical adjective
radiochemist noun
Radiochemistry         
CHEMISTRY OF RADIOACTIVE MATERIALS
Radio chemistry; Radiochemist
Radiochemistry is the chemistry of radioactive materials, where radioactive isotopes of elements are used to study the properties and chemical reactions of non-radioactive isotopes (often within radiochemistry the absence of radioactivity leads to a substance being described as being inactive as the isotopes are stable). Much of radiochemistry deals with the use of radioactivity to study ordinary chemical reactions.
Applied Radiochemistry         
Applied Radiochemistry is an important collection of lectures by German chemist Otto Hahn published in English in 1936 by the Cornell University Press (Ithaca, New York) and simultaneously by the Oxford University Press (London). Edited by H.

Βικιπαίδεια

Radiopharmacology

Radiopharmacology is radiochemistry applied to medicine and thus the pharmacology of radiopharmaceuticals (medicinal radiocompounds, that is, pharmaceutical drugs that are radioactive). Radiopharmaceuticals are used in the field of nuclear medicine as radioactive tracers in medical imaging and in therapy for many diseases (for example, brachytherapy). Many radiopharmaceuticals use technetium-99m (Tc-99m) which has many useful properties as a gamma-emitting tracer nuclide. In the book Technetium a total of 31 different radiopharmaceuticals based on Tc-99m are listed for imaging and functional studies of the brain, myocardium, thyroid, lungs, liver, gallbladder, kidneys, skeleton, blood and tumors.

The term radioisotope, which in its general sense refers to any radioactive isotope (radionuclide), has historically been used to refer to all radiopharmaceuticals, and this usage remains common. Technically, however, many radiopharmaceuticals incorporate a radioactive tracer atom into a larger pharmaceutically-active molecule, which is localized in the body, after which the radionuclide tracer atom allows it to be easily detected with a gamma camera or similar gamma imaging device. An example is fludeoxyglucose in which fluorine-18 is incorporated into deoxyglucose. Some radioisotopes (for example gallium-67, gallium-68, and radioiodine) are used directly as soluble ionic salts, without further modification. This use relies on the chemical and biological properties of the radioisotope itself, to localize it within the body.