Abstract
Background: We report on a retrospective, consecutive non-randomized group of patients who received bevacizumab plus chemotherapy without bevazicumab maintenance. Patients and Methods: Patients with adenocarcinoma subtype of NSCLC and advanced disease received carboplatin and vinorelbine together with bevazicumab for four cycles without bevazicumab maintenance. Overall survival (OS), progression-free survival (PFS), response rate (RR) and toxicity were reviewed. Results: A total of 30 consecutive patients were included in a period of two years. RR, bleeding, thromboembolic and haematological complications were comparable to those of the literature. Median OS and PFS were 8.8 and 4.5 months for patients with performance status (PS) 0-1, while they were 2.6 and 1.2 months for those with PS 2, p-values being 0.006 and 0.039, respectively. Conclusion: The effect of maintenance bevazicumab on OS has not yet been established but it has been proven as being favourable on PFS. Our data suggest that patients with PS 2 should not receive this treatment.
- Lung cancer
- non-small cell lung cancer
- NSCLC
- bevacizumab
- platinum-based chemotherapy
- overall survival
- progression-free survival
- brain metastases
- humanized monoclonal antibody
- angiogenesis
- vascular endothelial growth factor A (VEGF-A)
- pulmonary haemorhage
Non-small cell lung cancer is among the most common types of cancer. The incidence of lung cancer in Denmark is 78/100.000 in men and 68/100.000 in women (2012) (1). The prognosis is generally poor. Standard treatment for advanced NSCLC without epidermal growth factor receptor (EGFR) mutations is platinum-based doublet chemotherapy with the addition of bevacizumab in selected patients.
Bevazicumab is a humanized monoclonal antibody that inhibits angiogenesis through inhibition of vascular endothelial growth factor-A (VEGF-A). Two large randomized phase III studies [E4599 (2) and AVAiL (3)] investigated the addition of bevazicumab to standard doublet platinum-based chemotherapy, both using bevazicumab maintenance after 4-6 courses of induction treatment. The E4599 trial revealed an increase in median overall survival (OS) from 10.3 months in the group receiving standard treatment with paclitaxel/carboplatin against 12.3 months in the group assigned to same standard chemotherapy plus bevazicumab, for patients with non-squamous histological types (p=0.003) and 14.2 months for the adenocarcinoma subtype hazard ratio [HR=0.69]. Progression-free survival (PFS) was 4.5 versus 6.2 months for non-squamous subtypes (p<0.001) and 5 versus 6.6 months for adenocarcinoma [HR=0.65], respectively (4). The E4599 trial did not indicate p-values for adenocarcinoma subtypes. The AVAiL trial compared cisplatin/gemcitabine alone and together with bevazicumab at 7.5 mg/kg or bevazicumab at 15 mg/kg and with bevazicumab maintenance. PFS increased from 6.1 in the control to 6.7 months with addition of bevazicumab at 7.5 mg/kg and 6.5 months with bevazicumab at 15 mg/kg (p=0.0003 and p=0.0456, respectively). These results led to approval of bevazicumab in combination with platinum-based doublet chemotherapy for advanced non-squamous NSCLC, followed by bevazicumab maintenance until progression. Bevazicumab is currently the only anti-angiogenetic drug approved for treatment of non-squamous NSCLC. While the use of bevazicumab is developed, the contribution of bevazicumab maintenance to overall results has not been tested in a randomized setting. Additionally, maintenance treatment may add to the toxicity encountered. We report on a consecutive group of patients with adenocarcinoma subtype NSCLC who received bevazicumab plus chemotherapy, without bevazicumab maintenance. Efficacy and toxicity is reviewed and compared to the data of the literature. The decision to treat without bevazicumab maintenance in the period reported on was made because of general safety concerns and was applied to all consecutive patients fulfilling criteria for receiving bevazicumab together with chemotherapy.
Patients and Methods
Previously untreated patients with advanced non-squamous NSCLC, with performance status (PS) 0-2, without uncontrolled hypertension, proteinuria, larger hemoptysis, or tumour close to large vessels received bevazicumab at 7.5 mg/kg intravenously together with carboplatin, area under curve (AUC 5), intravenously on day 1 and vinorelbine at 60 mg/m2 orally at day 1 and at 80 mg/m2 on day 8, repeated every three weeks for four courses without bevazicumab maintenance. Restrospectively, progression and mortality status was updated on April 10, 2013.
The literature was searched using PubMed and the Cochrane Library using key words: NSCLC, advanced NSCLC, bevacizumab, maintenance treatment.
Results
A total of 30 patients were included from July 2010 to July 2012. Age ranged from 31-71 years (median=60 years) and 29 (97%) had stage IV disease. Four patients (13%) had PS 2 and four others (13%) had brain metastases at the time of treatment commencement (Table I).The median lead time from diagnosis to treatment was 26 days. Eight patients (27%) completed one to two courses and 22 patients (73%) completed three to four courses. Two patients (7%) experienced minor bleeding episodes without the need for blood transfusion. Four patients (13%) discontinued induction treatment due to vascular complications: two developed pulmonary embolism, one had a deep venous thrombosis and one a bleeding episode of grade 3 with vaginal bleeding, hemoptysis, and epistaxis. Two patients (7%) had thrombocytopenia grade 3 and 4, respectively, without bleeding episodes. Grade 3 or 4 neutropenia occurred in eight cases (27%); three of these (10%) experienced febrile episodes. No toxic deaths occurred (Table II). A total of eight patients (27%) had partial remission (PR) and 13 (43%) had stable disease (SD), leading to a disease control rate of 70%. Three patients (10%) were alive at the time of data lock. Response rates and median OS and PFS were 31%, 8.8 months and 4.5 months in patients with PS 0-1 compared to 0%, 2.6 months and 1.2 months, respectively for those with PS 2. The one-year survival rate for patients with PS 0-1 was 42% (Figure 1).
