ORIGINAL ARTICLE

JOP. J Pancreas (Online) 2011 Mar 9; 12(2):131-137.

Overall Survival of Patients with Advanced Pancreatic Cancer Improved with an Increase in Second-Line Chemotherapy after Gemcitabine-Based Therapy

Yuan-dong Zhang, Qiong Yang, Zhi-min Jiang, Wen Ma, Si-wei Zhou, De-rong Xie

Department of Oncology, Sun Yat-sen Memorial Hospital, Sun Yat-sen University. Guangzhou, China

ABSTRACT

Context In the last decade, gemcitabine-based regimen as first-line therapy has demonstrated low efficacy regarding overall survival benefit for patients with advanced pancreatic cancer. Objective The purpose of this study was to explore a new strategy, such as an increased second-line chemotherapy rate, in order to improve overall survival. Design Retrospective data analysis. Methods The data in the literature on gemcitabine-based therapy for patients with advanced pancreatic cancer were collected by searching databases, such as MEDLINE, EMBASE, the Chinese Biomedical Literature Analysis and Retrieval System, and EBM Reviews (Cochrane Database of Systematic Reviews). Linear regression was used to explore the relationship between overall survival and second-line chemotherapy. The primary endpoint was overall survival. The secondary endpoints were progression-free survival and residual survival. Results Ten randomized controlled trials, involving 2,679 patients, were included in the present study. The results indicated that overall survival was positively correlated with a combination of chemotherapy, stage of disease and second-line chemotherapy in patients with advanced pancreatic cancer (r=0.753; P=0.003). Meanwhile median overall survival would be prolonged about 1.56 days if second-line chemotherapy was increased by 1% (t=4.33; P=0.001). Progression-free survival was not significantly correlated with second-line chemotherapy (r=0.092; P=0.701); in contrast, residual survival was positively correlated with second-line chemotherapy (r=0.717; P<0.001). Conclusions Our study indicated that overall survival closely correlated to second-line chemotherapy in patients with advanced pancreatic cancer; more attention should be paid before a second-line therapy which must be administered skillfully in order to improve overall survival, and this is worthy of further study.

INTRODUCTION

Pancreatic cancer is a fatal disease because it is difficult to diagnose early and has a poor prognosis. Most patients (80%) have locally advanced or metastatic pancreatic cancer at the time of diagnosis [1]. At present, single-agent gemcitabine is recommended as standard chemotherapy for patients with advanced pancreatic cancer and it has been extensively studied in phase II and III trials, especially as first-line chemotherapy. However, patients treated with gemcitabine alone still have a poor prognosis with a clinical benefit response rate of 23.8%, a median overall survival rate of 5.65 months and a 1-year overall survival rate of 18% [2].

In the last decade, several studies attempted to improve the efficacy of gemcitabine in advanced pancreatic cancer, not only by the addition of a second agent to a standard dose and schedule of gemcitabine but also by a fixed dose rate infusion of gemcitabine and also by the use of new agents, most of which had shown a limitation in terms of survival value. Several trials showed that gemcitabine-based doublet cytotoxic chemotherapy improved progression-free survival but not overall survival [3, 4, 5, 6]. With the exception of gemcitabine combined with erlotinib, gemcitabine plus target agents, such as cetuximab [7], bevacizumab [8] and axitinib [9], all had negative results. However, median overall survival only increased by 9 days when using gemcitabine combined with erlotinib in advanced pancreatic cancer [10]. Considering the expensive cost but limited efficacy of erlotinib, gemcitabine plus erlotinib has not been widely used for advanced pancreatic cancer in clinical practice. Phase III trials did not suggest that there could be a survival advantage from a fixed dose rate infusion of either gemcitabine or gemcitabine plus other agents [6, 11]. In addition, strategies with non-gemcitabine regimens had been assessed. A final result of the PRODIGE 4/ACCORD 11 trial [12] showed that 5-fluorouracil plus leucovorin, irinotecan and oxaliplatin (FOLFIRINOX) was associated with an almost doubling of overall survival over that of the standard of care (11.1 vs. 6.8 months) in patients with performance status 0 or 1. Although the regimen was effective, it was studied in a highly selected patient population, possibly enriched for patients without elevated bilirubin. Therefore, it might be a challenge to generalize the use of that regimen across the usual cohort of patients with metastatic pancreatic cancer. Other similar non-gemcitabine regimens had not shown better results [13, 14].

