Erlotinib Plus Bevacizumab Phase ll Study in Patients with Advanced Non-small-Cell Lung Cancer (JO25567): Updated Safety Results.

INTRODUCTION: The phase II JO25567 study compared the efficacy and safety of erlotinib plus bevacizumab vs. erlotinib alone as first-line therapy for advanced epidermal growth factor receptor (EGFR) mutation-positive non-small-cell lung cancer (NSCLC).
OBJECTIVE: Our objective is to provide updated analyses of safety and the assessment of manageability of specific adverse events.
METHODS: Patients with stage IIIB/IV or recurrent, non-squamous, EGFR mutation-positive NSCLC were randomized to receive erlotinib plus bevacizumab or erlotinib. The primary endpoint was progression-free survival. Adverse event frequency rates, predictability and manageability, reasons for discontinuation, time to onset, and outcomes of specific adverse events were analyzed.
RESULTS: The safety analysis population comprised 152 randomized patients (75 erlotinib plus bevacizumab; 77 erlotinib) who received at least one dose of study drug between February 2011 and March 2012. There was no difference in overall incidence of serious adverse events between arms, but more grade 3 or higher adverse events were reported with erlotinib plus bevacizumab (90.7%) than with erlotinib (53.2%), primarily due to grade 3 hypertension. Hypertension was controllable with antihypertensive medications in most cases. Proteinuria and bleeding were also more frequently reported with erlotinib plus bevacizumab than with erlotinib but were manageable and did not lead to early discontinuations.
CONCLUSIONS: The addition of bevacizumab to erlotinib prolonged progression-free survival in EGFR mutation-positive NSCLC. Follow-up safety data were consistent with the known safety profiles of both erlotinib and bevacizumab in NSCLC; this combination appeared to be manageable, and treatment was well tolerated. JapicCTI-111390.

RCT Entities:   Population Interventions Outcomes

Key Points

Introduction

Epidermal growth factor receptor (EGFR) tyrosine kinase inhibitors (TKIs) have proven benefit for patients with non-small-cell lung cancer (NSCLC) with activating EGFR mutations (EGFR-positive [+] NSCLC) [1-7]. Current clinical guidelines recommend that patients with advanced inoperable EGFR+ NSCLC should receive treatment with an EGFR TKI in the first-line setting [8-10]. Although EGFR inhibitors prolong progression-free survival (PFS), treatment resistance often develops; most patients experience disease progression and almost inevitably revert to treatment with cytotoxic chemotherapy [1–4, 11, 12]. Novel therapeutic approaches are therefore needed to improve outcomes for these patients.

Clinical data suggesting activity of the EGFR TKI erlotinib plus the anti-angiogenic agent bevacizumab (EB) in NSCLC initially came from a small, randomized phase II study conducted in the second-line setting [13]. This study led to the initiation of further studies using the combination in advanced NSCLC (OSI3364g [BeTa-Lung] [14], BO20571 [TASK] [15], and AVF3671g [ATLAS]) [16]. These further studies were conducted in an EGFR-unselected patient population because, at the time of their initiation, the clinical relevance of EGFR-activating mutations in NSCLC had not been fully established. However, retrospective analyses of patients with EGFR+ tumors suggested greater benefit of the EB combination compared with the comparator arm. The phase II JO25567 study was undertaken to evaluate the efficacy and safety of EB vs. erlotinib alone (E) as first-line therapy in patients with advanced EGFR+ NSCLC in Japan [17]. In the primary analysis (data cut-off 30 June 2013), the study demonstrated a clinically meaningful and statistically significant improvement in terms of PFS (hazard ratio 0.54; 95% confidence interval 0.36–0.79; P = 0.0015; median 16.0 months for EB and 9.7 months for E); overall survival was immature at the time of the primary analysis [17]. Here, we report the safety and manageability analyses from the JO25567 study, with an additional 9 months of safety follow-up compared with the primary analysis, with a data cut-off date of 31 March 2014.

Methods

Methods are reported in brief, as a detailed description has been published previously [17]. The study is registered with the Japan Pharmaceutical Information Center (JapicCTI-111390).

