用于冠状动脉内液体填充球囊放射治疗以预防再狭窄的短寿命发射正电子放射性同位素的优势。

Advantages of short-lived positron-emitting radioisotopes for intracoronary radiation therapy with liquid-filled balloons to prevent restenosis.

作者信息

Stoll H P, Hutchins G D, Winkle W L, Nguyen A T, Appledorn C R, Janzen I, Seifert H, Rübe C, Schieffer H, March K L

机构信息

Medical Clinic III, Cardiology, Department of Radiation Oncology, University Hospital Homburg/Saar, Germany.

出版信息

J Nucl Med. 2001 Sep;42(9):1375-83.

PMID:11535728

Abstract

UNLABELLED

Balloon catheters filled with liquid radioisotopes provide excellent dose homogeneity for intracoronary radiation therapy but are associated with risk for rupture or leakage. We hypothesized that the safety of liquid-filled balloons may be improved once positron emitters with half-lives below 2 h are used instead of the high-energy beta-emitters 166Ho, 186Re, or 188Re, all of which have a longer half-life of at least 17 h.

METHODS

To support this concept, the suitability of 18F (half-life, 109.8 min), 68Ga (half-life, 67.6 min), 11C (half-life, 20.4 min), 13N (half-life, 9.97 min), and 15O (half-life, 2.04 min) for intracoronary radiation therapy was evaluated. Potential tissue penetration of positron radiation was assessed in a series of phantom experiments using Gafchromic film. Antiproliferative efficacy of positrons emitted by 68Ga was investigated in vitro using cultured bovine aortic smooth muscle cells (BASMCs), and was compared with gamma-radiation emitted by 137Cs. To characterize the remaining risk, we estimated radiotoxicity after accidental intravascular balloon rupture on the basis of tabulated isotope-specific doses (ICRP 53) and compared these values with 188Re.

RESULTS

Half-dose depth of tissue penetration measured in phantom experiments was 0.29 mm for 18F, 0.42 mm for 11C, 0.54 mm for 13N, 0.79 mm for 15O, and 0.9 mm for 68Ga. Irradiation of cultured BASMCs with positron radiation (68Ga) induced dose-dependent inhibition of proliferation with complete proliferative arrest at doses exceeding 6 Gy. ED(50) and ED(80) were 2.5 +/- 0.4 Gy (mean +/- SD) and 4.4 +/- 0.8 Gy, respectively. Antiproliferative efficacy was equal to that of the 662-keV gamma-radiation emitted by 137Cs (ED(50), 3.8 +/- 0.2 Gy; ED(80), 8.0 +/- 0.3 Gy). Estimates made for patient whole-body and organ doses were generally below 50 mSv/1.85 GBq for all investigated positron emitters. The same dose estimates for 188Re were 6-20 fold higher.

CONCLUSION

Among the studied radioisotopes, 68Ga is the most attractive source for liquid-filled balloons because of its convenient half-life, sufficient positron energy (2.92 MeV), documented antiproliferative efficacy, and uncomplicated availability from a radioisotope generator. The safety profile for 68Ga is significantly better than that of 188Re, which suggests this radioisotope should be evaluated further in preclinical studies.

摘要

未标注

填充有液体放射性同位素的球囊导管可为冠状动脉内放射治疗提供出色的剂量均匀性，但存在破裂或渗漏风险。我们推测，一旦使用半衰期低于2小时的正电子发射体而非半衰期至少为17小时的高能β发射体166Ho、186Re或188Re，填充液体的球囊的安全性可能会提高。

方法

为支持这一概念，评估了18F（半衰期109.8分钟）、68Ga（半衰期67.6分钟）、11C（半衰期20.4分钟）、13N（半衰期9.97分钟）和15O（半衰期2.04分钟）用于冠状动脉内放射治疗的适用性。使用Gafchromic胶片在一系列体模实验中评估了正电子辐射的潜在组织穿透性。体外使用培养的牛主动脉平滑肌细胞（BASMC）研究了68Ga发射的正电子的抗增殖功效，并与137Cs发射的γ辐射进行了比较。为了表征剩余风险，我们根据列表中的同位素特异性剂量（ICRP 53）估算了血管内球囊意外破裂后的辐射毒性，并将这些值与188Re进行了比较。

结果

在体模实验中测得的组织穿透半剂量深度，18F为0.29毫米，11C为0.42毫米，13N为0.54毫米，15O为0.79毫米，68Ga为0.9毫米。用正电子辐射（68Ga）照射培养的BASMC会诱导剂量依赖性的增殖抑制，在剂量超过6 Gy时完全停止增殖。ED(50)和ED(80)分别为2.5±0.4 Gy（平均值±标准差）和4.4±0.8 Gy。抗增殖功效与137Cs发射的662-keVγ辐射相当（ED(50)，3.8±0.2 Gy；ED(80)，8.0±0.3 Gy）。对所有研究的正电子发射体，患者全身和器官剂量的估算通常低于50 mSv/1.85 GBq。188Re的相同剂量估算值高6至20倍。