实验性人类恶性胶质瘤的长时间照射致敏。

J A Williams, J R Williams, X Yuan, L E Dillehay
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引用次数: 17

摘要

通过联合分次高剂量率和连续超低剂量率照射(ULDR)对人类恶性胶质瘤的放射增敏进行临床调节。我们测量了人类恶性胶质瘤细胞系对连续ULDR和高剂量率联合治疗的体外和体内反应。体外ULDR治疗中,U251人恶性胶质瘤细胞在含氚水的培养基中培养,连续剂量率为0.03 Gy/hr。暴露24、48或72小时后,对细胞进行急性(1.1 Gy/min)照射、复制并对菌落形成进行评分。在体内,裸鼠U251侧翼异种移植物接受125-碘(125-I)种子近距离放射治疗,剂量率为0.05 Gy/hr。对于全身连续ULDR (0.03 Gy/hr),在携带异种移植物的动物笼子上方固定距离安装137-Cs源。连续照射3天后,对异种移植物进行急性照射(2 Gy × 8 vs. 5 Gy × 2每日剂量),并测量肿瘤的再生延迟。在体外,单独暴露于ULDR (0.03 Gy/hr)只会造成适度的杀伤,并在暴露72小时后使存活分数减少约0.2 log。最高剂量(10戈瑞)急性照射单独减少生存1 log。然而,在HDR和ULDR联合处理后,U251细胞的杀伤量增加到2.5 log。线性二次元模型显示细胞杀伤的β系数比线性二次元模型的α系数有较大的增加。在体内,125-I种子近距离放疗延迟了肿瘤生长,但没有导致肿瘤消退。HDR处理(5 Gy × 2或2 Gy × 8每日部分)分别造成17+/-2或16+/-2 (P=NS)天的生长延迟(天)。混合种子和5 Gy × 2或2 Gy × 8每日组分方案导致再生延迟显著延长(52.3+/-8.7 vs. 59.5+/-7.7天)(P < 0.001与单独HDR处理)。单独的外部ULDR不会导致退化和最小的生长延迟。连续体外ULDR和5 Gy × 2 vs. 2 Gy × 8每日剂量方案联合使用导致生长延迟延长(33+/-0.9 (P=0.01,单独使用5 Gy × 2每日剂量)vs. 35+/-0.7 (P=0.049,单独使用2 Gy × 8每日剂量)。我们的结论是,持续的ULDR增加了HDR治疗实验性恶性胶质瘤的效果。这种增强的效果可能在治疗人类恶性脑肿瘤中具有重要的临床意义。
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Protracted exposure radiosensitization of experimental human malignant glioma.

Clinical modulation of radiosensitivity via combined fractionated high dose rate and continuous ultra-low dose rate irradiation (ULDR) holds promise for the radiosensitization of human malignant gliomas. We measured both the in vitro and in vivo responses of a human malignant glioma cell line to combined continuous ULDR and high dose rate treatments. For in vitro ULDR treatments, U251 human malignant glioma cells were cultured in media containing tritiated water to yield a continuous dose rate of 0.03 Gy/hr. After exposures of 24, 48, or 72 hr, cells were acutely (1.1 Gy/min) irradiated, replated, and scored for colony formation. In vivo, U251 flank xenografts in nude mice had 125-iodine (125-I) seed brachytherapy at a dose rate of 0.05 Gy/hr. For whole-body continuous ULDR (0.03 Gy/hr), a 137-Cs source was mounted a fixed distance above the cages of animals bearing xenografts. After 3 days' continuous exposure, xenografts were acutely irradiated (2 Gy x 8 vs. 5 Gy x 2 daily fractions), and the regrowth delay in tumors was measured. In vitro, exposure to ULDR (0.03 Gy/hr) alone caused only modest killing and reduced the surviving fraction by approximately 0.2 logs after 72 hr exposure. The highest (10 Gy) dose of acute irradiation alone reduced survival by 1 log. However, U251 cell killing increased to 2.5 logs after combined HDR and ULDR treatments. Linear-quadratic modeling showed comparatively greater increase in the beta than the alpha coefficients of the linear-quadratic model for cell killing. In vivo, the 125-I seed brachytherapy treatments delayed tumor growth but resulted in no regression. The HDR treatments (5 Gy x 2 or 2 Gy x 8 daily fractions) caused growth delays (in days) of 17+/-2 or 16+/-2 (P=NS) days, respectively. The combined seed and 5 Gy x 2 or 2 Gy x 8 daily fractions regimen resulted in striking prolongation of regrowth delay (52.3+/-8.7 vs. 59.5+/-7.7 days) (P < 0.001 vs. HDR treatments alone). External ULDR alone caused no regression and minimal growth delay. Combined continuous external ULDR and the 5 Gy x 2 vs. 2 Gy x 8 daily fraction regimens resulted in prolongation of growth delay (33+/-0.9 (P=0.01 vs. 5 Gy x 2 daily fractions alone) vs. 35+/-0.7 (P=0.049 vs. 2 Gy x 8 daily fractions alone). We conclude that continuous ULDR increases the effect of HDR treatments of experimental malignant glioma. This increased effect may prove clinically important in the treatment of human malignant brain tumors.

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