Study Design

JO25567 was a randomized, open-label, multicenter phase II study comparing the efficacy and safety of oral erlotinib 150 mg/day plus intravenous bevacizumab 15 mg/kg every 3 weeks (EB) vs. erlotinib 150 mg/day (E) as first-line therapy for patients with stage IIIB/IV EGFR+ NSCLC. Stepwise modification of the dosing of erlotinib (to 100 or 50 mg/day) due to adverse events (AEs) was allowed. Dose reductions due to toxicities were not allowed for bevacizumab; however, temporary dose interruptions were allowed to manage toxicities (see the Electronic Supplementary Material). As per protocol, patients in the combination arm could continue with one component of study medication if the other drug was discontinued. All patients provided informed consent, and the study was approved by all relevant ethics committees.

Patients

Eligible patients were aged ≥20 years with histologically or cytologically confirmed stage IIIB/IV or post-operative, recurrent, non-squamous NSCLC with an activating EGFR mutation (exon 19 deletion or L858R point mutation) without concurrent T790M mutation. Other eligibility criteria included an Eastern Cooperative Oncology Group performance status 0 or 1; adequate hematological, hepatic, and renal function; and no previous chemotherapy for advanced disease. Previous radiotherapy was allowed for lesions not located in the lungs. Key exclusion criteria included patients with brain metastases at baseline; those who had received previous treatment with an EGFR or vascular EGFR inhibitor; patients with a confirmed T790M mutation; and patients with a history of interstitial lung disease [17].

Study Endpoints

The primary endpoint was PFS assessed by an independent review committee [17]. Secondary endpoints included overall survival, tumor response, PFS according to investigator assessment, quality of life (QoL), and safety.

Assessments

Patients were monitored for AEs throughout the study period and graded according to the National Cancer Institute Common Terminology Criteria for AEs v4.03 [18]. AEs were classified using the Medical Dictionary for Regulatory Activities (MedDRA®), version 14.0. Serious AEs were classified using the Japanese Pharmaceuticals and Medical Devices Act [19]. The causal relationship between the AE and the investigational drugs was classed as not related, unlikely to be related, possibly related, or probably related [20, 21]. Action taken for the treatment of AEs and action taken regarding the investigational drug were recorded, as were the outcomes of all AEs. All randomized patients were included to assess the time to and incidence of hypertension, proteinuria, and bleeding events. Patients who received at least one dose of study treatment were included to assess the incidence of all other safety events.

Results

Between February 2011 and March 2012, a total of 154 patients were randomized to receive EB (n = 77) or E (n = 77). Of the 154 patients randomized, two withdrew due to concomitant illness before treatment started, so were excluded from the safety analysis population (n = 152; 75 in the EB arm, 77 in the E arm). Patient characteristics were generally well balanced between the two treatment arms. As previously mentioned, the study met its primary efficacy endpoint [17].

Drug Exposure

Patients received a median 16 cycles of bevacizumab, and median duration of exposure was 325 days (range 1–1053). The median dose intensity of bevacizumab in the EB arm was 93.7% (range 68.9–99.7). With respect to erlotinib, the median dose intensity of erlotinib was similar in both arms: 95.3% (range 34.0–100) in the EB arm compared with 98% (range 33.3–100) in the E arm. Median duration of exposure to erlotinib was much longer in the EB arm at 431 days (range 21–1065) compared with 254 days (range 18–1075) in the E arm.

Updated Safety

The most common AEs (≥50% frequency, any grade, regardless of relation to treatment) in the EB and E arms, respectively, were diarrhea (81.3 vs. 79.2%), paronychia (78.7 vs. 64.9%), hypertension (78.7 vs. 14.3%), dry skin (74.7 vs. 58.4%), stomatitis (62.7 vs. 59.7%), and acneiform dermatitis (61.3 vs. 53.2%). AEs with the most substantial difference in incidence between the EB and E arms were attributed to known bevacizumab-related AEs of special interest, including all-grade hypertension, bleeding events, and proteinuria. All-grade and grade 3 or higher AEs of special interest are shown in Table 1.

