EGFR TKIs as maintenance therapy in NSCLC: Finding the old in
the new INFORMation
Medical Oncology Department, Istituto Toscano Tumori, Ospedale Civile, Livorno, Italy (L. Landi, F. Cappuzzo)
|
Cite this article as: Landi L, Cappuzzo F. EGFR TKIs as
maintenance therapy in NSCLC: Finding the old in the new
INFORMation. Transl Lung Cancer Res 2012;1(2):160-162.
DOI: 10.3978/j.issn.2218-6751.2012.06.05
Editorial
|
|
Submitted May 17, 2012. Accepted for publication Jun 18, 2012.
DOI: 10.3978/j.issn.2218-6751.2012.06.05 |
|
Data from phase III studies indicate that a consistent
proportion of metastatic non-small cell lung cancer
(NSCLC) patients treated with front-line chemotherapy, at
the time of progression, are not able to receive additional
therapies mainly because of worsening clinical conditions
related to a rapid tumor growth (1,2). An important
clinical end-point, particularly for patients with aggressive
tumors, is to guarantee that the vast majority of patients
could be treated with drugs that, in second-line setting,
demonstrated to prolong survival, preserving quality of
life and delaying disease-related symptoms. Beyond any
semantic questions about the type of agent employed (i.e.
continuation maintenance versus switch maintenance),
the use of an effective drug in the absence of disease
progression following platinum-based chemotherapy means
maintenance therapy. During the last few years, several
studies (1-4) have been conducted in metastatic NSCLC
to assess the role of maintenance therapy. Although in the
majority of trials a clear survival improvement has not been
demonstrated, in all studies, irrespective of the used drug,
the hazard ratio (HR) for overall survival slightly favored
maintenance therapy. As a consequence, recent guidelines
consider maintenance strategies as a suitable option to
offer to NSCLC patients who did not progress after their
planned first line chemotherapy and presenting in good
clinical condition and without any persistent chemo-related
toxicity (5,6). Ideally a maintenance regimen might be of
proven efficacy, easy to administer, well tolerated and, most
importantly, well accepted by the patient. For these reasons
erlotinib and gefitinib, two inhibitors of the tyrosine kinase
domain of the epidermal growth factor receptor (EGFRTKI),
seemed both good candidates to be tested in this
setting.
Two years ago, we (4), first demonstrated the usefulness
of switch maintenance with an EGFR-TKI. The phase III
SATURN (Sequential Tarceva UnResectable NSCLC)
trial randomly assigned 889 advanced NSCLC patients
without disease progression after completion of 4 cycles
of standard platinum based chemotherapy to receive
erlotinib or placebo. Notably, tissue collection was
mandatory for enrollment. The trial met its primary end
point of PFS, demonstrating a significant improvement
for patients receiving erlotinib (median PFS 12.3 versus
11.1 weeks; HR 0.71, 95% CI, 0.62-0.82, P<0.0001). The
co-primary end point of the study, PFS in the subgroup
of EGFR immunohistochemistry positive (defined as
EGFR expression on the membrane of >10% of cells)
patients, was also met (HR 0.69, 95% CI, 0.58-0.82,
P<0.0001). In the whole population, the PFS benefit in
the active arm translated in survival benefit (median OS
12.0 versus 11.0 months; HR 0.81, 95% CI, 0.70-0.05,
P=0.009). In this trial an extensive biomarkers analysis was
performed, including EGFR mutational status. As expected,
patients having an EGFR mutation had a significant PFS
improvement (median PFS 44.6 versus 13 weeks; HR 0.10,
95% CI, 0.04-0.25, P<0.001); furthermore, also for EGFR
wild type population the PFS favored the erlotinib arm (HR
0.78, 95% CI, 0.63-0.96, P=0.02).
The WJTOG0203 trial (7), randomized 604 Japanese
patients with advanced NSCLC after completion of 3
cycles of platinum doublet chemotherapy, to receive three
additional cycles of the same regimen or gefitinb. The study
failed to meet its primary end point of overall survival.
However, maintenance gefitinib significantly prolonged PFS (4.6 versus 4.3 months; HR 0.68, 95% CI, 0.57-0.80,
P<0.001), with the greatest benefit observed in patients with
adenocarcinoma histology (5.1 versus 4.4 months; HR 0.60,
95% CI, 0.50-0.73, P<0.001), that is the histotype classically
associated with presence of EGFR mutations.
Sequential gefitinib after first line standard chemotherapy
was also tested in white population enrolled in the EORTC
08021 trial (8). With the main limits of a low accrual -
leading to early closure of the trial - and an ambitious
statistical design - in which primary end point was to
improve survival of 28% (from 11 to 14 months) - patients
receiving gefitinib had longer PFS than those receiving
placebo (median PFS 4.1 versus 2.9 months, HR 0.61, 95%
CI, 0.45-0.83, P<0.0001), confirming the potential role of
gefitinib in maintenance setting.
