Vinorelbine plus Cisplatin vs. Observation in Resected Non–Small-Cell Lung Cancer
Timothy Winton, M.D., Robert Livingston, M.D., David Johnson, M.D., James Rigas, M.D., Michael Johnston, M.D., Charles Butts, M.D., Yvon Cormier, M.D., Glenwood Goss, M.D., Richard Inculet, M.D., Eric Vallieres, M.D., Willard Fry, M.D., Drew Bethune, M.D., Joseph Ayoub, M.D., Keyue Ding, Ph.D., Lesley Seymour, M.D., Ph.D., Barbara Graham, R.N., Ming-Sound Tsao, M.D., David Gandara, M.D., Kenneth Kesler, M.D., Todd Demmy, M.D., Frances Shepherd, M.D., for the National Cancer Institute of Canada Clinical Trials Group and the National Cancer Institute of the United States Intergroup JBR.10 Trial Investigators
Background We undertook to determine whether adjuvant vinorelbineplus cisplatin prolongs overall survival among patients withcompletely resected early-stage non–small-cell lung cancer.
Methods We randomly assigned patients with completely resectedstage IB or stage II non–small-cell lung cancer to vinorelbineplus cisplatin or to observation. The primary end point wasoverall survival; principal secondary end points were recurrence-freesurvival and the toxicity and safety of the regimen.
Results A total of 482 patients underwent randomization to vinorelbineplus cisplatin (242 patients) or observation (240); 45 percentof the patients had pathological stage IB disease and 55 percenthad stage II, and all had an Eastern Cooperative Oncology Groupperformance status score of 0 or 1. In both groups, the medianage was 61 years, 65 percent were men, and 53 percent had adenocarcinomas.Chemotherapy caused neutropenia in 88 percent of patients (includinggrade 3 febrile neutropenia in 7 percent) and death from toxiceffects in two patients (0.8 percent). Nonhematologic toxiceffects of chemotherapy were fatigue (81 percent of patients),nausea (80 percent), anorexia (55 percent), vomiting (48 percent),neuropathy (48 percent), and constipation (47 percent), butsevere (grade 3 or greater) toxic effects were uncommon (<10percent). Overall survival was significantly prolonged in thechemotherapy group as compared with the observation group (94vs. 73 months; hazard ratio for death, 0.69; P=0.04), as wasrelapse-free survival (not reached vs. 46.7 months; hazard ratiofor recurrence, 0.60; P<0.001). Five-year survival rateswere 69 percent and 54 percent, respectively (P=0.03).
Conclusions Adjuvant vinorelbine plus cisplatin has an acceptablelevel of toxicity and prolongs disease-free and overall survivalamong patients with completely resected early-stage non–small-celllung cancer.
Lung cancer is the leading cause of death from cancer in NorthAmerica.1 For early-stage non–small-cell lung cancer,surgical resection is the treatment of choice, yet five-yearsurvival ranges from only 30 percent to 60 percent.2 Recurrencesleading to death occur mainly in extrathoracic sites after completeresection. Therefore, there is a need for effective systemictherapy to reduce the risk of recurrence and improve survival.2,3
A British Medical Research Council meta-analysis of cisplatin-basedchemotherapy after surgery for stage I through stage III non–small-celllung cancer showed a 13 percent reduction in the risk of deathand an absolute improvement in survival of 5 percent at fiveyears, but when compared with observation alone after surgery,the difference was statistically insignificant (P=0.08).4 Morerecently, a large international trial of adjuvant chemotherapythat used cisplatin plus either a vinca alkaloid or etoposide(International Adjuvant Lung Cancer Trial [IALT]) reported similarresults, with a 4.1 percent improvement in five-year survival(hazard ratio, 0.86; P<0.03).5 With such small gains in survival,neither physicians nor their patients have been convinced thatthe toxicity of adjuvant chemotherapy is justified in the treatmentof non–small-cell lung cancer. Thus, observation alonehas been the standard of care after resection of early-stagenon–small-cell lung cancer.