Table 1

Adverse events of special interest for bevacizumab or erlotinib

MedDRA® preferred terms	All grades		Grade ≥3
	EB patients (n = 75)	E patients (n = 77)	EB patients (n = 75)	E patients (n = 77)
Adverse events of special interest
Rash	74 (98.7)	77 (100)	18 (24.0)	15 (19.5)
Diarrhea	61 (81.3)	61 (79.2)	2 (2.7)	1 (1.3)
Hypertensiona	59 (78.7)	11 (14.3)	46 (61.3)	9 (11.7)
Hypertension	58 (77.3)	11 (14.3)	45 (60.0)	9 (11.7)
Blood pressure increased	1 (1.3)	0 (0)	1 (1.3)	0 (0)
Non-pulmonary bleeding/hemorrhageb	54 (72.0)	22 (28.6)	2 (2.7)	0 (0)
Proteinuria	41 (54.7)	3 (3.9)	6 (8.0)	0 (0)
Pulmonary hemorrhage/hemoptysisb	7 (9.3)	1 (1.3)	0 (0)	0 (0)
Peripheral sensory neuropathy	6 (8.0)	3 (3.9)	0 (0)	0 (0)
Interstitial lung disease	2 (2.7)	3 (3.9)	0 (0)	1 (1.3)
Arterial thromboembolism	2 (2.7)	1 (1.3)	2 (2.7)	1 (1.3)
Venous thromboembolism	1 (1.3)	2 (2.6)	1 (1.3)	2 (2.6)
Anaphylaxis and hypersensitivity	1 (1.3)	1 (1.3)	0 (0)	0 (0)
Congestive heart failure	1 (1.3)	0 (0)	0 (0)	0 (0)
Wound healing disorders	1 (1.3)	0 (0)	0 (0)	0 (0)
Cardiovascular disorders	0 (0)	2 (2.6)	0 (0)	1 (1.3)
Neutropenia	0 (0)	2 (2.6)	0 (0)	1 (1.3)
Encephalopathy syndrome	0 (0)	0 (0)	0 (0)	0 (0)
GI perforation	0 (0)	0 (0)	0 (0)	0 (0)

Data are presented as n (%) and are based on groups of preferred terms for AESIs

AESIs adverse events of special interest, E erlotinib alone, EB erlotinib plus bevacizumab, GI gastrointestinal, MedDRA Medical Dictionary for Regulatory Activities

aIncluding hypertension and increased blood pressure

bPatients could have both pulmonary and non-pulmonary bleeding; overall bleeding events occurred in 56 patients (74.7%) in the EB arm and 23 patients (29.9%) in the E arm

Time-to-event analyses revealed that, in the EB arm, the number of patients who experienced first onset of hypertension, bleeding, and proteinuria continued to increase until 12–14 months after study initiation (Fig. 1). Skin and nail disorders, which are commonly seen with erlotinib, were also observed in both arms; the addition of bevacizumab to erlotinib appeared to increase their incidence (paronychia [all grades]: 78.7% with EB and 64.9% with E; grade 3 or higher: 2.7% for EB, 3.9% for E).

Fig. 1

Time to first onset of (a) hypertension, (b) proteinuria, and (c) bleeding events in all randomized patients. E erlotinib alone, EB erlotinib plus bevacizumab

The incidence of any grade 3 or higher AEs (any relationship to treatment) was higher in the EB arm than in the E arm. Grade 3 or higher AEs were reported by 90.7% of EB patients and 53.2% of E patients (grade 3: 89.3% with EB and 42.9% with E; grade 4: 1.3% with EB and 9.1% with E; grade 5 AE: one patient in the E arm [drowning; assessed by the investigator as unlikely to be causally related to study treatment]) [17]. The increase in grade 3 AEs in the EB arm was primarily driven by the higher incidence of grade 3 hypertension (no grade 4 hypertension was reported). No nephrotic syndrome or permanent organ dysfunction was seen in the study. The proportion of patients experiencing serious AEs (SAEs) was similar between arms: 25.3% for EB and 24.7% for E.

The reason for discontinuation from any component of treatment in the EB arm was due to an AE in 45.3% of patients (mostly discontinuation of bevacizumab due to associated AEs in 42.7% of EB patients); most patients continued to receive erlotinib after discontinuation of bevacizumab. The incidence of AEs leading to discontinuation of erlotinib was similar in the EB and E arms (17.3 and 18.2%, respectively). These data demonstrate that discontinuation of bevacizumab due to AEs did not prevent continuation of erlotinib. The higher proportion of patients discontinuing in the EB arm compared with the E arm was primarily driven by proteinuria (16.0%) and bleeding events (epistaxis 4.0%; hemorrhoidal hemorrhage 2.7%) (Table 2). Discontinuations tended to occur later in the study, with the median duration of bevacizumab exposure being 8.2 months in those who discontinued. A total of 43.8% of patients who discontinued had ≥10 months of bevacizumab exposure.

Table 2

Adverse events leading to discontinuation of bevacizumab (≥2% incidence)

Adverse event	EB patients (n = 75)	Median time to bevacizumab discontinuation (months)
Any event	32 (42.7)	8.2
Proteinuria	12 (16.0)	–
Epistaxis	3 (4.0)	–
Hypertension	2 (2.7)	–
Hemorrhoidal hemorrhage	2 (2.7)	–

Data are presented as n (%)

EB erlotinib plus bevacizumab

Predictability and Manageability of Specific Adverse Events in the Erlotinib plus Bevacizumab Arm

Hypertension

Hypertension (any grade) events (comprising hypertension and increased blood pressure) were reported in 59 EB patients (78.7%; 58 patients with hypertension, one patient with increased blood pressure) compared with 11 E patients (14.3%). Hypertension events occurred in patients with prior or concurrent hypertension at baseline at a lower rate than in those without (65.6 vs. 86.0%, respectively). Most patients developed hypertension within 1–2 months, with the incidence steadily increasing until 14 months (Fig. 1).

Although 45 EB patients experienced grade 3 hypertension, these events were controllable with one or two antihypertensive medications in most cases. A total of 33 EB patients initiated anti-hypertensive medication, 18 of these patients needed a second medication to control blood pressure and five needed a third medication. None of these events was assessed as serious, and hypertension only led to discontinuation of bevacizumab in two patients (of 58), who both responded to antihypertensive medication and received more than the median number of bevacizumab cycles. Of the 58 patients with hypertension, 15 had recovered or were recovering at the last visit (most of these patients stopped antihypertensive treatment at the last visit). Cardiovascular or cerebrovascular events occurred in three patients (4%) in the EB arm (two patients with cerebral infarction events and one patient with cerebral ischemia) compared with one patient in the E arm (1.3%; arterial thrombosis). Arterial thromboembolism is a known adverse reaction to bevacizumab. Despite prolonged exposure to bevacizumab treatment and an increased incidence of hypertension, the incidence of arterial thromboembolism observed in this study was within the range described in the previous studies.

Proteinuria

Proteinuria (any grade) events (comprising proteinuria or protein urine present) were reported in 41 patients (54.7%; 35 patients with proteinuria, six with protein in the urine) in the EB arm compared with three (3.9%) in the E arm. Six patients (8%) had grade 3 events in the EB arm. Of these patients, three had a history of hypertension, a known risk factor for proteinuria; no history of renal disorder or diabetes was reported in these patients. Proteinuria appeared to occur at any time during treatment, with 40–50% of patients who experienced proteinuria reporting it within the first 10 months of treatment. Proteinuria led to a total of 12 bevacizumab discontinuations (16% of the EB arm). These 12 patients received a median of 15.5 cycles of bevacizumab before discontinuation due to proteinuria, which was similar to the overall median cycles of bevacizumab received in the EB arm (16 cycles). After discontinuation of bevacizumab, proteinuria events were reported as resolved in seven patients and unresolved in five patients. No associated renal events or relevant laboratory events were reported for any of these patients.