In a recent issue of Lancet Oncology, Zhang et al.
(9) reported the final results of the INFORM (Iressa in
NSCLC FOR Maintenance, C-TONG0804) trial, a
phase III study of gefitinib versus placebo as maintenance
treatment in Chinese patients with molecularly unselected
locally advanced or metastatic NSCLC who had achieve
disease control after completion of 4 cycles of platinumbased
doublet chemotherapy. The study, enrolling 148
patients per arm, met its the primary end-point of PFS.
Patients treated with gefitinb had a 58% relative reduction
in risk of progression compared with those receiving
placebo (4.8 versus 2.6 months; HR 0.42, 95% CI, 0.33-0.55,
P<0.0001), while overall survival did not differ between the
two groups (median survival 18.7 versus 16.9 months; HR
0.84, 95% CI, 0.62-1.14, P=0.26). Sequential anti-EGFR
therapy was also associated with higher disease control rate
(72% versus 51%, P=0.0001) and better symptom control.
Although tissue collection was not mandatory for study
entry, 79 patients (27%) provided tumor tissue for EGFR
status assessment and activating mutations were found in
30 samples (38%). Compared to ITT population, in EGFR
mutant patients the improvement in PFS was greater (16.6
versus 2.8 months; HR 0.17, 95% CI, 0.07-0.42, P<0.0001)
with a HR quite similar to that observed in SATURN
trial, with no evidence of benefit in the EGFR wild type
population.
How should we interpret the INFORM data in the
context of clinical practice? How gefitinib maintenance
data compare to erlotinib results? Looking at the PFS curve
of SATURN and INFORM, it seems that the outcome of
patients included in the INFORM study was better. Clearly
the difference in PFS observed between the two studies was
largely influenced by the difference in study populations.
In fact, the INFORM study was conducted in China, a
geographic area with higher incidence of EGFR mutations
when compared to western countries, while the SATURN
included less than 15% of Asiatic patients. Analysis
of EGFR mutated patients in the two studies showed
comparable results: both erlotinib and gefitinib produced
a similar PFS benefit, with approximately 90% reduction
in the risk of progression. Importantly, in the EGFR wildtype
population, only erlotinib produced a significant
PFS improvement, confirming previous data showing
that gefitinib works only in EGFR mutated while erlotinib
produces some benefit, modest but statistically significant,
even in absence of EGFR mutations. Probably the most
interesting finding comes from survival analysis. In the
INFORM study, no survival difference between gefitinib
and placebo was detected, while in the SATURN trial, the
modest improvement in PFS translated in a significant
survival difference favoring erlotinib. Looking at the HR,
in both SATURN and INFORM, the reduction in risk of
death was similar (HR=0.81 in SATURN and HR=0.83
in INFORM), suggesting a marginal efficacy difference
between the two drugs. Moreover, it is not possible to
exclude that INFORM failed to meet the overall survival
end-point because of the high percentage of patients with
EGFR mutations (approximately 40%) and therefore
because of the confounding effect of post-study therapies
including further administration of EGFR-TKIs.
Finally, INFORM data confirmed again that EGFR
mutations are the best predictor of response to an EGFRTKI
and consequently EGFR mutant patients gain the
greater benefit when treated early during the course of their
disease. Moreover, it is confirmed that Asian patients are
a “naturally enriched population” with a higher incidence
of hidden EGFR mutations: In the INFORM the HR
for progression in EGFR unknown individuals was 0.40,
superimposable to that in the ITT population (HR=0.42)
and median survival time reported in both groups as well
as response rate after first-line chemotherapy (37%) are
aligned with other trials conducted in Eastern countries,
even if in a different setting (10,11). Furthermore also in
the WJTOG0203 (7), only considering the most favorable
subgroup (i.e. adenocarcinoma histology, non-smokers),
median survival time was 23.5 and 25.1 months for patients
in the chemotherapy arm and gefitinib arm respectively.
In conclusion, INFORM trial demonstrated that
maintenance gefitinib is an additional option for metastatic
NSCLC harboring an activating EGFR mutation. Although
the role of maintenance therapy remains debatable, we should avoid the risk that a patient with mutation cannot
receive an EGFR-TKI. Therefore, when not given in frontline
setting, we need to INFORM our EGFR mutated
patients about the opportunity of starting an effective
therapy as soon as possible.
|
|
Acknowledgements
Disclosure: The authors declare no conflict of interest.
|
|
References
|