To date, second-line chemotherapy has not been well defined in advanced pancreatic cancer. No specific drugs have been considered as the best choice for second-line chemotherapy. The reason for this was that the majority of patients with progression after first-line chemotherapy had a poor performance status and could not receive the salvage therapy, which made the salvage therapy harder to study. However, several small phase II trials showed that survival advantage in advanced pancreatic cancer might benefit from the second-line chemotherapy [15, 16, 17].

Therefore, new strategies should be explored to promote progression in the treatment of advanced pancreatic cancer. Considering the platform of efficacy achieved with first-line chemotherapy, more attention should be paid to second-line chemotherapy and it should be studied more intensively. In the present study, we focused on exploring the possibility, using pooled analysis of the literature, that higher percentages of patients receiving second-line chemotherapy might result in a significant effect on survival benefit, especially in prolonging median overall survival in advanced pancreatic cancer.

METHODS

Literature Search

We searched in databases, such as MEDLINE, EMBASE, the Chinese Biomedical Literature Analysis and Retrieval System and EBM Reviews (Cochrane Database of Systematic Reviews) for recently published phase II or III trial results regarding the use of gemcitabine in advanced pancreatic cancer. The keywords used in the search were: pancreas, pancreatic cancer, pancreatic carcinoma, pancreatic adenocarcinoma, pancreatic neoplasm, chemotherapy, Gemzar^® (Eli Lilly and Co., Indianapolis, IN USA) and gemcitabine. No language restrictions were applied. The search finished on April 31^st, 2010.

Inclusion Criteria

Study Design

The papers had to have been published in peer-reviewed journals. The clinical trial had to have been a phase II or III prospective, properly randomized trial in which the information baseline in subgroups, such as age, sex, stage and performance status, was unbiased.

Study Population

Patients with advanced pancreatic cancer, as well as those with locally advanced and metastatic disease, were included in the study. Patients eligible for the study were required to have histologically or cytologically ascertained pancreatic cancer. Furthermore, patients were required to be adults over 18 years of age with a baseline Karnofsky performance status equal to, or greater than, 50% (or ECOG performance status less than 2). Patients had to have adequate hematological, renal, cardiac and hepatic functions. Patients had to have an estimated life expectancy of at least twelve weeks, no prior chemotherapy regimens, no prior radiation therapy or any other anti-tumor therapy in the 6 months prior to entry in the study.

Intervention

The control group received only gemcitabine in treating local or metastatic disease. The treatment group received gemcitabine-based combination therapy, which included gemcitabine plus either cytotoxic agents or targeted agents. Gemcitabine alone or gemcitabine-based combination chemotherapy was given as a first-line treatment until the disease progressed or the patient could no longer tolerate chemotherapy. Any cytotoxic drugs administered after the first-line chemotherapy for at least one cycle were considered to be second-line chemotherapy.

Types of Outcomes

The primary outcome measures were overall survival, which should have a survival curve or clear endpoint of survival. Overall survival was defined as the time interval from randomization to death from any cause or to the last follow-up in censored patients.

One secondary endpoint was progression-free survival, which was defined as the time from randomization to disease progression or death or that censored at the last follow-up. Some papers in the literature reported time to tumor progression or time to treatment failure instead of progression-free survival. Another secondary endpoint was residual survival, which is usually calculated from the date of disease progression after first-line chemotherapy to the date of death or that censored at the last follow-up. Because no individual patient data was available, for the sake of consistency with progression-free survival, in our study, we estimated residual survival by calculating the difference between the value of overall survival minus the value of progression-free survival.

The median value of each endpoint was used in the present study.

