A modified method for no carrier added radioiodination of L-tyrosine via chloramine-T as an oxidizing agent

A modified method for the preparation of L-[^131/123I] iodotyrosine as a brain imaging agent is described. The method is based on direct electrophilic radioiodination of L-tyrosine with NaI [^131/123I] using chloramine-T (CAT) and 0.001 g KI as a carrier at pH 7.0. The product was purified by reverse phase high performance liquid chromatography (HPLC). A high radiochemical yield up to 85% of L-[^131/123I] iodotyrosine has been achieved with radiochemical purity of greater than 97%. The relation between the pKa of L-tyrosine and pH of the reaction medium was calculated in order to correlate the radiochemical yield of L-[^131/123I] iodotyrosine and the state of the three ionizable groups of L-tyrosine. Also, the influence of the reaction conditions on the radiochemical yield of L-[^131/123I] iodotyrosine was investigated.     

Determination of iodine in biological materials by neutron activation analysis

A method of determination of iodine (total and PBI) in serum, urine and other biological materials has been developed. The method consists in a gamma-spectrometric measurement of¹²⁸I activity after its radiochemical separation. The radiochemical separation procedure includes wet decomposition of the samples in a nitric acid medium followed by a few separation steps, the essential step being the substoichiometric extraction of iodide with a chloroform solution of tetraphenylarsonium chloride. Owing to the application of the substoichiometric separation, a high radiochemical purity of the separated iodine is achieved and the determination of the yield of radiochemical separation is not necessary.     

Optimization of the preparation conditions of radioiodoepidepride: A dopamine D<Subscript>2</Subscript>receptor antagonist radioligand

Summary [¹²⁵I]iodepidepride, (s)-(-)-[(1-ethyl-2-pyrrolidinyl)methyl]-5-[¹²⁵I]-iodo-2,3-dimethoxybenzamide is the iodine substituted analogue of isoremoxipride, both of which are very potent dopamine D₂-antagonists. Epidepride was radioiodinated using different oxidizing agents such as chloramine-T, iodogen, iodogen glass frit and hydrogen peroxide. Chloramine-T is a powerful oxidizing agent compared to both iodogen and hydrogen peroxide so that the side products, especially the chlorinated epidepride, decreases the radiochemical yield. This chlorinated epidepride is minimized in the case of iodogen and iodogen glass frit and are not observed in case of the non-chlorinated oxidizing agent hydrogen peroxide. TLC and HPLC were used to analyze the reaction components and to estimate both the radiochemical yield and purity. The reaction parameters such as reaction time, pH, epidepride and oxidizing agent concentrations and the stabilty of the final product were studied to optimize the radiochemical yield and purity. The optimized radiochemical yield was about 90% and the radiochemical purity of the final product was 99.9%.     

Preparation of high purity labelled Rose-Bengal with radioiodine

The exchange of Rose-Bengal in the mono-sodium salt with elementary¹³¹I in an organic medium allows for the preparation of a labelled product substantially higher in radiochemical purity than that produced by other methods. Purification of the starting material before the labelling process has been done by adsorption chromatography. Under the conditions described a radiochemical yield more than 97% can be obtained within 30–60 minutes. The product was stable during sterilization and storage for 10 days and was found to be free of¹³¹I.     

双功能偶联剂SPC的一种新合成方法及其碘标记

放射性碘标记药物广泛用于医学检验及临床诊断和治疗中。放射性碘标记蛋白质不管是采用Ch-T、Iodogen直接标记方法还是采用Bolton-Hunter试剂间接标记方法,其存在的主要问题是标记物可能在体内严重脱碘[1,2]。为了克服这一问题,人们不断改进碘标记方法。其中,Zalutsky、W ilbur     

Astatine-211 labelled proteins and their stability in vivo

In an ongoing effort to obtain quantitative, rapid kit type labelling of [¹²³I] radiopharmaceuticals, we have examined organomercury precursors of [¹²³I] 15-(para-iodophenyl)-pentadecanoic acid (IPPA). Chloromercuri derivatives of phenyl pentadecanoic acid (PPA) and the PPA ethyl ester were obtained by mercuration utilizing mercuric trifluoroacetate in trifluoroacetic acid followed by treatment with acetic acid and hydrochloric acid. The most simple compound, chloromercuri PPA, proved insoluble at room temperature in the common solvents useful for radioiodination and purification. The study was extended in a systematic way to chloromercuri PPA ethyl ester and the acetoxy mercuri PPA ethyl ester. As expected, these two compounds posessed successively more useful ranges of solvent compatibility. Iodination and [¹²³I] radioiodination were carried out with the three compounds of PPA. Chloromercuri PPA was dissolved with difficulty in acetic acid at 70°C and 71% radiochemical yield of [¹²³I] IPPA was obtained during the course of a 5 minute reaction utilizing chloramine T. The chloromercuri PPA ethyl ester was dissolved in ethyl acetate/acetic acid (2/1 v/v) at room temperature and 87% radiochemical yield of [¹²³I] IPPA was obtained following 10 minutes reaction. With the acetoxy mercuri PPA ethyl ester it was possible to conduct the radioiodination in ethanol again using chloramine T. A modest radiochemical yield (r. y.) (51%) of [¹²³I] IPPA ethyl ester was obtained after 60 min. It was possible to enhance the radiochemical yield in the presence of lithium acetate (84% r. y.). The isomeric purity of the [¹²³I] IPPA ethyl ester was unexpectedly high (99.9% para) when the radioiodination was conducted at room temperature.     

