Radioisotopic Purity of Sodium Pertechnetate <sup>99m</sup>Tc Produced with a Medium-Energy Cyclotron: Implications for Internal Radiation Dose, Image Quality, and Release Specifications

Selivanova, Svetlana V.; Lavallée, Éric; Senta, Helena; Caouette, Lyne; Sader, Jayden A.; Lier, E.; Zyuzin, A. Yu.; Lier, Johan E. van; Guérin, Brigitte; Turcotte, Éric

doi:10.2967/jnumed.115.156398

Cited by 23 publications

(36 citation statements)

References 12 publications

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“…Bahan alumina sebagai bahan penyerap radioisotop 99 Mo saat ini penggunaanya sudah mulai digantikan dengan material lain yang berbasis polimer seperti material berbasis zirkonium(MBZ) dan material berbasis nano partikel [4,5,6,7,8].…”

Section: Pendahuluanunclassified

OPTIMASI pH ALUMINA dan 99Mo DALAM PEMBUATAN GENERATOR 99Mo/99mTc BERBASIS MoO3 ALAM

Sulaiman

Sugiharto²,

Chairuman³

et al. 2018

urania

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Section: Pendahuluanunclassified

OPTIMASI pH ALUMINA dan 99Mo DALAM PEMBUATAN GENERATOR 99Mo/99mTc BERBASIS MoO3 ALAM

Sulaiman

Sugiharto²,

Chairuman³

et al. 2018

urania

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“…Using a proton beam of 15.7 MeV and an enriched Isoflex Mo target (99.05%), just 0.0267% of the total activity was related to 96 Tc (see Table ) . Selivanova et al . reported a 96 Tc concentration in the Tc‐final product of 0.0695%, 0.1478%, and 0.1614% using the same type of Mo target and proton beams of 20, 22, and 24 MeV, respectively.…”

Section: Discussionmentioning

confidence: 89%

“…However, we believe that these limits apply to large‐scale 99m Tc production after few hours of irradiation and using 20–24 MeV proton beams. Under these conditions, very high‐enriched targets (99.815% at least) must be used to maintain the dose under the above‐mentioned limit, as demonstrated by Selivanova et al . In this work, 99m Tc in‐house production was achieved using a less expensive 100 Mo metallic target with lower enrichment level (99.05%), shorter irradiation times (1 h), and already available conventional low‐energy medical cyclotron (16 MeV).…”

Section: Discussionmentioning

confidence: 99%

Internal radiation dose assessment of radiopharmaceuticals prepared with cyclotron‐produced ^99mTc

Meléndez‐Alafort

Ferro-Flores

Nardo³

et al. 2019

Medical Physics

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Purpose Technetium‐99m (99mTc) is the radioisotope most widely used in diagnostic nuclear medicine. It is readily available from 99Mo/99mTc generators as the β−decay product of the 99Mo (T½ = 66 h) parent nuclide. This latter is obtained as a fission product in nuclear reactors by neutron‐induced reactions on highly enriched uranium. Alternative production routes, such as direct reactions using proton beams on specific target materials [100Mo(p,2n)99mTc], have the potential to be both reliable and relatively cost‐effective. However, results showed that the 99mTc extracted from proton‐bombarded 100Mo‐enriched targets contains small quantities of several Tc radioisotopes (93mTc, 93Tc, 94Tc, 94mTc, 95Tc, 95mTc, 96Tc, and 97mTc). The aim of this work was to estimate the dose increase (DI) due to the contribution of Tc radioisotopes generated as impurities, after the intravenous injection of four radiopharmaceuticals prepared with cyclotron‐produced 99mTc (CP‐99mTc) using 99.05% 100Mo‐enriched metallic targets. Methods Four 99mTc radiopharmaceuticals (pertechnetate, sestamibi (MIBI), hexamethylpropylene‐amine oxime (HMPAO) and disodium etidronate (HEDP)) were considered in this study. The biokinetic models reported by the International Commission on Radiological Protection (ICRP) for each radiopharmaceutical were used to define the main source organs and to calculate the number of disintegrations per MBq that occurred in each source organ (Nsource) for each Tc radioisotope present in the CP‐99mTc solution. Then, target organ equivalent doses and effective dose were calculated for each Tc radioisotope with the OLINDA/EXM software versions 1.1 and 2.0, using the calculated Nsource values and the adult male phantom as program inputs. Total effective dose produced by all Tc isotopes impurities present in the CP‐99mTc solution was calculated using the fraction of total activity corresponding to each radioisotope and compared with the effective dose delivered by the generator‐produced 99mTc. Results In all cases, the total effective DI of CP‐99mTc radiopharmaceuticals calculated with either versions of the OLINDA software was less than 10% from 6 up to 12 h after EOB. 94mTc and 93mTc are the Tc radioisotopes with the highest concentration in the CP‐99mTc solution at EOB. However, their contribution to DI 6 h after EOB is minimal, due to their short half‐lives. The radioisotopes with the largest contribution to the effective DI are 96Tc, followed by 95Tc and 94Tc. This is due to the types of their emissions and relatively long half‐lives, although their concentration in the CP‐99mTc solution is five times lower than that of 94mTc and 93mTc at the EOB. Conclusions The increase in the radiation dose caused by other Tc radioisotopes contained in CP‐99mTc produced as described here is quite low. Even though the concentrations of the 94Tc and 95Tc radioisotopes in the CP‐99mTc solution exceed the limits established by the European Pharmacopoeia, CP‐99mTc radiopharmaceuticals could be used in routine nuclear medicine diagno...

