Morris G M, Micca P L, Nawrocky M M, Weissfloch L E, Coderre J A
Research Institute (University of Oxford), Churchill Hospital, Oxford, OX3 7LJ, United Kingdom.
Radiat Res. 2002 Dec;158(6):743-52. doi: 10.1667/0033-7587(2002)158[0743:ltiopb]2.0.co;2.
Rat 9L gliosarcoma cells infiltrating the normal brain have been shown previously to accumulate only approximately 30% as much boron as the intact tumor after administration of the boronated amino acid p-boronophenylalanine (BPA). Long-term i.v. infusions of BPA were shown previously to increase the boron content of these infiltrating tumor cells significantly. Experiments to determine whether this improved BPA distribution into infiltrating tumor cells after a long-term i.v. infusion improves tumor control after BNCT in this brain tumor model and whether it has any deleterious effects in the response of the rat spinal cord to BNCT are the subjects of the present report. BPA was administered in a fructose solution at a dose of 650 mg BPA/kg by single i.p. injection or by i.v. infusion for 2 h or 6 h, at 330 mg BPA/kg h(-1). At 1 h after the end of either the 2-h or the 6-h infusion, the CNS:blood (10)B partition ratio was 0.9:1. At 3 h after the single i.p. injection, the ratio was 0.6:1. After spinal cord irradiations, the ED(50) for myeloparesis was 14.7 +/- 0.4 Gy after i.p. administration of BPA and 12.9 +/- 0.3 Gy in rats irradiated after a 6-h i.v. infusion of BPA; these values were significantly different (P < 0.001). After irradiation with 100 kVp X rays, the ED(50) was 18.6 +/- 0.1 Gy. The boron compound biological effectiveness (CBE) factors calculated for the boron neutron capture dose component were 1.2 +/- 0.1 for the i.p. BPA administration protocol and 1.5 +/- 0.1 after irradiation using the 6-h i.v. BPA infusion protocol (P < 0.05). In the rat 9L gliosarcoma brain tumor model, the blood boron concentrations at 1 h after the end of the 2-h infusion (330 mg BPA/kg h(-1); n = 15) or after the 6-h infusion (190 mg BPA/kg h(-1); n = 13) were 18.9 +/- 2.2 microg 10B/g and 20.7 +/- 1.8 microg 10B/g, respectively. The irradiation times were adjusted individually, based on the preirradiation blood sample, to deliver a predicted 50% tumor control dose of 8.2 Gy ( approximately 30 photon-equivalent Gy) to all tumors. In the present study, the long-term survival was approximately 50% and was not significantly different between the 2-h and the 6-h infusion groups. The mode of BPA administration and the time between administration and irradiation influence the 10B partition ratio between the CNS and the blood, which in turn influences the measured CBE factor. These findings underline the need for clinical biodistribution studies to be carried out to establish 10B partition ratios as a key component in the evaluation of modified administration protocols involving BPA.
先前的研究表明,浸润正常脑组织的大鼠9L胶质肉瘤细胞在给予硼化氨基酸对硼苯丙氨酸(BPA)后,其积累的硼量仅为完整肿瘤的约30%。先前的研究还表明,长期静脉输注BPA可显著提高这些浸润性肿瘤细胞的硼含量。本报告的主题是进行实验,以确定在该脑肿瘤模型中,长期静脉输注后BPA在浸润性肿瘤细胞中的分布改善是否能提高硼中子俘获治疗(BNCT)后的肿瘤控制效果,以及这对大鼠脊髓对BNCT的反应是否有任何有害影响。BPA以果糖溶液为载体,通过单次腹腔注射,剂量为650 mg BPA/kg,或以330 mg BPA/kg·h⁻¹的速度静脉输注2小时或6小时。在2小时或6小时输注结束后1小时,中枢神经系统与血液的¹⁰B分配比为0.9:1。在单次腹腔注射后3小时,该比例为0.6:1。脊髓照射后,腹腔注射BPA的大鼠发生脊髓轻瘫的半数有效剂量(ED₅₀)为14.7±0.4 Gy,在静脉输注BPA 6小时后照射的大鼠中为12.9±0.3 Gy;这些值有显著差异(P<0.001)。用100 kVp X射线照射后,ED₅₀为18.6±0.1 Gy。针对硼中子俘获剂量成分计算的硼化合物生物有效性(CBE)因子,腹腔注射BPA方案为1.2±0.1,使用6小时静脉输注BPA方案照射后为1.5±0.1(P<0.05)。在大鼠9L胶质肉瘤脑肿瘤模型中,2小时输注(330 mg BPA/kg·h⁻¹;n = 15)或6小时输注(190 mg BPA/kg·h⁻¹;n = 13)结束后1小时的血硼浓度分别为18.9±2.2 μg¹⁰B/g和20.7±1.8 μg¹⁰B/g。根据照射前的血样,分别调整照射时间,以便为所有肿瘤提供预测的50%肿瘤控制剂量8.2 Gy(约30光子等效Gy)。在本研究中,长期生存率约为50%,2小时和6小时输注组之间无显著差异。BPA的给药方式以及给药与照射之间的时间会影响中枢神经系统与血液之间的¹⁰B分配比,进而影响所测量的CBE因子。这些发现强调了需要进行临床生物分布研究,以确定¹⁰B分配比,作为评估涉及BPA的改良给药方案的关键组成部分。
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