Newer chemotherapeutic agents (vinorelbine, gemcitabine, taxanes,and camptothecins), when coupled with a platinum derivative,have significantly increased response and overall survival ratesas compared with previous regimens in advanced non–small-celllung cancer.6,7 Trials confirming the superior efficacy of vinorelbinein combination with platinum as compared with previous combinationswere published in the early 1990s.6,7 Simultaneously, serotonin-receptorantagonists were shown to be effective in reducing the severityof cisplatin-induced emesis.8 Thus, an outpatient regimen ofvinorelbine plus cisplatin as adjuvant chemotherapy, administeredwith antiemetics and supportive care, was considered an excellentchoice and led to the initiation of the National Cancer Instituteof Canada Clinical Trials Group JBR.10 trial in patients withcompletely resected stage IB or stage II non–small-celllung cancer.
Methods
Study Design
This study was a North American intergroup, phase 3, randomizedtrial of adjuvant vinorelbine plus cisplatin after resectionof stage IB or stage II non–small-cell lung cancer. Itwas begun in April 1994 in Canada. The American cooperativegroups (Cancer and Leukemia Group B [CALGB], Southwest OncologyGroup [SWOG], and Eastern Cooperative Oncology Group [ECOG])joined in 1998. Within six weeks after surgery, eligible patientswere randomly assigned in a 1:1 ratio9 to adjuvant vinorelbineplus cisplatin or observation. Patients were stratified accordingto nodal status (N0 vs. N1) and the presence or absence of aras mutation. The primary end point was overall survival. Secondaryend points included recurrence-free survival and the safety,toxicity, and quality of life associated with this regimen.
The protocol was approved by the institutional review boardsat all the institutions, and all patients provided written informedconsent. Funding was provided by the National Cancer Instituteof Canada, the National Cancer Institute of the United States,and GlaxoSmithKline. Data were collected, managed, and analyzedby the National Cancer Institute of Canada Clinical Trials Group.GlaxoSmithKline had no part in writing the manuscript but didreview an early draft, with no right to change the text or itsconclusions. There was no contractual obligation with GlaxoSmithKlinewith respect to the decision to submit the manuscript for publication,and the company had no influence on the content or preparationof this article. Dr. Winton, the study chair, vouches for theaccuracy and completeness of the data.
Eligibility Criteria
Patients 18 years of age or older with completely resected T2N0,T1N1, or T2N1 non–small-cell lung cancer with acceptablebaseline characteristics and an ECOG performance status of 0or 1 were eligible. All patients had a preoperative computedtomographic scan, and intraoperative mediastinal lymph-noderesection or biopsy of nodes that were 1.5 cm or larger wasmandatory. Patients with incomplete preoperative or intraoperativestaging, incomplete resection, wedge or segmental resection,involvement of tracheobronchial angle nodes (station 10) ormore central mediastinal nodes, mixed histologic features, aT3 tumor, or diffuse lobar or multifocal bronchioalveolar carcinomaand patients who had had breast cancer, renal-cell carcinoma,melanoma, or other cancers treated within the previous fiveyears were ineligible. Patients with clinically significantcardiac dysfunction, active infection, or neurologic or psychiatricdisorders were also ineligible.
Randomization and Treatment Regimen
Treatment started within two days after randomization. A regimenof 50 mg of cisplatin per square meter of body-surface areaon days 1 and 8 every 4 weeks for four cycles and 25 mg of vinorelbineper square meter weekly for 16 weeks was prescribed. The protocoloriginally called for 30 mg of vinorelbine per square meter,but the dose was amended in August 1995 because of hematologictoxicity (only 18 patients received 30 mg of vinorelbine persquare meter). All patients received ondansetron, commonly witha corticosteroid, and chemotherapy was adjusted for toxicityaccording to protocol guidelines.
Follow-up
Follow-up clinical examinations and chest radiography were performedevery three months for three years and every six months thereafter.Data assessing quality of life were collected prospectivelyin both groups, but the details of the findings and data analysisare beyond the scope of this article.
ras Evaluation
Participating centers submitted fresh-frozen primary tumor orparaffin-embedded blocks of tissue specimens to a central laboratoryfor ras mutation analysis of codons 12, 13, and 61 of the H-ras,K-ras, and N-ras genes by allele-specific oligonucleotide hybridization.The results were confirmed by sequencing.10
Statistical Analysis
A sample size of 450 patients recruited over a period of 6.75years, with less than 1 year of follow-up, and 198 events (deaths)were required to provide the study with 80 percent power todetect a 10 percent improvement in survival (from an estimated3-year survival rate of 60 percent) with a one-sided 5 percentsignificance level. Two planned interim analyses were conductedin March 2000 and March 2002, after 64 and 122 deaths, respectively.The database was locked in April 2004, and all randomized patientswere included in the final analysis, which was based on theintention-to-treat method. Patients who received any protocoltreatment were included in toxicity analyses.
