Open letter to journal editors on: International Consensus Radiochemistry Nomenclature Guidelines

Open letter to journal editors on : International Consensus Radiochemistry Nomenclature Guidelines


Dear Editors,
After observing an increased incidence of imprecise and sometimes erroneous use of nuclear chemistry, radiochemistry, and radiopharmacy related terms and nomenclature in scientific reports, an international working group of experts was assembled to address the issue. Upon extensive consultation with peers within the field of radiochemistry and radiopharmaceutical sciences over a 3-year period and an open discussion, consensus was achieved during the International Symposium on Radiopharmaceutical Sciences earlier last year in an open forum. The resulting, harmonised nomenclature recommendations have now been published with following aims given therein 1 : • Provide a reference source for nomenclature good practice in the radiopharmaceutical sciences.
• Clarify the use of terms and rules concerning exclusively radiopharmaceutical terminology, i.e. nuclear-and radiochemical terms, symbols, and expressions. • Address gaps and inconsistencies in existing radiochemistry nomenclature rules. • Provide source literature for further harmonisation beyond our immediate peer group (publishers, editors, IUPAC, pharmacopoeias, etc.).
To disseminate further the consensus recommendations, a summary (see below) has been prepared for ease of reference and for open dissemination across the field. We hope that your journal will consider incorporating these guidelines as part of your journals' manuscript preparation instructions.

Yours sincerely, Heinz H. Coenen and Antony D. Gee
International consensus nomenclature Guidelines: summary 2

Unit of activity
"Radioactivity" is a physical phenomenon, defined as the property of certain nuclei to spontaneously fragment or rearrange, resulting in the emission of radiation. "Activity" is the quantitative measure of radioactivity: the number of nuclear decays, occurring in a given quantity of material over a certain time interval, divided by that time interval.
"Becquerel" (Bq) is the agreed SI derived unit for the quantity of activity.
Pre-SI units (e.g. imperial units) (e.g. mCi, Ci) can also be used, but must be placed in parentheses after the stated SI units.
N.B.:The correct terms "radioactive" and "non-radioactive" must not be replaced by the lab-jargon "hot" and "cold", respectively, in public or official documents.

Molar activity (A m ) and specific activity (A s )
Molar activity is the measured activity per mole of compound; measured in Bq/mol (GBq/µmol).
Specific activity is the measured activity per gram of compound; measured in Bq/g (GBq/µg).
Due to radioactive decay, the instant of time of measurement must be stated; for example: "The molar activity was 50 GBq/µmol 2 h after the end of synthesis".

Apparent molar activity and apparent specific activity
The terms "apparent molar activity" and "apparent specific activity" take into account the amounts of the labelled and non-radiolabelled impurities present (using moles, or weight, respectively).

Effective molar activity and effective specific activity
The terms "effective molar activity" and "effective specific activity" address the chemically, biologically, or pharmacologically 'active' fraction of radioactive and non-radioactive materials in a sample, competing with the labelled product in its chemical or biological reactions.
In this case, the "effectivity" must be determined by an additional analytical process; e.g., receptor or enzyme binding assay, side-product analysis, etc.
Other terms like "pseudo-specific activity" etc. must not be used.
The term "carrier-free" (c.f.) can only be used in the rare case, where the theoretical maximum specific or molar activity is unambiguously proven.
Measures involving determination of amounts of material (e.g., molar activity or radiochemical purity) should be accompanied by a clear description of the method of detection.

Radionuclide and radioisotope descriptors
The enrichment of a chemical compound with an isotope (stable or radioactive) of one or more of the elements, of which it is constituted, is indicated by the symbol of the element (E) together with its mass number (A) (as a superscript in front) within square brackets, [ A E], immediately preceding the compound's name or chemical formula.
Example The terms '(radio)isotope' and '(radio)nuclide' are often used incorrectly in texts, inferring "isotope" means "radioactive nuclide" or even "labelled compound." • 'Nuclide' indicates an atom, characterised by its numbers of protons (identifying its elemental nature) and of nucleons (indicating its mass).
• 'Isotopes' are nuclides of the same element (same proton number), but having different numbers of neutrons (hence different atomic mass). • Isotopic nuclides of different energy state are called isomeric nuclides, isomeric isotopes, or 'isomers', such as technetium-99g and -99m.
N.B. All (radio)isotopes are (radio)nuclides, while the reverse is not true!

Radiochemical yield (RCY)
The "radiochemical yield" is the amount of activity in the product expressed as the percentage (%) of related starting activity utilized in the considered process (e.g. synthesis, separation, etc.). The quantity of both must relate to the same radionuclide and be decay corrected to the same point in time before the calculation is made.
(reported measures of RCY should indicate, whether a product was isolated or not).
The following text may serve as examples for good practice, when describing a radiochemical yield: 'The radiochemical yield was 67% (based on HPLC analysis of the crude product)." 'The radiochemical yield* of "Y" was 67%", with the following as a footnote: