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1 nces, even beyond the area contaminated with radioactive material.
2 l and global concern regarding the spread of radioactive material.
3 viduals injured by a terrorist act involving radioactive material.
4 ication of ESI spectra, without need for any radioactive material.
5 h fluid as possible and this fluid contained radioactive material.
6 other vertebrates in areas contaminated with radioactive materials.
7 and safety issues associated with the use of radioactive materials.
8 his procedure is time-consuming and requires radioactive materials.
9 s only nanoliters of sample, and involves no radioactive materials.
10 s by laboratories that do not want to handle radioactive materials.
11 ators should also be trained in working with radioactive materials.
12 aromatic hydrocarbons to naturally occurring radioactive materials.
13 reducing radioactive waste, and handling of radioactive materials.
15 alysis (PGAA) can be used to detect multiple radioactive materials across the entire Periodic Table.
16 oise from unlabeled transcripts, requires no radioactive materials and can be performed from as few a
17 e that ionizing radiation from environmental radioactive materials and cosmic rays contributes to thi
18 F-actin for blot overlay assays requires no radioactive materials and generates no hazardous waste.
19 ements and disposal problems of working with radioactive materials, and (iii) short shelf-life of the
22 D-HIF interaction or require the handling of radioactive material, as seen in the most commonly used
23 ped for the release of patients administered radioactive materials based on the new Nuclear Regulator
26 memory tracer of the dissemination of U-rich radioactive material: even after an important U loss, th
27 that govern release of patients administered radioactive material have been revised to include dose-b
28 ons for the release of patients administered radioactive material have been revised to include dose-b
29 nificantly easier to handle when compared to radioactive material in laboratory day-to-day business,
30 dels that describe the fate and transport of radioactive materials in the atmosphere following a nucl
31 challenging to track the dispersal paths of radioactive materials in the North Pacific Subpolar regi
32 material of choice to store large volumes of radioactive materials, in particular the low-level mediu
33 interactions in real time without the use of radioactive materials, it is nondestructive and, with ap
34 w many patients given therapeutic amounts of radioactive material no longer require hospitalization.
36 levated concentration of naturally occurring radioactive material (NORM) in wastewater generated from
37 there is involvement in naturally occurring radioactive material (NORM), also in support of those ne
38 concentrations of salts, naturally occurring radioactive material (NORM), and metals, such as barium,
39 ade plutonium, masked by naturally-occurring radioactive material (NORM), in a measurement time of a
41 bution and enrichment of naturally occurring radioactive materials (NORM) in coal combustion residual
42 vity concentrations from naturally occurring radioactive materials (NORM), including uranium, thorium
43 protective equipment for workers who handle radioactive materials or are in direct patient contact,
44 ed, as were the magnitude of the releases of radioactive materials, the pathways by which persons wer
48 cycle where improved methods for monitoring radioactive materials will facilitate maintenance of pro
50 mpted active consideration of poisoning with radioactive material, with the diagnosis ultimately bein