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“…Furthermore, it is acknowledged that the development of technetium‐labeled complexes as radiopharmaceuticals has been facilitated by the use of rhenium, the group VIIB congener of technetium. Rhenium chemistry is similar to technetium‐99m chemistry, and therefore, nonradioactive metal complexes are often used as mimics of 99m Tc‐analogs, with the practical advantage that larger scale syntheses can yield quantities of product for structural characterization . In this study, the rhenium‐complex 4 was synthesized in sufficient quantity from DPA‐CLB ( 2 ) in 75% yield via Scheme , it was characterized by elemental analysis and a mix of different spectroscopic methods.…”

Section: Resultsmentioning

confidence: 99%

Synthesis and preliminary biological evaluation of a^99mTc-chlorambucil derivative as a potential tumor imaging agent

Lin

Qiu

et al. 2016

J. Label Compd. Radiopharm

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Technetium-99m-based radiopharmaceuticals have been used widely as diagnostic agents in the nuclear medicine. Chlorambucil (CLB) as one typical alkylating drug exhibits excellent inhibition effects against many human malignancies. To develop and explore a novel potential imaging agent for early diagnosis of tumors, tricarbonyl technetium-99m and rhenium complexes on the basis of the tridentate ligand dipicolylamine (DPA) bound to the chlorambucil pharmacophore were designed and synthesized: Tc-DPA-CLB (3) and Re-DPA-CLB (4). The high performance liquid chromatography analyses showed that the retention time of 3 and 4 was 13.5 and 13.6 minutes, respectively. Radiolabeling efficiency of the Tc-DPA-CLB tracer was 97%, and the radiochemical purity was larger than 95% after 6 hours stored in phosphate buffered saline or human serum as observed by thin layer chromatography and high performance liquid chromatography. Biodistribution studies in a mouse model of breast cancer showed Tc-DPA-CLB exhibited a favorable tumor affinity. The radiotracer cleared quickly in the first hour via hepatobiliary and renal routes of excretion, resulted in a very low background at 4 hours post injection (p.i.). It had moderate uptake ratios of tumor to blood and tumor to muscle. These results suggested Tc-DPA-CLB might be a promising SPECT imaging agent for tumor diagnosis.

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Radioisotopic Purity of Sodium Pertechnetate ^99mTc Produced with a Medium-Energy Cyclotron: Implications for Internal Radiation Dose, Image Quality, and Release Specifications

Cited by 23 publications

References 12 publications

OPTIMASI pH ALUMINA dan 99Mo DALAM PEMBUATAN GENERATOR 99Mo/99mTc BERBASIS MoO3 ALAM

OPTIMASI pH ALUMINA dan 99Mo DALAM PEMBUATAN GENERATOR 99Mo/99mTc BERBASIS MoO3 ALAM

Internal radiation dose assessment of radiopharmaceuticals prepared with cyclotron‐produced ^99mTc

Synthesis and preliminary biological evaluation of a^99mTc-chlorambucil derivative as a potential tumor imaging agent

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Radioisotopic Purity of Sodium Pertechnetate 99mTc Produced with a Medium-Energy Cyclotron: Implications for Internal Radiation Dose, Image Quality, and Release Specifications

Cited by 23 publications

References 12 publications

OPTIMASI pH ALUMINA dan 99Mo DALAM PEMBUATAN GENERATOR 99Mo/99mTc BERBASIS MoO3 ALAM

OPTIMASI pH ALUMINA dan 99Mo DALAM PEMBUATAN GENERATOR 99Mo/99mTc BERBASIS MoO3 ALAM

Internal radiation dose assessment of radiopharmaceuticals prepared with cyclotron‐produced 99mTc

Synthesis and preliminary biological evaluation of a99mTc-chlorambucil derivative as a potential tumor imaging agent

Contact Info

Product

Resources

About

Radioisotopic Purity of Sodium Pertechnetate ^99mTc Produced with a Medium-Energy Cyclotron: Implications for Internal Radiation Dose, Image Quality, and Release Specifications

Internal radiation dose assessment of radiopharmaceuticals prepared with cyclotron‐produced ^99mTc

Synthesis and preliminary biological evaluation of a^99mTc-chlorambucil derivative as a potential tumor imaging agent