Median survival, 95 percent confidence intervals, and Kaplan–Meierestimates of recurrence-free survival and overall survival werecalculated according to standard methods.11,12,13 The Cox regressionmodel, stratified according to nodal status — includingthe status of ras mutations (unknown vs. mutation vs. wild type)as a covariate — was used to test the difference in overalland recurrence-free survival between the study groups.13 Forthe primary analysis of overall survival, the stagewise orderingmethod was used to obtain the P value adjusted for the two plannedinterim analyses.14 An unadjusted log-rank test and an exploratory,stratified Cox regression model analysis, adjusted for ras status,age, sex, performance status (ECOG 0 or 1), extent of resection,and histologic features, were performed. To test whether treatmenteffects were homogeneous across the stratification factors,subgroup analyses of overall and recurrence-free survival withthe use of proportional-hazards models with interaction termswere included.13 All P values reported are the result of two-sidedtests.
Results
Characteristics of the Patients
Between July 1994 and April 2001, 532 patients were registered,and 482 were randomly assigned to observation (240 patients)or chemotherapy (242). Fifty registered patients (9.4 percent)never underwent randomization, owing to patient refusal (36patients), postoperative death (2), intercurrent illness (4),decreased performance status (2), metastases (2), and ineligibility(4). Forty-one patients (8.5 percent) — 22 in the observationgroup and 19 in the chemotherapy group — who underwentrandomization did not fully meet eligibility criteria: 7 hadincomplete staging or screening data, 15 had tumors that weremore advanced than stage II, 18 had abnormal laboratory results,and 1 had incomplete resection.
Follow-up ranged from 1.5 to 9.3 years (median, 5.1 years) inthe chemotherapy group and 0.4 to 9.0 years (median, 5.3 years)in the observation group. Three patients (0.6 percent) werelost to follow-up, two in the treatment group at 6.3 and 7.0years after randomization and one in the observation group at4.1 years after randomization.
The baseline characteristics of the patients are shown in Table 1.The two groups were evenly distributed with respect to importantprognostic variables, including age, sex, ECOG performance status,and histologic features.
Table 1. Baseline Characteristics of the Randomized Patients.
Delivery and Toxicity of Chemotherapy
Data concerning drug delivery, treatment compliance, and qualityof life were reported previously.15,16 At least one dose ofmedication was received by 231 patients (95.5 percent); 11 ofthe patients randomly assigned to vinorelbine plus cisplatin(4.5 percent) did not receive chemotherapy (9 patients refusedtreatment, 1 was ineligible, and 1 was randomly assigned toobservation erroneously) (Table 2). The median number of cyclesdelivered was three. Fifty-eight percent of the patients receivedthree or more cycles of cisplatin, 77 percent had at least onedose reduction or omission, and 55 percent required one dosedelay or more, most related to neutropenia at the expected timeof vinorelbine administration on day 15 (cycle week 3). Seventy-threeof the patients who received at least one dose (32 percent)required hospitalization — 16 (7 percent) for administrationof chemotherapy, 14 (6 percent) for reasons unrelated to treatment(with death in 1 patient), and 43 (19 percent) for medical problemsrelated to toxicity (with death in 1 patient).
Table 2. Delivery of Chemotherapy for Patients Randomly Assigned to Vinorelbine plus Cisplatin.
Neutropenia was the most common severe toxic effect of chemotherapy;73 percent of patients had grade 3 or 4 neutropenia, 7 percenthad grade 3 or 4 anemia, and 1 percent had grade 3 thrombocytopenia(Table 3). Colony-stimulating factors were administered to 15percent of the patients and febrile neutropenia occurred in7 percent. Severe nonhematologic toxic effects from chemotherapywere uncommon. Grade 3 or 4 anorexia, nausea, or vomiting wasreported by 10 percent, 10 percent, and 7 percent of the patients,respectively. Grade 3 or 4 sensory neurotoxicity, motor neurotoxicity,or hearing loss was observed in 2 percent, 3 percent, and 2percent, respectively.
