Investigation of Bladder Cancer Cell Response to Cryoablation and Adjunctive Cisplatin Based Cryo/Chemotherapy.

Clinical research (Milpitas, Calif.) Pub Date : 2020-02-01 Epub Date: 2020-02-07 DOI:10.16966/2469-6714.154
Kimberly L Santucci, John M Baust, Kristi K Snyder, Robert G Van Buskirk, Aaron Katz, Anthony Corcoran, John G Baust
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引用次数: 6

Abstract

Due to a rising annual incidence of bladder cancer, there is a growing need for development of new strategies for treatment. In 2018, the World Cancer Research Fund and other groups reported that there were ~550,000 new cases worldwide of bladder cancer. It has been further estimated that >200,000 individuals die annually from bladder cancer worldwide. Various treatment options exist. However, many if not all remain suboptimal. While the preferred chemotherapeutic options have changed in the past few years there have been few advances in the bladder cancer medical device field. Cryoablation is now being evaluated as a new option for the treatment of bladder cancer. While several studies have shown cryoablation to be promising for the treatment of bladder cancer, a lack of basic information pertaining to dosing (minimal lethal temperature) necessary to destroy bladder cancer has limited its use as a primary therapeutic option. Concerns with bladder wall perforation and other side effects have also slowed adoption. In an effort to detail the effects of freezing on bladder cancer, two human bladder cancer cell lines, SCaBER and UMUC3, were evaluated in vitro. SCaBER, a basal subtype of muscle invasive bladder cancer, and UMUC3, an intermediate transitional cell carcinoma, are both difficult to treat but are reportedly responsive to most conventional treatments. SCaBER and UMUC3 cells were exposed to a range of freezing temperatures from -10 to -25°C and compared to non-frozen controls. The data show that a single 5 minute freeze to -10°C did not affect cell viability, whereas -15°C and -20°C results in a significant reduction in viability 1 day post freeze to <20%. These populations, however, were able to recover in culture. A complete loss of cell viability was found following a single freeze at -25°C. Application of a repeat (double) freeze resulted in complete cell death at -20°C. In addition to freezing alone, studies investigating the impact of adjunctive low dose (1 μM) cisplatin pre-treatment (30 minutes and 24 hours) in combination with freezing were conducted. The combination of 30 minute cisplatin pre-treatment and mild (-15°C) freezing resulted in complete cell death. This suggests that subclinical doses of cisplatin may be synergistically effective when combined with freezing. In summary, these in vitro results suggest that freezing to temperatures in the range of -20 to 25°C results in a high degree of bladder cancer cell destruction. Further, the data describe a potential combinatorial chemo/cryo therapeutic strategy for the treatment of bladder cancer.

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膀胱癌细胞对冷冻消融和辅助以顺铂为基础的冷冻/化疗反应的研究。
由于膀胱癌的年发病率不断上升,人们越来越需要开发新的治疗策略。2018年,世界癌症研究基金会和其他组织报告称,全球约有55万例膀胱癌新病例。据进一步估计,全世界每年有超过20万人死于膀胱癌。存在多种治疗方案。然而,许多(如果不是全部的话)仍处于次优状态。虽然首选的化疗方案在过去几年中发生了变化,但膀胱癌医疗设备领域的进展很少。冷冻消融术目前正被评价为治疗膀胱癌的新选择。虽然有几项研究表明冷冻消融治疗膀胱癌很有希望,但由于缺乏有关摧毁膀胱癌所需的剂量(最低致死温度)的基本信息,限制了其作为主要治疗选择的使用。对膀胱壁穿孔和其他副作用的担忧也延缓了采用。为了详细了解冷冻对膀胱癌的影响,我们在体外对两种人类膀胱癌细胞系scer和UMUC3进行了评估。scer是一种肌肉浸润性膀胱癌的基础亚型,UMUC3是一种中间移行细胞癌,两者都很难治疗,但据报道对大多数常规治疗都有反应。将scer和UMUC3细胞暴露在-10至-25°C的冷冻温度范围内,并与非冷冻对照进行比较。数据显示,将膀胱癌细胞冷冻至-10°C 5分钟不会影响细胞活力,而-15°C和-20°C会导致细胞活力在冷冻后1天显著下降。体外实验结果表明,将膀胱癌细胞冷冻至-20至25°C范围内会导致高度破坏。此外,这些数据描述了一种治疗膀胱癌的潜在联合化疗/冷冻治疗策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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