Exclusion Criteria

Patient populations of < 30 in each group were considered to be too small to continue analysis. Single arm phase II studies lacked baseline balance. The methodological quality of the trials was assessed using a validated scale (ranging from 0 to 5) applied to the items which influenced intervention efficacy. The scale reported by Jadad et al. [18] consisted of items pertaining to randomization, masking, dropouts and withdrawals. Low quality studies with a Jadad scale score of less than 2 points were not eligible for our study. The literature did not contain an exact rate or original information regarding second-line chemotherapy in the progression of pancreatic cancer.

Data Extraction

Two primary reviewers (Zhang YD and Yang Q) assessed all the abstracts that were identified from the sources. Both reviewers independently selected trials for inclusion according to prior agreement regarding the study population and the intervention. If one of the reviewers concluded an abstract might be eligible, the complete article was retrieved and reviewed in detail by both reviewers independently. Disagreements were resolved by consensus or by a third reviewer (Xie DR). The final decision was made by at least two reviewers. If the same trial was found but in different publications, the data of the final trial were chosen.

The following information was obtained from each trial: year of publication, number of patients, median age, gender (male vs. female), stage of disease (frequency of local advanced pancreatic cancer), performance status (frequency of ECOG performance status 0-1), chemotherapy regimen, combination chemotherapy (i.e., gemcitabine-combination chemotherapy vs. single agent gemcitabine), frequency of patients who had second-line chemotherapy, regimens of second-line chemotherapy, median overall survival, median progression free survival, and median residual survival. Data missing from the primary study reports was requested by the investigators.

ETHICS

The study was a retrospective data analysis, which was approved by the Institution of Scientific Research of Sun Yat-sen Memorial Hospital, and did not require patient consent. All aspects of the study conformed to the ethical guidelines of the Declaration of Helsinki 1964, as revised in Tokyo 2004.

STATISTICS

A multiple linear regression model was developed using the stepwise method, according to the least absolute value of the standardized partial regression coefficient. The two P values of 0.05 and 0.20 were chosen as limits for including or excluding the variables in the analysis, respectively. The set of exploratory variables included median age, gender, stage of disease, performance status, combination chemotherapy and second-line chemotherapy. Each variable was judged according to sample size. Three analyses were applied considering median overall survival, median progression-free survival and median residual survival.

RESULTS

Trial Flow

According to the pre-set inclusion and exclusion criteria, 1,682 potentially eligible published papers were included. Of these, 21 papers conformed to the inclusion criteria [3, 4, 5, 6, 7, 14, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33]. Of these 21, 11 papers conformed to the exclusion criteria [3, 4, 7, 14, 19, 20, 21, 22, 23, 24, 25]; therefore, 10 papers involving 2,679 patients were finally included [5, 6, 26, 27, 28, 29, 30, 31, 32, 33]. The flow chart of the selection of the literature is shown in Figure 1.

Figure 1. Flow chart of the selection of randomized controlled trials for correlation analysis.