Table 3. Drug-Related Adverse Events among Patients Who Received at Least One Dose of Vinorelbine plus Cisplatin.
Two patients (0.8 percent) died because of treatment-relatedtoxicity — one during chemotherapy from sepsis secondaryto febrile neutropenia, and one six months after chemotherapyfrom interstitial lung disease, first documented during treatment.
Relapse-Free and Overall Survival
Recurrence was documented in 206 patients (42.7 percent) —87 in the group assigned to vinorelbine and cisplatin (36.0percent) and 119 in the observation group (49.6 percent) (P=0.003).The Kaplan–Meier estimates of recurrence-free survivalare shown in Figure 1A. Chemotherapy significantly prolongedrecurrence-free survival as compared with observation (hazardratio for recurrence, 0.60; 95 percent confidence interval,0.45 to 0.79; P<0.001). The median recurrence-free survivalwas 46.7 months in the observation group and had not been reachedin the chemotherapy group at the time the database was locked.The five-year recurrence-free survival rates were 61 percent(95 percent confidence interval, 54 to 68 percent) in the vinorelbine–cisplatingroup and 49 percent (95 percent confidence interval, 42 to55 percent) in the observation group (P=0.08). Use of the stratifiedCox regression model showed that only chemotherapy (P<0.001)and squamous histologic features (P=0.002) were associated withsignificantly prolonged recurrence-free survival.
Figure 1. Kaplan–Meier Estimates of Survival among Patients Who Received Adjuvant Vinorelbine plus Cisplatin and Those Who Underwent Observation Alone.
P values are based on two-sided statistical analyses of differences between treatment groups after randomization.
A total of 197 patients (111 in the observation group and 86in the chemotherapy group) had died when the database was locked.Eighty-two percent of them died from recurrent lung cancer (92in the observation group and 70 in the chemotherapy group),5 percent from second malignant conditions (5 and 4, respectively),and 12 percent from other causes (11 and 13, respectively).Of the 11 patients in the observation group who died from othercauses, 6 died from myocardial infarction, 2 from pulmonaryemboli, 2 from an exacerbation of chronic obstructive pulmonarydisease, and 1 from a ruptured aortic aneurysm. Of the 13 patientsin the vinorelbine–cisplatin group who died from othercauses, 6 died from myocardial infarction, 2 from pulmonaryemboli, 1 from chronic obstructive pulmonary disease, 1 fromgastrointestinal bleeding, 1 from stroke, and 2 from alcoholtoxicity.
Figure 1B shows Kaplan–Meier estimates of overall survival.The median survival after chemotherapy was significantly prolonged,at 94 months (95 percent confidence interval, 73 to not reached),as compared with 73 months (95 percent confidence interval,48 to not reached) in the observation group (hazard ratio, 0.69;95 percent confidence interval, 0.52 to 0.91; P=0.009; P=0.04after adjustment for interim analyses). There was an absolutesurvival advantage of 15 percentage points at five years —69 percent (95 percent confidence interval, 62 to 75 percent)in the vinorelbine–cisplatin group and 54 percent (95percent confidence interval, 48 to 61 percent) with observationalone (P=0.03).
Subgroup analyses according to stratification factors did notshow a statistically significant improvement in overall survivalamong patients with stage IB non–small-cell lung cancerin the chemotherapy group as compared with the observation group(P=0.79) (Figure 1C). The median survival among patients withstage II non–small-cell lung cancer was 41 months in theobservation group and 80 months in the chemotherapy group (hazardratio, 0.59; 95 percent confidence interval, 0.42 to 0.85; P=0.004)(Figure 1D). These findings must be considered with caution,given that no statistically significant effect of treatmentaccording to disease stage was detected (P=0.13).
