strontium-radioisotopes and calcium-phosphate--dibasic--anhydrous

strontium-radioisotopes has been researched along with calcium-phosphate--dibasic--anhydrous* in 2 studies

Other Studies

2 other study(ies) available for strontium-radioisotopes and calcium-phosphate--dibasic--anhydrous

Article	Year
An effective and better strategy for reducing body burden of radiostrontium. Journal of radiological protection : official journal of the Society for Radiological Protection, 2003, Volume: 23, Issue:3 In this study we have examined the effect of different calcium salts, Ca gluconate (CaG), Ca lactate (CaL), Ca carbonate (CaC) and Ca phosphate (CaP), on the clearance of radiostrontium (Sr) administered either intraperitoneally (ip) (Sr-ip group) or orally (Sr-oral group) in rats. The influence of these Ca salts was examined in a group of animals administered Sr ip, while the effect of three Ca salts (CaG, CaL and CaP) was studied in another group of rats given Sr orally and compared with that of Ca alginate (CaA), normally advised for Sr decorporation. Rats from both groups were subdivided into control and four experimental subgroups and were housed individually. The experimental subgroups were given the respective Ca salts (elemental Ca = 9 mg/rat/day) 2 h post 85Sr, and thereafter once daily. In the Sr-ip group, CaG was administered ip while the other Ca salts were given orally. In the Sr-oral group all Ca salts were administered orally. In addition, the diet of all the experimental subgroups was supplemented with the respective Ca salts to 2% elemental Ca. The whole-body retention (WBR) of Sr in animals treated with Ca salts was found to be significantly reduced from 50-60% at 24 h to 20-30% at the end of 15 days compared with 70-80% at 24 h to 50-60% at the end of 15 days in the untreated control animals. The results strongly suggest that CaA could be replaced by any of the commonly used Ca salts for curtailing the WBR of Sr. CaG which was administered ip, in the Sr-ip group, was found to be more effective in reducing the WBR of Sr. Topics: Administration, Oral; Animals; Antidotes; Body Burden; Calcium Carbonate; Calcium Compounds; Calcium Gluconate; Calcium Phosphates; Calcium, Dietary; Injections, Intraperitoneal; Lactates; Rats; Rats, Wistar; Strontium Radioisotopes; Time Factors	2003
Determination of strontium-90 in milk samples using a controlled precipitation clean-up step prior to ion-chromatography. The Science of the total environment, 1995, Dec-01, Volume: 173-174 Strontium-90 may be determined by beta-counting its yttrium-90 daughter following separation by ion-chromatography, using a three column system comprising a chelating concentrator column, a cation-exchange column and an anion-exchange separator column. The column system has previously been applied to the determination of strontium-90 in water and urine samples. The applicability of the system to the analysis of milk is hampered by the large concentrations of calcium present, which significantly reduces the extraction of yttrium-90 by the concentrator column. A maximum of approximately 200 mg of calcium can be present for the successful extraction of yttrium-90, which greatly limits the quantity of milk that can be analysed. The quantity of milk analysed can be increased by the inclusion of a controlled precipitation step prior to the ion-chromatographic separation. The precipitation is carried out on acid digested milk samples by the addition of ammonia solution until the addition of one drop causes a reduction in pH resulting in the precipitation of calcium hydrogenphosphate. Under these conditions, approximately 20% of the calcium present in the original milk sample is precipitated, yttrium-90 is precipitated whereas strontium-90 is not precipitated. Dissolution of the precipitate, followed by separation of yttrium-90 using the ion-chromatography system facilitates the analysis of a litre of milk with recoveries of greater than 80%. Topics: Animals; Calcium Phosphates; Chemical Precipitation; Chromatography, Ion Exchange; Milk; Reproducibility of Results; Strontium Radioisotopes	1995

Article

Year

An effective and better strategy for reducing body burden of radiostrontium.

Journal of radiological protection : official journal of the Society for Radiological Protection, 2003, Volume: 23, Issue:3

In this study we have examined the effect of different calcium salts, Ca gluconate (CaG), Ca lactate (CaL), Ca carbonate (CaC) and Ca phosphate (CaP), on the clearance of radiostrontium (*Sr) administered either intraperitoneally (ip) (*Sr-ip group) or orally (*Sr-oral group) in rats. The influence of these Ca salts was examined in a group of animals administered *Sr ip, while the effect of three Ca salts (CaG, CaL and CaP) was studied in another group of rats given *Sr orally and compared with that of Ca alginate (CaA), normally advised for *Sr decorporation. Rats from both groups were subdivided into control and four experimental subgroups and were housed individually. The experimental subgroups were given the respective Ca salts (elemental Ca = 9 mg/rat/day) 2 h post 85Sr, and thereafter once daily. In the *Sr-ip group, CaG was administered ip while the other Ca salts were given orally. In the *Sr-oral group all Ca salts were administered orally. In addition, the diet of all the experimental subgroups was supplemented with the respective Ca salts to 2% elemental Ca. The whole-body retention (WBR) of *Sr in animals treated with Ca salts was found to be significantly reduced from 50-60% at 24 h to 20-30% at the end of 15 days compared with 70-80% at 24 h to 50-60% at the end of 15 days in the untreated control animals. The results strongly suggest that CaA could be replaced by any of the commonly used Ca salts for curtailing the WBR of *Sr. CaG which was administered ip, in the *Sr-ip group, was found to be more effective in reducing the WBR of *Sr.

Topics: Administration, Oral; Animals; Antidotes; Body Burden; Calcium Carbonate; Calcium Compounds; Calcium Gluconate; Calcium Phosphates; Calcium, Dietary; Injections, Intraperitoneal; Lactates; Rats; Rats, Wistar; Strontium Radioisotopes; Time Factors

2003

Determination of strontium-90 in milk samples using a controlled precipitation clean-up step prior to ion-chromatography.

The Science of the total environment, 1995, Dec-01, Volume: 173-174

Strontium-90 may be determined by beta-counting its yttrium-90 daughter following separation by ion-chromatography, using a three column system comprising a chelating concentrator column, a cation-exchange column and an anion-exchange separator column. The column system has previously been applied to the determination of strontium-90 in water and urine samples. The applicability of the system to the analysis of milk is hampered by the large concentrations of calcium present, which significantly reduces the extraction of yttrium-90 by the concentrator column. A maximum of approximately 200 mg of calcium can be present for the successful extraction of yttrium-90, which greatly limits the quantity of milk that can be analysed. The quantity of milk analysed can be increased by the inclusion of a controlled precipitation step prior to the ion-chromatographic separation. The precipitation is carried out on acid digested milk samples by the addition of ammonia solution until the addition of one drop causes a reduction in pH resulting in the precipitation of calcium hydrogenphosphate. Under these conditions, approximately 20% of the calcium present in the original milk sample is precipitated, yttrium-90 is precipitated whereas strontium-90 is not precipitated. Dissolution of the precipitate, followed by separation of yttrium-90 using the ion-chromatography system facilitates the analysis of a litre of milk with recoveries of greater than 80%.

Topics: Animals; Calcium Phosphates; Chemical Precipitation; Chromatography, Ion Exchange; Milk; Reproducibility of Results; Strontium Radioisotopes

1995