适用于眼部和前列腺癌治疗的微型（125）I放射性源的生产与质量保证研究。

Studies on the production and quality assurance of miniature (125)I radioactive sources suitable for treatment of ocular and prostate cancers.

作者信息

Saxena S K, Shanta A, Rajurkar Nilima S, Majali M A

机构信息

Therapeutic and Reference Sources Section, Radiopharmaceuticals Division, RLG, BARC, Mumbai-400 085, India.

出版信息

Appl Radiat Isot. 2006 Apr;64(4):441-7. doi: 10.1016/j.apradiso.2005.08.011. Epub 2005 Nov 14.

DOI:10.1016/j.apradiso.2005.08.011

PMID:16290948

Abstract

(125)I sources were prepared by adsorption of (125)I on palladium-coated silver wires. The effect of reducing agent on percentage adsorption of (125)I was studied and the amount of adsorbed activity on source core was studied by repeated adsorption cycles. The activity per source in the sources produced from the same batch varied with coefficient of variation (i.e. the ratio of standard deviation to mean multiplied by 100) less than 10%. The unencapsulated source exhibited low leachability (< 0.01%). The laser parameters were optimized to obtain quality welds with negligible leak rate. The sources were laser-encapsulated in titanium capsules of 0.8 mm (OD) x 4.5mm (l). The release of radioactivity from encapsulated sources in an immersion test at 50 degrees C for 5 h was <5 nCi (185 Bq). The surface contamination on the sealed capsules was found to be<0.05 nCi or 1.85 Bq per source. The sources were used in the treatment of a child having retinoblastoma.

摘要

（125）I源是通过将（125）I吸附在镀钯银丝上制备的。研究了还原剂对（125）I吸附百分比的影响，并通过重复吸附循环研究了源芯上的吸附活度。同一批次生产的源中每个源的活度变化系数（即标准偏差与平均值之比乘以100）小于10%。未封装的源浸出率低（<0.01%）。优化激光参数以获得泄漏率可忽略不计的优质焊缝。将源激光封装在外径0.8毫米×长度4.5毫米的钛胶囊中。在50℃下进行5小时浸泡试验时，封装源的放射性释放量<5纳居里（185贝可勒尔）。发现密封胶囊上的表面污染为每个源<0.05纳居里或1.85贝可勒尔。这些源用于治疗一名患有视网膜母细胞瘤的儿童。

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Studies on the production and quality assurance of miniature (125)I radioactive sources suitable for treatment of ocular and prostate cancers.适用于眼部和前列腺癌治疗的微型（125）I放射性源的生产与质量保证研究。

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适用于眼部和前列腺癌治疗的微型（125）I放射性源的生产与质量保证研究。

Studies on the production and quality assurance of miniature (125)I radioactive sources suitable for treatment of ocular and prostate cancers.

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