Polifeprosan 20, 3.85% carmustine slow-release wafer in malignant glioma: evidence for role in era of standard adjuvant temozolomide.

Core Evidence Pub Date : 2012-01-01 Epub Date: 2012-10-26 DOI:10.2147/CE.S23244
Lawrence Kleinberg
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引用次数: 12

Abstract

The Polifeprosan 20 with carmustine (BCNU, bis-chloroethylnitrosourea, Gliadel(®)) polymer implant wafer is a biodegradable compound containing 3.85% carmustine which slowly degrades to release carmustine and protects it from exposure to water with resultant hydrolysis until the time of release. The carmustine implant wafer was demonstrated to improve survival in blinded placebo-controlled trials in selected patients with newly diagnosed or recurrent malignant glioma, with little increased risk of adverse events. Based on these trials and other supporting data, US and European regulatory authorities granted approval for its use in recurrent and newly diagnosed malignant glioma, and it remains the only approved local treatment. The preclinical and clinical data suggest that it is optimally utilized primarily in the proportion of patients who may have total or near total removal of gross tumor. The aim of this work was to review the evidence for the use of carmustine implants in the management of malignant astrocytoma (World Health Organization grades III and IV), including newly diagnosed and recurrent disease, especially in the setting of a standard of care that has changed since the randomized trials were completed. Therapy has evolved such that patients now generally receive temozolomide chemotherapy during and after radiotherapy treatment. For patients undergoing repeat resection for malignant glioma, a randomized, blinded, placebo-controlled trial demonstrated a median survival for 110 patients who received carmustine polymers of 31 weeks compared with 23 weeks for 122 patients who only received placebo polymers. The benefit achieved statistical significance only on analysis adjusting for prognostic factors rather than for the randomized groups as a whole (hazard ratio = 0.67, P = 0.006). A blinded, placebo-controlled trial has also been performed for carmustine implant placement in newly diagnosed patients prior to standard radiotherapy. Median survival was improved from 11.6 to 13.9 months (P = 0.03), with a 29% reduction in the risk of death. When patients with glioblastoma multiforme alone were analyzed, the median survival improved from 11.4 to 13.5 months, but this improvement was not statistically significant. When a Cox's proportional hazard model was utilized to account for other potential prognostic factors, there was a significant 31% reduction in the risk of death (P = 0.04) in this subgroup. Data from other small reports support these results and confirm that the incidence of adverse events does not appear to be increased meaningfully. Given the poor prognosis without possibility of cure, these benefits from a treatment with a favorable safety profile were considered meaningful. There is randomized evidence to support the use of carmustine wafers placed during resection of recurrent disease. Therefore, although there is limited specific evidence, this treatment is likely to be efficacious in an environment when nearly all patients receive temozolomide as part of initial management. Given that half of the patients in the randomized trial assessing the value of carmustine implants in recurrent disease had received prior chemotherapy, it is likely that this remains a valuable treatment at the time of repeat resection, even after temozolomide. There are data from multiple reports to support safety. Although there is randomized evidence to support the use of this therapy in newly diagnosed patients who will receive radiotherapy alone, it is now standard to administer both adjuvant temozolomide and radiotherapy. There are survival outcome reports for small cohorts of patients receiving temozolomide with radiotherapy, but this information is not sufficient to support firm recommendations. Based on the rationale and evidence of safety, this approach appears to be a reasonable option as more information is acquired. Available data support the safety of using carmustine wafers in this circumstance, although special attention to surgical guidelines for implanting the wafers is warranted.

Polifeprosan 20.3.85%卡莫司汀缓释片在恶性胶质瘤中的作用:替莫唑胺标准辅助剂时代的证据。
Polifeprosan 20 with carmustine (BCNU,双氯乙基亚硝基脲,Gliadel(®))聚合物植入晶片是一种可生物降解的化合物,含有3.85%的carmustine,缓慢降解释放carmustine,并保护其免受暴露于水的水解,直到释放时间。在选定的新诊断或复发的恶性胶质瘤患者中,卡莫司汀植入物在盲法安慰剂对照试验中被证明可以提高生存率,并且不良事件的风险几乎没有增加。基于这些试验和其他支持数据,美国和欧洲监管机构批准将其用于复发性和新诊断的恶性胶质瘤,并且它仍然是唯一被批准的局部治疗方法。临床前和临床数据表明,它主要用于可能完全或接近完全切除肿瘤的患者比例。这项工作的目的是审查使用卡莫司汀植入物治疗恶性星形细胞瘤(世界卫生组织分级III级和IV级)的证据,包括新诊断和复发疾病,特别是在随机试验完成后发生变化的护理标准设置中。治疗方法的发展使得患者在放疗期间和放疗后普遍接受替莫唑胺化疗。对于接受恶性胶质瘤重复切除术的患者,一项随机、盲法、安慰剂对照试验表明,接受卡莫司汀聚合物治疗的110例患者的中位生存期为31周,而仅接受安慰剂聚合物治疗的122例患者的中位生存期为23周。该获益仅在调整预后因素的分析中才具有统计学意义,而随机分组作为一个整体而言没有统计学意义(风险比= 0.67,P = 0.006)。一项盲法、安慰剂对照试验也对新诊断的患者在标准放疗前植入卡莫司汀进行了研究。中位生存期从11.6个月提高到13.9个月(P = 0.03),死亡风险降低29%。当单独分析多形性胶质母细胞瘤患者时,中位生存期从11.4个月提高到13.5个月,但这种改善没有统计学意义。当使用Cox比例风险模型来考虑其他潜在的预后因素时,该亚组的死亡风险显著降低31% (P = 0.04)。来自其他小型报告的数据支持这些结果,并证实不良事件的发生率似乎没有显著增加。鉴于预后不良且不可能治愈,这种具有良好安全性的治疗的这些益处被认为是有意义的。有随机证据支持在复发性疾病切除期间使用卡莫司汀片。因此,尽管具体证据有限,但在几乎所有患者都将替莫唑胺作为初始治疗的一部分的情况下,这种治疗可能是有效的。考虑到在评估卡莫司汀植入物在复发性疾病中的价值的随机试验中,有一半的患者曾接受过化疗,即使在替莫唑胺后,在重复切除时,这可能仍然是一种有价值的治疗方法。有来自多个报告的数据来支持安全性。虽然有随机证据支持在将单独接受放疗的新诊断患者中使用这种疗法,但现在使用辅助替莫唑胺和放疗已成为标准。有一小群接受替莫唑胺放射治疗的患者的生存结果报告,但这些信息不足以支持坚定的建议。基于安全性的基本原理和证据,随着获得更多的信息,这种方法似乎是一种合理的选择。现有数据支持在这种情况下使用卡莫司汀晶片的安全性,尽管需要特别注意植入晶片的手术指南。
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来源期刊
Core Evidence
Core Evidence PHARMACOLOGY & PHARMACY-
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期刊介绍: Core Evidence evaluates the evidence underlying the potential place in therapy of drugs throughout their development lifecycle from preclinical to postlaunch. The focus of each review is to evaluate the case for a new drug or class in outcome terms in specific indications and patient groups The emerging evidence on new drugs is reviewed at key stages of development and evaluated against unmet needs
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