Characteristics of the Selected Trials

Ten prospective randomized controlled trials which achieved a score of ≥ three points in the Jadad scale were included in present study [5, 6, 26, 27, 28, 29, 30, 31, 32, 33]; only one trial was a Phase II randomized controlled trial and the others were Phase III randomized controlled trials. All detailed clinical characteristics were summarized in Table 1. Because different cut-offs of performance status were used to stratify patients in the original trials, performance status was considered as an unreliable variable in our multiple linear regression analyses in order to avoid artificial error. Table 1. Characteristics of selected trials.
Trial	Treatment	No. of cases	Age Median (range)	Frequency of male gender (M:F ratio)	Frequency of local advanced pancreatic cancer	Second line treatment	Progression free survival (months)	Residual survival (months)	Median overall survival (months)	Jadad score
Trial	Treatment	No. of cases	Age Median (range)	Frequency of male gender (M:F ratio)	Frequency of local advanced pancreatic cancer	Second line treatment	Progression free survival (months)	Residual survival (months)	Median overall survival (months)	Jadad score
Colucci et al. 2010 [26]	Gem Gem+DDP	199 201	63 (37-75) 63 (35-75)	56.8% (113:86) 62.2% (125:76)	33 (16.6%) 31 (15.4%)	53.1% 40.9%	3.9 3.8	4.4 3.4	8.3 7.2	4
Heinemann et al. 2006 [27]	Gem Gem+DDP	97 98	66 (43-85) 64 (37-82)	61.9% (60:37) 65.3% (64:98)	20 (21.1%) 20 (20.0%)	16.5% 15.8%	3.1 5.3	2.9 2.2	6.0 7.5	3
Louvet et al. 2005 [6]	Gem Gem+Oxa	156 157	60.1 (22-75) 61.3 (35-77)	53.0% (83:73) 60.0% (94:63)	47 (30.0%) 50 (32.0%)	55.0% 55.4%	3.7 5.8	3.4 3.2	7.1 9.0	3
Rocha Lima et al. 2004 [28]	Gem Gem+Iri	180 180	60.2 (32.3-82.9) 63.2 (38.7-81.2)	53.3% (96:73) 57.2% (103:73)	24/169 (14.2%)^a 27/175 (15.4%)^a	46.0% 39.0%	3.0 (TTP) 3.5 (TTP)	3.6 2.8	6.6 6.3	4
Stathopoulos et al. 2006 [29]	Gem Gem+Iri	70 60	64.0 (44-83) 64.0 (31-84)	60.0% (42:28) 65.0% (39:21)	10 (14.0%) 13 (22.0%)	31.4% 35.0%	2.9 (TTP) 2.8(TTP)	3.6 3.6	6.5 6.4	4
Cunningham et al. 2009 [5]	Gem Gem+Cap	266 267	62.0 (26-83) 62.0 (37-82)	58.0% (153:113) 60.0% (160:107)	76 (29.0%) 80 (30.0%)	16.9% 19.1%	3.8 5.3	2.4 1.8	6.2 7.1	4
Herrmann et al. 2007 [30]	Gem Gem+Cap	159 160	NA NA	53.0% (85:74) 54.0% (86:74)	34 (21.0%) 32 (20.0%)	56.6% 55.6%	3.9 4.3	3.3 4.1	7.2 8.4	3
Reni et al. 2005 [31]	Gem PEFG	47 52	59 (25-69) 62 (37-69)	51.1% (24:23) 46.2% (24:28)	14 (29.8%) 15 (28.8%)	53.2% 42.3%	3.3 5.4	5.7 3.6	9.0 (cure) 9.0	4
Bramhall et al. 2002 [32]	Gem Gem+Mar	119 120	62 (37-85) 62 (32-83)	59.7% (71:48) 57.5% (69:51)	32 (27.0%) 364 (30.0%)	19.3% 17.5%	3.6 (TTF) 3.0(TTF)	1.9 2.5	5.5 5.5	5
Di Costanzo et al. 2005 [33]	Gem Gem+5-FU	48 43	64 (34-75) 62 (44-75)	48.0% (23:25) 63.0% (27:16)	13 (27.0%) 14 (33.0%)	30.0^b 30.0^b	3.3 4.2	3.7 3.0	7.0 7.2	3
5-FU: 5-fluorouracil; Cap: capecitabine; DDP: cisplatin; Gem: gemcitabine; Iri: irinotecan; Mar: marimastat; Oxa: oxaliplatin; PEFG: cisplatin, epirubicin, fluorouracil, and gemcitabine; TTF: time to treatment failure; TTP: time to tumor progression ^a Missing data of 11 and 5 cases were present in the gemcitabine alone and the gemcitabine plus irinotecan groups, respectively ^b The investigators requested these data

Linear Regression of Median Overall Survival

Three of the variables (stage of disease, combination chemotherapy, and second-line chemotherapy) entered into the stepwise multiple linear regression showed an independent positive correlation to median overall survival (overall r=0.753; P=0.003). The detailed results are shown in Table 2. The coefficient computed for second-line chemotherapy demonstrated that median overall survival would be prolonged for 0.052 months (about 1.56 days) if second-line chemotherapy was increased by 1%.