The status of ras mutations in the tumors is known in 450 patients(93 percent). The median survival among patients with wild-typeras in the observation group was 74 months and had not beenreached in the group that received chemotherapy (hazard ratio,0.69; 95 percent confidence interval, 0.49 to 0.98; P=0.03).In contrast, adjuvant chemotherapy did not seem to confer asurvival advantage in patients whose tumors had ras mutations(hazard ratio, 0.95; 95 percent confidence interval, 0.53 to1.71; P=0.87). However, in the interaction analysis, the effectof the status of ras mutations on the outcome of treatment wasnot statistically significant (P=0.29).
In the planned stratified Cox regression analysis, significantfactors that were associated with improved survival includedchemotherapy as compared with observation (hazard ratio forthe difference in survival, 0.67; 95 percent confidence interval,0.51 to 0.89; P=0.006) and squamous histologic features as comparedwith adenocarcinomas (P=0.005). In contrast, older age (P=0.001),male sex (P=0.03), and pneumonectomy as compared with lesserresection (P=0.02) were associated with shorter survival; rasmutation was not a predictor of survival.
Discussion
This prospective, randomized trial documents the benefit ofadjuvant vinorelbine plus cisplatin in completely resected,early-stage non–small-cell lung cancer. The overall survivaladvantage at five years was 15 percentage points (P=0.03), exceedingthe marginal benefit (5 percentage points) observed in the BritishMedical Research Council meta-analysis4 and the large IALT trial,which reported a survival advantage of 4.1 percentage pointsat five years (P<0.03).5
Three other trials of adjuvant chemotherapy for non–small-celllung cancer undertaken during the past decade have been reported.Keller et al.17 reported the results of the ECOG trial of adjuvantetoposide plus cisplatin and radiotherapy as compared with radiotherapyalone after resection of stage II or IIIA non–small-celllung cancer. There was no difference between the groups in therecurrence rate or in survival, and greater toxicity was observedin the chemoradiotherapy group in this trial. Similarly, theAdjuvant Lung Project Italy (ALPI)18 found no benefit from threecycles of mitomycin C, vindesine, and cisplatin in 1209 patientswith stage I to IIIA non–small-cell lung cancer. Finally,Waller et al.19 (of the Big Lung Trial) reported that 381 patientswith non–small-cell lung cancer who were randomly assignedto various platinum-based regimens in a neoadjuvant or adjuvantsetting had no benefit from treatment.
What accounts for the results of the current trial? Severalimportant factors should be considered. The superiority of thevinorelbine–cisplatin combination has been well establishedin patients with advanced non–small-cell lung cancer,in whom it has been shown to provide significantly better responserates and overall survival than other regimens.7,20,21,22,23,24,25,26With the exception of IALT5 and the Big Lung Trial,19 in whichonly 27 percent and 22 percent of patients, respectively, receivedvinorelbine plus cisplatin, all the negative trials used olderchemotherapeutic combinations with comparatively less efficacyin advanced non–small-cell lung cancer.
The CALGB protocol 9633 trial, in which another current adjuvantregimen (paclitaxel plus carboplatin) was compared with observationalone after complete resection of stage IB non–small-celllung cancer, found a similar improvement in survival rates (animprovement of 12 percentage points at four years, vs. 15 percentagepoints at five years in the current trial) and a similar, significantreduction in the risk of death from recurrent lung cancer.27Vinorelbine plus cisplatin and paclitaxel plus carboplatin havesimilar efficacy in advanced non–small-cell lung cancer22;hence, it is not surprising that they have been found to confersimilar survival benefits in the adjuvant setting.
All patients in the ECOG trial of adjuvant therapy,17 and 31percent and 43 percent of patients in IALT5 and the ALPI trial,18respectively, received radiotherapy in addition to chemotherapy,with variable delivery of the dosage of radiotherapy betweenthe treatment and observation groups. Radiotherapy may havehad a deleterious effect on outcomes, since a meta-analysisof postoperative radiotherapy (known as PORT) showed that therisk of death increased by 21 percent with a 7 percent reductionin two-year survival with postoperative radiation.28 Furthermore,the Medical Research Council meta-analysis of adjuvant radiotherapywith or without chemotherapy showed no benefit from chemoradiotherapyand no survival benefit from radiotherapy alone.4 Finally, thecumulative toxic effects of chemoradiotherapy may limit thedelivery of cytotoxic systemic chemotherapy and hence reduceefficacy.