Discussion
The response rate (RR) of 31% in patients with PS 0-1 observed in the current patient group without bevazicumab maintenance is consistent with findings in the literature using treatment including bevazicumab maintenance. However, it is recognized that the current study is small and retrospective, while the E4599 and AVAiL trials are large prospective randomized trials. Hence, direct comparison is obviously hampered. The RR was 34.1% and 30.4% in the AVAiL trial with doses of bevazicumab at 7.5 mg/kg and 15 mg/kg, respectively (3) while the E4599 trial found a RR of 35% (2). The PFS of 4.5 months in this study without maintenance was lower than the 6.7 months and 6.5 months with bevazicumab in the lowdose and highdose groups, respectivly, reported in the AVAiL trial (3). Similarly, the E4599 trial had a PFS of 6.6 months for patients with adenocarcinoma subtype (4). This suggests improved PFS with bevazicumab maintenance, or could reflect a prognostically worse patient group in the current study in which brain metastasis was not an exclusion criterion. The median OS of 8.8 months in the current study was also lower than the two pivotal randomized trials which reported an OS of 13.4 and 13.6 months in the two non-squamous groups receiving bevazicumab in AVAiL (5) and 14.2 months for those with adenocarcinoma subtype in E4599 (4). These findings regarding OS and PFS may reflect higher activity of chemotherapy with bevazicumab when it is used with bevazicumab maintenance, or reflect the somewhat higher activity of cisplatin which was used in the randomized trials compared to carboplatin used in the current study. Inclusion of patients with brain metastases may also aggravate general prognosis in the current study. With respect to the toxicity encountered, the frequencies of bleeding and thromboembolic complications were consistent with previous reports. Dansin et al. observed 3.6 % bleeding events of grade 3 or more (6) while Crinó et al. recorded 8% thromboembolic complications (7). These two studies were based on data from the same 2,212 patient cohort. The SAiL study reported the risk of bleeding of grade 3 or more to be higher with the bevazicumab maintenance treatment than with the induction treatment, at 2.3% versus 1.1%, respectively (7). Whether this is due to tumour necrosis during treatment or due to bevazicumab is uncertain. The risk of all grade bleeding was greater during induction treatment but almost all (88.6%) resolved or improved, suggesting that it might not be necessary to discontinue treatment with bevazicumab but rather to discontinue usage temporarily. With respect to risk factors for bleedings, no correlation between any grade bleeding and centrally located tumours were reported, but there was a correlation between any grade bleeding and cavitating tumours. No episodes of pulmonary haemorhage (PH) occurred in the current study, although this is a well-known serious side-effect. The risk of developing life-threatening PH in patients with NSCLC is greater with histology of squamous cell carcinoma (8) which is an exclusion criterion for treatment with bevazicumab. The risk for grade 3 or more PH varies from 0.7% to 1.9% (2, 3, 6, 7) compared to 0.2% to 0.6% (2, 3) for treatment without bevazicumab. No correlation has been reported between clinical or radiological features (including cavitation and central tumour location) and development of PH (9). Cerebral bleeding did not occur in our patient group, although some patients had cerebral metastases. In contrast, the presence of brain metastases was an exclusion criterion in the E4599 and AVAiL studies. The risk of spontaneous cerebral bleeding of grade 3 or more in patients with NSCLC is reported to be 0.1% (10). A pooled analysis found an overall rate of cerebral haemorhage in patients treated with bevazicumab to be 0.8% to 3.3% and concluded that bevazicumab was not associated with increased risk of cerebral bleeding in patients with known brain metastases (11). In the SAiL study, the risk of cerebral bleeding of grade 3 or more, when treated with bevazicumab, was only 0.1% (7). Hence, treatment with bevazicumab in cases of known brain metastases is also approved according to the guidelines from National Cancer Center Network (12) and the European Medicines Agency (13). A meta-analysis of four randomized clinical trials including 2200 patients showed a higher risk of severe haematological toxicities of grade 3 or more when bevazicumab was added to the therapy (14). There was, however, no observed higher risk of developing anaemia, thrombocytopenia or thromboembolic events with the addition of bevazicumab.
Conclusion
Thromboembolic complications may occur during treatment with bevazicumab and high awareness of such complications is thus necessary, which also holds true with respect to strict patient selection. The treatment without bevazicumab maintenance in the current study did not lead to markedly lower complication rates than currently reported from prospective trials using bevazicumab maintenance following induction treatment. Bevacizumab treatment yielded favourable PFS and OS in previous large randomized studies using bevazicumab maintenance after induction treatment. In spite of similar response rates, the somewhat lower median OS and PFS in the current retrospective study may be due to lack of bevazicumab maintenance, to the patient group having poor prognostic features such as brain metastases, or to stochastic variation. The poor outcome for patients with PS 2 suggests that this regimen is not a feasible treatment option for that particular group, although the data are limited. The impact of bevazicumab maintenance on the general results should be evaluated in randomized settings. Research on predictive markers for the use of bevazicumab and for predicting thromboembolic episodes are needed in order to improve results.
Footnotes
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No conflicts of interest for any of the authors. No financial support for any of the authors.
- Received May 29, 2013.
- Revision received June 28, 2013.
- Accepted July 1, 2013.
- Copyright© 2013 International Institute of Anticancer Research (Dr. John G. Delinassios), All rights reserved