Table 2. Linear regression analyses of median overall survival. (Overall r=0.753; P=0.003).
Model	Regression coefficient (B±SE; months)	Standardized partial regression coefficient (Beta)	t value	Significance
Constant	4.04±0.87	-	4.64	P<0.001
Combination chemotherapy	0.490±0.357	0.229	1.37	P=0.189
Stage	0.041±0.028	0.247	1.48	P=0.160
Second-line chemotherapy	0.052±0.012	0.722	4.33	P=0.001
The positive regression coefficient (B) shows that local advanced disease (stage), combination chemotherapy (gemcitabine-combination chemotherapy vs. single agent gemcitabine) and second-line chemotherapy (frequency of patients who had second-line chemotherapy) have a positive correlation with median overall survival. SE: standard error

Correlation between Median Progression-Free Survival and Second-Line Chemotherapy

No variables were entered into the stepwise procedure when considering median progression-free survival as a dependent variable. In particular, univariate analysis showed that second-line chemotherapy and median progression-free survival had no significant correlation (r=0.092; P=0.701) (Figure 2).

Figure 2. Correlation between median progression-free survival and second-line chemotherapy. Linear regression showed a correlation coefficient of 0.092 which meant that the second-line chemotherapy and progression-free survival had no significant correlation (P=0.701).

Correlation between Median Residual Survival and Second-Line Chemotherapy

Unlike the non significant relationship between median progression-free survival and second-line chemotherapy, second-line chemotherapy had unique variables entering the stepwise procedure when median residual survival was considered as a dependent variable, showing a positive significant correlation (r=0.717; P<0.001). The result is shown in Figure 3.

Figure 3. Relationship between residual survival and second-line chemotherapy. Linear regression showed a correlation coefficient of 0.717 which meant that the second-line chemotherapy and residual survival had a significant positive correlation (P<0.001).

DISCUSSION

Our results showed that the median overall survival rate of patients with advanced pancreatic cancer was positively correlated to combination chemotherapy, stage of disease and second-line chemotherapy (r=0.753; P=0.003). Combination chemotherapy and disease stage affecting overall survival were similar to other studies [27, 30, 34, 35]. A positive correlation between second-line chemotherapy and median overall survival suggested that median overall survival would be prolonged about 1.56 days if patients accepted second-line chemotherapy increased by 1% (t=4.33; P=0.001). Theoretically, median overall survival would be increased by about 9 days in absolute value if the number of patients who accepted second-line chemotherapy was increased by 5.8%, which was similar to the survival benefit from gemcitabine combined with erlotinib [14]. With this increase in mind, the second-line chemotherapy rate in clinical practice might be easier than increasing the use of erlotinib.

Progression-free survival reflects the efficacy of first-line chemotherapy on cancer. Linear regression analyses showed that second-line chemotherapy has no significant correlation with progression-free survival (r=0.092; P=0.701). The residual survival rate estimates the time-interval between the date of disease progression after first-line chemotherapy to the date of death or that censored at the last follow-up. Theoretically it should be related to second-line chemotherapy and the best supportive care. Our results indicated that residual survival is positively related to second-line chemotherapy (r=0.717; P<0.001); that is, the statistical model correlated to clinical practice and this seems to be reasonable.

A standardized partial regression coefficient can be used to analyze the exact effect of each variable on overall survival. In our study, the standardized partial regression coefficient of second-line chemotherapy was 0.722, which was obviously larger than the variables of combination chemotherapy (0.229) and locally advanced disease (0.247). In other words, second-line chemotherapy had the biggest contribution to survival benefit. In the trials selected, median overall survival was approximately 7 months and median progression-free survival was about 3.9 months. Meanwhile, median residual survival was equal to approximately 3.3 months, which is approximately half the median overall survival. Our model pointed out the reason why second-line chemotherapy had the greatest contribution to overall survival. At the same time, it indirectly influenced overall survival through residual survival.