On the determination of 36Cl and 129I in solid materials from nuclear decommissioning activities

Journal of Radioanalytical and Nuclear Chemistry - Determination of the 36Cl and 129I massic activities using pyrolysis combined with radiochemical separation (using a Cl-resin) in concrete and...     

Radioiodination, purification and bioevaluation of Piroxicam in comparison with Meloxicam for imaging of inflammation

The present study is performed to compare the electrophilic substitution radioiodination reaction of two non-steroidal anti-inflammatory drugs namely, Piroxicam (Pirox) and Meloxicam (Melox) with ¹²⁵I where both chloramine-T (CAT) and iodogen were used as oxidizing agents. The factors affecting the percent of radiochemical yields such as drug concentration, pH of the reaction mixtures, different oxidizing agents, reaction time, temperature and different organic media were studied to optimize the conditions for labeling of Pirox and Melox and to obtain high radiochemical yields. The maximum radiochemical yield of ¹²⁵I-Piroxicam (¹²⁵I-Pirox) was 94% using 3.7 MBq of Na¹²⁵I, 0.4 mM of Pirox as substrate, 3.6 mM of chloramine-T (CAT) as oxidizing agent in acetone at neutral pH = 7 and at 60 °C within 20 min where the maximum radiochemical yield of ¹²⁵I-Melox was 92% using 0.7 mM of Melox as substrate, 0.62 mM of iodogen as oxidizing agent in acetone at neutral pH = 7 and at 25 °C within 30 min. The radiochemical yields were determined by TLC and high-pressure liquid chromatography (HPLC). Tracers showed good localization in inflamed muscle either septic or sterile. The collected data indicates that Pirox and Melox can be used as antiinflammatory imaging agents at 24 and 2 h post injection, respectively.     

Simultaneous determination of iodine and selenium in biological samples by radiochemical neutron activation analysis

Summary Regarding the favourably sensitive nuclear characteristics of iodine and of selenium but the very different half lives of their induced nuclides ¹²⁸I and ⁷⁵Se, a radiochemical neutron activation analysis method for simultaneous determination of these elements in a single sample was developed. It is based on the double irradiation LICSIR technique — Long Irradiation for Se (40h), Cooling (a week or more), Short Irradiation for iodine (1–15 min) with following Radiochemistry. After the second short irradiation, the sample is ignited in an oxygen flask and iodine and selenium are sequentially and selectively extracted as elemental iodine and 5-nitro-2,1,3 benzoselena diazole chelate. With the described method biological samples were analysed and the reliability of the results was checked by the analyses of different standard reference materials. Good agreement with certified values and high radiochemical purity of the spectra show the applicability of the radiochemical separation developed.     

Radioiodination of 4-benzyl-1-(3-iodobenzylsulfonyl)piperidine, 4-(3-iodobenzyl)-1-(benzylsulfonyl)piperazine and their derivatives via isotopic and non-isotopic exchange reactions

A mild and simple technique for preparing of 4-benzyl-1-(3-[¹²⁵I]iodobenzylsulfonyl)piperidine, 4-(3-[¹²⁵I]iodobenzyl)-1-(benzylsulfonyl)piperazine and their derivatives, as sigma-1 receptor ligands, with relatively high radiochemical yields via nucleophilic substitution reaction by means of isotopic and non-isotopic exchange reactions is described. Some factors affecting the radiochemical yield were commonly studied in presence of acidic medium at elevated temperature. Unfortunately, the radiochemical yields were weak. Some attempts were carried out in presence of polar aprotic solvents to enhance the radiochemical yield. N,N-Dimethylformamide was proved highly efficient for preparing of radioiodinated 4-benzyl-1-(3-iodobenzylsulfonyl)piperidine (4-B-[¹²⁵I]-IBSP, 70 ± 5.7 %) and 4-(3-iodobenzyl)-1-(benzylsulfonyl)piperazine (4-[¹²⁵I]-IBBSPz, 72 ± 6.0 %) at moderate temperature (100–105 °C) within 8 h. The specific activities of 4-B-[¹²⁵I]-IBSP and 4-[¹²⁵I]-IBBSPz (6,534.2 and 5,927.4 MBq/mmol) were obtained respectively.     