Only patients with early-stage (stage IB or stage II) non–small-celllung cancer were included in CALGB protocol 963327 and thistrial. Previous trials included significant numbers of patientswith resected stage IIIA non–small-cell lung cancer. Patientswith stage IIIA disease have a high likelihood of harboringoccult extrathoracic disease, are heterogeneous in terms ofthe extent (burden or bulk) of disease and number of nodal stationsinvolved, frequently have a poor performance status, often requirepneumonectomy, and do not tolerate chemotherapy well.2,3,15These factors may have contributed to the inability of theseearlier trials to show a survival benefit from chemotherapy.
Subgroup analyses indicate that the survival advantage in ourtrial was most prominent in patients with stage II disease.We cannot explain why the benefit in patients with stage IBdisease was less and did not reach statistical significance(7 percent benefit at five years, vs. 20 percent among thosewith stage II disease). The number of patients with stage IBdisease was small, the number of events was smaller than hadbeen anticipated when the subgroup analysis was planned, andthe statistical test for stage-by-treatment interaction wasnot significant (P=0.13). Therefore, it is important not toplace too much emphasis on this subgroup analysis.
Patients with tumors containing ras gene mutations have poorersurvival after surgery than those without ras mutations, butto our knowledge, previous studies have not prospectively examinedthe status of ras genes in relation to survival or the responseto adjuvant chemotherapy.29,30,31 The observation that patientswith ras mutations did not benefit from adjuvant chemotherapy,whereas those with wild-type ras did, requires further analysisand validation, especially because the secondary analysis forinteraction terms failed to show statistically significant differencesbetween the groups (P=0.29).
The vinorelbine–cisplatin regimen was associated withacceptable adverse event rates after reduction of the vinorelbinedose from 30 to 25 mg per square meter weekly. The rates offebrile neutropenia (7 percent) and of treatment-related death(0.8 percent) are similar to the rates of these events in otherreports. Cisplatin-based regimens are associated with enhancedefficacy and toxicity as compared with carboplatin-based therapy32,33;yet in CALGB protocol 9633,27 33 percent of patients requireddose reductions, and not all completed a full course of therapy.Our quality-of-life analyses showed that, despite toxicity,the decline in function- and symptom-related domains duringchemotherapy in the current trial was limited and resolved rapidly(within three months after completion of therapy).16
This study indicates that adjuvant treatment with vinorelbineplus cisplatin can be safely administered in the outpatientsetting with limited toxicity and is beneficial in non–small-celllung cancer. We believe that a brief course of such chemotherapyshould become the standard of care for patients with good performancestatus after complete resection of stage IB or stage II non–small-celllung cancer.
Supported by grants (4493 and 12150) from the Canadian CancerSociety and the National Cancer Institute of Canada and by grants(CA04326 and CA31946, to Drs. Rigas and Demmy) from the NationalCancer Institute and Cancer and Leukemia Group B.
We are indebted to the patients who participated in this study;to the trial committee; to the investigators, pharmacists, andclinical research associates from the National Cancer Instituteof Canada Clinical Trials Group, SWOG, ECOG, and CALGB; to themembers of the Canadian Association for Thoracic Surgery whosupported this trial from the outset; to the members of thedata safety and monitoring committee; and to the central officestaff of the National Cancer Institute of Canada Clinical TrialsGroup who helped conduct this trial.
Source Information
From the National Cancer Institute of Canada Clinical Trials Group, Kingston, Ont. (T.W., M.J., C.B., Y.C., G.G., R.I., D.B., J.A., K.D., L.S., B.G., M.-S.T., F.S.); Southwest Oncology Group, San Antonio, Tex. (R.L., E.V., D.G.); Eastern Cooperative Oncology Group, Boston (D.J., W.F., K.K.); and Cancer and Leukemia Group B, Chicago (J.R., T.D.).
Address reprint requests to Dr. Winton at 2D2.09 Walter Mackenzie Health Sciences Centre, University of Alberta Hospital, 8440 112th St., Edmonton, AB T6G 2B7, Canada, or at twinton{at}cha.ab.ca.
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