Stewart D J
Ontario Cancer Treatment and Research Foundation, Ottawa Regional Cancer Centre, Canada.
J Neurooncol. 1994;20(2):121-39. doi: 10.1007/BF01052723.
There is general agreement that most chemotherapy agents achieve only relatively low concentrations in the normal central nervous system, that the blood-brain barrier is variably disrupted in malignant brain tumors, and that the concentration of chemotherapy drugs in the brain adjacent to tumor is intermediate between concentrations achieved in brain tumors vs normal brain. However, there is substantial controversy regarding the role of the blood-brain barrier in resistance to chemotherapy of intracerebral tumors. Many chemotherapy agents achieve concentrations in brain tumors that are comparable to those in extracerebral tumors, and drugs that cross the intact blood-brain barrier only poorly may be active against intracerebral tumors. Furthermore, the hypothesis that the brain is a pharmacological sanctuary where metastases may grow while tumor is responding in other parts of the body may be flawed: there are only 2 or 3 types of malignancies (out of all those that are sensitive to chemotherapy) in which the risk of isolated central nervous system relapse is moderately high, and even in these 2 or 3, effective central nervous system prophylaxis has minimal or no impact on overall survival. Furthermore, drugs that cross the BBB do not appear to be more effective than other drugs at reducing the risk of brain metastases, and brain metastases at the time of diagnosis do not necessarily convey a worse prognosis than metastases to various other sites. While average drug concentrations in brain adjacent to tumor are lower than those within brain tumors, very small numbers of tumor cells may be capable of inducing local leakiness in blood vessels, and there is little information on drug concentrations achieved in individual tumor cells within the brain adjacent to tumor. Furthermore, any limitation of uptake of drugs into brain tumors could be at least partially due to increased tissue pressure within tumors rather than being due to blood-brain barrier phenomena. This distinction could be important, since strategies that one might use to increase drug delivery to brain tumors might differ depending on whether the reduced delivery were due to barrier phenomena vs blood flow phenomena. The role of the blood-brain barrier in resistance of intracerebral tumors to chemotherapy remains unclear: while it may well play some role (and perhaps even a major one), self-fulfilling prophecies and unintentional bias in data selection and interpretation may have previously made it appear more important than it actually is.(ABSTRACT TRUNCATED AT 400 WORDS)
人们普遍认为,大多数化疗药物在正常中枢神经系统中只能达到相对较低的浓度,恶性脑肿瘤中的血脑屏障会受到不同程度的破坏,且肿瘤附近脑组织中化疗药物的浓度介于脑肿瘤和正常脑组织中的浓度之间。然而,关于血脑屏障在脑内肿瘤化疗耐药中的作用存在大量争议。许多化疗药物在脑肿瘤中达到的浓度与在脑外肿瘤中的浓度相当,而那些难以透过完整血脑屏障的药物可能对脑内肿瘤有活性。此外,认为脑是一个药物庇护所,转移瘤可能在其中生长而身体其他部位的肿瘤对治疗有反应的假说可能存在缺陷:在所有对化疗敏感的恶性肿瘤中,只有两三种类型的孤立中枢神经系统复发风险相对较高,即使在这两三种类型中,有效的中枢神经系统预防对总生存期的影响也很小或没有影响。此外,透过血脑屏障的药物在降低脑转移风险方面似乎并不比其他药物更有效,诊断时出现脑转移不一定比转移到其他部位的预后更差。虽然肿瘤附近脑组织中的平均药物浓度低于脑肿瘤内的浓度,但极少量的肿瘤细胞可能能够诱导血管局部渗漏,而且关于肿瘤附近脑组织中单个肿瘤细胞内的药物浓度信息很少。此外,药物进入脑肿瘤的摄取受限至少部分可能是由于肿瘤内组织压力增加,而非血脑屏障现象所致。这种区别可能很重要,因为根据药物递送减少是由于屏障现象还是血流现象,人们可能会采用不同的策略来增加药物向脑肿瘤的递送。血脑屏障在脑内肿瘤化疗耐药中的作用仍不清楚:虽然它很可能起到了一定作用(甚至可能是主要作用),但之前自我实现的预言以及数据选择和解释中的无意偏差可能使其显得比实际更重要。(摘要截选至400字)