Synthesis of N-isopropyl-p-123I-amphetamine and biodistribution in rats

The described labelling and purification preparation of N-isopropyl-p-¹³¹I-amphetamine /¹³¹I-IMP/ represents a fast and efficient method to obtain a compound that fulfils all criteria of purity for its in-vivo application. After isotope exchange and quality control¹³¹I-IMP could be obtained with radiochemical yields in the range between 68% and 78% with a radiochemical purity of 98–99%. As demonstrated in animal experiments the cerebral affinity of IMP offers a possibility for the diagnosis of brain diseases in clinical studies when the product is labelled with¹²³I.     

Preparation of N-[11C]methyl-2,5-dimethoxy-4-methylamphetamine

In order to evaluate the neurobiological mechanism causing the psychogenic effects of N-methyl-2,5-dimethoxy-4-methylamphetamine (MDOM), the¹¹C labelled analogue was prepared for application in in vivo PET studies by the reaction of 2,5-dimethoxy-4-methylamphetamine (DOM) with [¹¹C]CH₃I. The radiochemical yield was determined in dependence on time, temperature, solvent and amount of substrate. The best conditions for fast labelling reactions with¹¹C on a preparative scale were found to be a reaction time of 10 miutes at 110°C using 1 mg DOM in acetonitrile thus obtaining radiochemical yields of 80% (based on produced [¹¹C]CH₃I).     

Comparative study between chloramine-T and iodogen to prepare radioiodinated etodolac for inflammation imaging

This study describes a fast and efficient method for radiolabeling of etodolac with iodine-125 [¹²⁵I], where both chloramine-T and iodogen were used as oxidizing agents. The labeling reaction was carried out via electrophilic substitution of hydrogen atom with the iodonium cation I⁺. The labeling yield was found to be influenced by different factors such as drug concentration, pH of the reaction mixtures, different oxidizing agents, reaction time, temperature and different organic media. The radiochemical yield (RCY) was determined by TLC system using methylene chloride:ethyl acetate (3:7 v/v) as a developing solvent and by electrophoresis using cellulose acetate moistened with 0.02 M phosphate buffer pH 7. The maximum radiochemical yield of [¹²⁵I]Etodolac (87.7%) was obtained. Labeled etodolac shows a good localization in inflamed muscle. It excretes mainly via kidney and to some via liver.     

Sequential substoichiometric radiochemical separation of selenium,thallium and cadmium

A procedure for sequential radiochemical separation of Se(IV), Tl(I) and Cd(II) has been developed. This procedure involves substoichiometric solvent extraction of these ions with 2-mercaptobenzothiazole (2-HMBT) under different experimental conditions.     

Radiochemical methods in nuclear waste management

Radiochemical techniques play an important role in nuclear waste management studies at the Centre for Analytical Research in the Environment. Current research includes the measurement of atmospheric emissions from a reprocessing plant, modelling of environmental pathways, and evaluation of reactor materials for the prediction of releases from ultimate disposal sites. A radiochemical separation procedure has been developed for¹²⁹I, which has been applied to a study of emissions from the Sellafield nuclear reprocessing plant. Atmospheric emissions, rainfall, grass, milk and wild food are analysed to model the ultimate fate of¹²⁹I. A new procedure has been developed for measuring sub-ppm concentrations of chlorine in archive steel samples as part of programme to produce an inventory of arisings of³⁶Cl from nuclear power stations. The method has been extended to other reactor materials and this paper describes the application of the radiochemical method for Magnox alloys, mild steel and cast iron.     

Nucleophilic radioiodination of 6-bromocholesterol via non-isotopic exchange reaction in molten state

A synthetic method for preparing radioiodinated 6-[125 I]iodocholesterol[CL-6-125 I] for adrenal evaluation is described. The radioiodine atom wasincorporated onto the cholesterol molecule via non-isotopic exchange between6-bromocholesterol [CL-6-Br] and radioiodine as iodide ion [ 125 I –]in a molten state. The different parameters affecting the yield of exchange were investigated using 125 I (T 1/2 .60 d) to centralize the different physical and chemical reaction conditions and purification of the final product as pure as 6-[125 I]iodocholesterol. The method was suitable to either 131 I (T 1/2 .8 d) nucleophilic radioiodination which facilitates the scanning of the adrenal for a few days after administration or the use of 124 I (T 1/2 .4.16 d) nucleophilic radioiodination for PET evaluation of the adrenal. TLC as well as HPLC chromatographic analysis is used to determine the efficiency of the exchange reactions under different chemical reaction conditions and to monitor the stability of the final product as pure as CL-6-125 I with radiochemical purity of .99%. This no-carrier-added method improved the speed of the reaction and affords high radiochemical yield of 90 % and suitable specific activity due to the use of CL-6-Br rather than CL-6-I as substrate. Kinetic studies revealed second order iodine-bromine exchange reaction. The activation energy for the exchange reaction in ammonium acetate (m.p. 114 °C) was calculated to be 4.576 kcal/mole.     