Bleeding

A total of 56 patients (74.7%) experienced overall bleeding events of any grade in the EB arm, compared with 23 patients (29.9%) in the E arm. Mucocutaneous bleeding accounted for most of these events in the EB arm, with epistaxis being the main bleeding event contributing to the higher incidence in the EB arm (46.7 vs. 9.1%, respectively). Pulmonary bleeding (hemoptysis) occurred in seven patients in the EB arm and one patient in the E arm, all of which were grade 1 or 2. Two patients experienced serious bleeding events (grade 3 epistaxis and grade 2 duodenal ulcer hemorrhage) in the EB arm.

All hemoptysis events resolved without sequelae and did not lead to discontinuation of erlotinib or bevacizumab. The majority of non-pulmonary bleeding events were either resolved or resolving at the clinical data cut-off (31 March 2014). Unresolved events reported in more than one patient were grade 1 epistaxis (eight patients, all in the EB arm), grade 1 blood in the urine (two patients, both in the EB arm), and grade 1 subcutaneous hemorrhage (two patients, both in the E arm).

Non-pulmonary bleeding events led to a total of nine bevacizumab discontinuations, representing 12% of the EB arm. Among these nine patients, latency to event onset ranged from 1.5 to 11.8 months, with a median latency of 4.2 months (approximately 6 cycles). No events secondary to bleeding were reported in the nine patients who discontinued bevacizumab. Treatment to control bleeding included nil by mouth for duodenal hemorrhage and medications such as carbazochrome and tranexamic acid. All but one patient (with unresolved unspecified hemorrhage), including those with serious and grade 3 events, reported favorable outcomes after bevacizumab discontinuation.

Skin and Nail Conditions

All-grade skin and nail events (dry skin and paronychia) were reported with a >10% increase in the EB arm compared with the E arm; grade 3 skin events (rash, dermatitis acneiform, and dry skin) were reported with a >2% increase. No grade 4 or 5 skin or nail events were reported. The rates of grade 3 rash, all-grade dermatitis acneiform, and grade 3 dermatitis acneiform were similar when adjusted for treatment exposure. The exposure-adjusted incidence of all-grade dermatitis acneiform (AE rate per 100 patient-years) was 118 vs. 107 and of grade ≥3 dermatitis acneiform was 7.1 vs. 8.8 (E vs. EB, respectively). All-grade paronychia occurred with a higher incidence in the EB arm than in the E arm (78.7 vs. 64.9%, respectively); however, the frequency of grade 3 paronychia was similar in both arms (3.9 and 2.7%, respectively). For all-grade paronychia, exposure-adjusted analysis revealed a trend towards an increased incidence rate in the EB arm vs. the E arm (213 vs. 171 events per patient-year, respectively).

Overall, the reported skin and nail conditions were mild in severity (mainly grade 1–2), could be well managed, and infrequently led to study drug discontinuation (n = 2; EB). It is of note that the two patients who discontinued only did so after a long duration of study treatment, having received 15 and 16 cycles of treatment, respectively.

Discussion

Safety results from the JO25567 study, with an additional 9 months of follow-up from the primary data analysis are presented here (data cut-off, 31 March 2014; median follow-up 25.9 months for EB, 27 months for E). This analysis supports the finding that the EB regimen has a manageable safety profile, in addition to providing a PFS advantage compared with E alone [17].

Hypertension, proteinuria, and bleeding are known AEs associated with bevacizumab. However, in the EB arm of our study, their incidences were higher than in previous experience [20]. This was most likely due to the extended exposure to bevacizumab (median of 16 cycles) as compared with most previous studies of bevacizumab across indications that used 4–6 cycles [20]. In the EB arm of JO25567, the number of patients who experienced first onset of hypertension, proteinuria, and bleeding continued to increase until 12–14 months after study treatment initiation, highlighting the role of the extended exposure as a contributing factor to the increased incidence of these AEs. The skin and nail events reported in this study (e.g., paronychia) are known to be associated with erlotinib treatment and are well characterized [20, 21]. Dry skin is also linked with bevacizumab treatment [20], so an increased incidence with combination therapy was expected. These conditions were generally mild to moderate in severity and are considered of low clinical importance for patients with NSCLC.