Although, based on our analysis, second-line chemotherapy positively correlated to survival benefit in advanced pancreatic cancer, it still did not answer whether advanced pancreatic cancer would benefit from second-line chemotherapy. One could argue that patients who live longer have a greater opportunity of being treated with second-line chemotherapy. However, several small phase II clinical trials have indicated a potential advantage in overall survival if second-line chemotherapy was used [36, 37]. The median overall survival rate was about 3-5 months, which seemed even better than our results (residual survival equal to 3.3 months). In addition, a phase III clinical trial showed that oxaliplatin plus folinic acid and 5-fluorouracil was superior as the best supportive care in the second-line chemotherapy of advanced pancreatic cancer with progression after gemcitabine [38]. Therefore, it seemed that patients treated with second-line chemotherapy would survive longer.

However, our study had the following limitations: i) data were collected based on published literature or information supplied by authors but not on individual patient data. Although we tried to request individual patient data for our study, it was difficult to get all the information we needed. Therefore, according to a linear correlation analysis carried out between the abstract data in the literature and individual patient data [39], which maintained that either method was feasible in high quality meta-analyses, in our situation (where no individual patient data were available) it was acceptable to carry out meta-analyses through abstract data in the literature; ii) only 10 clinical trials supplied information about second-line chemotherapy, and the second-line regimens were all different with capecitabine, 5-FU, S-1, oxaliplatin, cisplatin and exatecan being used in the majority of cases. The regimens, doses of drugs, and usage of drugs were not the same. Therefore, we could not arrive at a conclusion as to the effective regimen for second-line chemotherapy, based on our study. However, Mancuso et al. [40] found that DNA repair gene excision repair cross complementing 1 could influence overall survival, time to progression and response to chemotherapy. It indicated additional translational research by biological selection of populations in the second-line chemotherapy field and iii) it was reported that performance status was an important prognostic factor in advanced pancreatic cancer [30]. However, we could not analyze the correlation between performance status and overall survival because the patients were stratified based on different categories of performance status in the various trials, which might have affected the equation and final results. On the other hand, some might argue that patients in the early stage of disease could live longer and arrive at second-line treatment, which might affect overall survival. In our data, no significant correlation was found between second-line treatment and stage of the disease (r=-0.149; P=0.531). Although the definition of the best first-line chemotherapy regimen is presently a very difficult task, emphasis on second-line chemotherapy might be an effective way of improving overall patient survival. In order to gain more experience, we suggest that oncologists introduce more details about patients receiving second-line chemotherapy in clinical research reports after first-line chemotherapy fails in pancreatic cancer. We also advise more biological research in addition to clinical research.

In conclusion, second-line chemotherapy might affect the survival benefit of patients with advanced pancreatic cancer. Depending on the level of efficacy achieved with first-line chemotherapy, physicians should pay more attention to second-line chemotherapy and should conduct additional clinical trials to explore the value of second-line chemotherapy. On the other hand, pemetrexed, as a second-line drug, can be given immediately with a survival benefit for non-small cell lung cancer with stable disease after first-line chemotherapy [41]. Recently, a retrospective study indicated that capecitabine could be used safely as a maintenance agent in gastrointestinal cancer [42]. Therefore, second-line chemotherapy, given immediately in patients without progression after first-line chemotherapy, might improve overall survival in advanced pancreatic cancer; this fact is worthy of additional study in future.

Received November 26^th, 2010 - Accepted February 5^th, 2011

Key words gemcitabine; Pancreatic Neoplasms; Regression Analysis; Salvage Therapy

Acknowledgements We thank Professors Francesco Di Costanzo, Massimo Di Maio, and Richard Herrmann for their kind help in providing detailed second-line chemotherapy data

Authors’ contributions Zhang YD and Yang Q contributed equally to this work

Funding This work was supported by a grant from the Science and Technology Program Foundation of Guangdong Province, China (No. 2009B030801195)

Correspondence
De-rong Xie
Department of Oncology
Sun Yat-sen Memorial Hospital
No.107, West Yanjiang Road
510120 Guangzhou, Guangdong
China
Phone: +86-20.8133.2616
Fax: +86-20.8411.0956
E-mail: xiederong@21cn.com

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