5-O-(4-[125 I]Iodobenzyl)-L-ascorbic acid: electrophilic radioiodination and biodistribution in mice

As a part of our efforts to develop potential imaging agents for ascorbate bioactivity, 5-O-(4-[(125)I]iodobenzyl)-L-ascorbic acid ([(125)I]1) was prepared through a two-step sequence which involved radioiodo-destannylation of a protected tributylstannyl precursor 6, followed by hydrolysis in acidic methanol of the protecting groups in 61% overall radiochemical yield, with a radiochemical purity of over 98% and a specific activity of more than 15.4?GBq/μmol. Tissue distribution of [(125)I]1 in tumor-bearing mice showed signs of distribution profiles similar to the reported results for 6-deoxy-6-[(18)F]fluoro-L-ascorbic (6-(18)FAsA) acid and 6-deoxy-6-[(131)I]iodo-L-ascorbic acid (6-(131)IAsA) but with notable differences in the adrenal glands, in which considerably lower uptake of radioactivity and rapid clearance with time were observed. Pretreatment of mice with a known inhibitor of ascorbate transport, sulfinpyrazone, did not produce any significant change in the adrenal uptake of radioactivity after injection of [(125)I]1 compared to the control, suggesting that uptake in the adrenal glands is independent of the sodium-dependent vitamin C transporter 2 transport mechanism. Introduction of a bulky substituent at C-5 on AsA, such as an iodobenzyloxy group, may not be suitable for the design of analogs that may still be able to maintain characteristic distribution properties in vivo seen with AsA itself.     

Fast high yield labelling of 16-Br-hexadecanoic acid with radioactive iodine using quaternary ammonium salts

The catalytic effect of quatemary ammonium ion on the reaction between 16-bromohexadecanoic acid (16-BrHDA) with Na¹³¹I in two phase system has been detemined. The technique described here is based on nonisotopic exchange reaction between 16-BrHDA and Na¹³¹I using phase transfer catalysis. Four quaternary ammonium salts (as phase transfer catalyst PTC) and one crown ether were examined. The kinetics are linearly dependent on catalyst content, offering radiochemical yield of more than 90% within 10 minutes at 60 °C. The effect of different temperatures on the radiochemical yield of 16-¹³¹IHDA have been studied to determine the activation energies of the exchange processes between 16-BrHDA and Na¹³¹I. In the presence of PTC, the activation energies of 8.3–9.7 kcal/mol were determined. Also in dry state and in absence of PTC the activation energy was measured and found to be 21.95 kcal/mol.     

放射性碘标记海洛因的初步研究

本文用氯胺－5氧化法对海洛因进行碘－125标记。初步研究了反应PH,同时、温度和海洛因的量对标记率的影响。采用SephadexG-10柱将碘标海洛因与游离碘－125分离,并对试验中出现的现象和可能的反应机理作了初步探讨,产物在SephadexG-10柱上分离纯化后,研究了^125I-heroin的稳定性,结果指出,标记产物在室温放置116h后放化纯度仍达70％。     

Dry state preparation of radioiodine labeled meta-iodobenzylguanidine

Radioiodination of meta-iodobenzylguanidine (MIBG) by the isotopic exchange technique in the dry state has been performed. Benzoic acid, pivalic acid and acetamide have been used as molten protic media to promote isotopic exchange reactions. Ammonium sulphate, diammonium hydrogen ortho-phosphate and ammonium chloride were used as catalysts which provide acidic media to facilitate exchange reactions. Maximum radiochemical yields of 97.1±1.3% and 84.3±1.6% [¹³¹I] MIBG were obtained when ammonium sulphate and benzoic acid were used. High radiochemical yields of 88.3±1.1% and 74.4±1.5% [¹³¹I] MIBG were also obtained in case of diammonium hydrogen orthophosphate and pivalic acid which suggests their successful use as reaction media in the radioiodination of MIBG. The activation energy for the exchange reaction in ammonium sulphate was calculated to be 10.8 kcal/mole.