The incidence of AEs leading to bevacizumab discontinuation was higher than in previous EB studies, mainly driven by proteinuria and bleeding events. Patients discontinued bevacizumab due to AEs from 0 to 32.5 months after initiation of study treatment, with the median duration of bevacizumab exposure for these patients being 8.2 months. Of the 32 patients who discontinued bevacizumab, 14 (44%) did so at least 10 months after initiation of study treatment, which was longer than the median PFS in the E arm. Incidences of AEs leading to erlotinib discontinuation and SAEs were consistent with previous trials [15, 16]. As per the protocol, discontinuation of bevacizumab due to AEs did not prevent the patients from continuing erlotinib and vice versa. Therefore, discontinuation of bevacizumab did not adversely impact patients’ ability to receive treatment with erlotinib, as only seven patients discontinued both treatments simultaneously.

In JO25567, the high incidence of grade ≥3 AEs (90.7%) seen in the EB arm was primarily due to increased grade 3 hypertension (60.0%). The high incidence of hypertension did not lead to a correspondingly high level of discontinuations (n = 2). In addition, none of the hypertension events were assessed as serious, and they did not lead to significantly more clinical complications such as cardiovascular or cerebrovascular events. A history of hypertension did not appear to predispose patients to the development of hypertension, nor did treatment with the EB combination appear to exacerbate existing conditions. However, regardless of baseline hypertension, patients should be monitored for worsening of hypertension, and, if necessary, modifications should be made to existing hypertension medication during treatment with EB. Hypertension is a known risk associated with bevacizumab but was manageable with antihypertensive medication and routine blood pressure monitoring. Therefore, hypertension should not be considered a major limitation when deciding on bevacizumab treatment.

Although caution in making direct comparisons between studies is recommended due to differing patient populations and study designs, safety data associated with this combination from previous studies [14–16, 22] suggest that AEs reported with the EB combination are tolerable. The increase in AEs seen in this study for EB may be mainly due to extended exposure to the combination. The primary analysis results (cut-off 30 June 2013) demonstrated that adding bevacizumab to erlotinib can improve efficacy outcomes, and the safety profile of this combination is manageable in this population [17].

Potential limitations of this safety analysis of the JO25567 study include the relatively small sample size and enrollment of only Japanese patients. However, there is no known clinical evidence to suggest that the safety profile of these drugs would differ by ethnicity, and the pharmacokinetics are similar for both erlotinib and bevacizumab in Japanese and Caucasian patients.

Conclusions

JO25567 has previously shown a clinically meaningful and statistically significant efficacy benefit for EB vs. E in patients with EGFR+ NSCLC. The updated safety profile in JO25567 was largely consistent with the known safety profiles of both erlotinib and bevacizumab in a population with NSCLC. AEs observed more frequently in the EB arm than in the E arm included hypertension, proteinuria, bleeding events, and skin and nail disorders; these were likely due to the extended exposure to bevacizumab and erlotinib. They could be easily detected and well managed in most cases. No clinically significant complications of these events were noted. Although the EB combination led to higher rates of bevacizumab discontinuation than previously reported (in the context of prolonged drug exposure), these were not early discontinuations and therefore did not prevent patients from deriving the full benefit from treatment. This is reflected in the 6.3-month prolongation in PFS with the addition of bevacizumab.

Below is the link to the electronic supplementary material.

Supplementary material 1 (PDF 76 kb)

The updated safety profile in JO25567 was largely consistent with the known safety profiles of both erlotinib and bevacizumab in a population with non-small-cell lung cancer (NSCLC).

Adverse events observed more frequently in the erlotinib plus bevacizumab (EB) arm than in the erlotinib alone (E) arm included hypertension, proteinuria, bleeding events, and skin and nail disorders. These adverse events could be monitored, easily detected, and well managed in most cases.

Although EB led to higher rates of bevacizumab discontinuation than previously reported (in the context of prolonged drug exposure), these were not early discontinuations and therefore did not prevent patients from deriving full benefit from treatment.