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Phase II Trial of Cisplatin, Interferon -2b, Doxorubicin, and 5-Fluorouracil for Biliary Tract Cancer¹

Department of Gastrointestinal Medical Oncology and Digestive Diseases [Y. Z. P., M. M. H., A. I. F., S. L., I. I. S., I. R.], Division of Pharmacy [R. D. L.], Departments of Diagnostic Radiology [K. A. W.], Clinical Cancer Prevention [A. M. H.], and Surgical Oncology [L. E., J. N. V., S. A. C.], The University of Texas M. D. Anderson Cancer Center, Houston, Texas 77030

	ABSTRACT

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The aim of this study was to test the efficacy of a chemotherapy combination of cisplatin, IFN -2b, doxorubicin, Adriamycin, and 5-fluorouracil (PIAF) as treatment for radiologically measurable cancer of the biliary tree. Forty-one patients (19 gallbladder carcinoma and 22 cholangiocarcinoma) with unresectable, histologically confirmed adenocarcinoma were registered. Starting chemotherapy doses were as follows: cisplatin, 80 mg/m² i.v. over 2 h; doxorubicin, 40 mg/m² i.v. over 2 h; and 5-fluorouracil, 500 mg/m² by continuous infusion daily for 3 days. IFN -2b (5 x 10⁶ units/m²) was administered s.c. before the cisplatin and daily thereafter for a total of four doses. The overall response rate was 21.1% [95% confidence interval (CI), 10–37]. For cholangiocarcinoma and gallbladder carcinoma patients, the response rates were 9.5% (95% CI, 1–32%) and 35.3% (95% CI, 14–62%), respectively. Overall median survival time was 14 months (95% CI, 9.5–18.5), 18.1 months (95% CI, 12.1–24.1) for the cholangiocarcinoma patients, and 11.5 months (95% CI, 5.9–17.1) for the gallbladder carcinoma patients. This difference was not statistically significant. The most common grade III and IV toxicities were neutropenia (41%), thrombocytopenia (20%), nausea and vomiting (34%), and fatigue (20%). In conclusion, the PIAF combination seemed more active against gallbladder carcinoma than against cholangiocarcinoma but was associated with significant toxicity. Therefore, this regimen cannot be recommended for cholangiocarcinoma, but it may have a role in the treatment of gallbladder carcinoma, particularly among patients who were refractory to higher priority investigational agents.

	INTRODUCTION

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The annual incidence of all of the hepatobiliary cancers has been steadily increasing in the United States from 15,000 in 1993 (1) to 22,200 in 2000; (2) and that of HCC³ has increased over the past 2 decades by 79% when comparing the periods 1976–1980 and 1991–1995 (3) . Data from the Veterans Administration hospitals throughout the Unites States (4) and from M.D. Anderson Cancer Center⁴ suggested that hepatitis C virus is a major factor contributing to the increase in the incidence of HCC in the United States. However, there are no adequate United States epidemiological studies that assessed the change in the incidence of biliary tree cancers (gallbladder cancers and cholangiocarcinoma). It is not impossible that hepatitis C virus-related cirrhosis is a risk factor for American patients with cholangiocarcinoma, because it has been reported for Japanese patients (5) .

Both diagnosis and treatment of biliary tree cancers pose several challenges. These tumors may be difficult to visualize by CT or MRI, because the tumor may be present inside the ductal system and all that can be seen on CT or MRI are dilated bile ducts. Indeed, many patients with biliary tree cancer present with obstructive jaundice (6 , 7) which must be treated, often by ERCP or PTC, to drain and decompress the biliary tree before the patient can begin chemotherapy. Modern technology such as magnetic resonance cholangiopancreatography may provide better visualization of the biliary tree but cannot offer bile duct decompression.

It is well accepted that surgical resection is the treatment of choice for patients with biliary tree cancers. However, a high percentage of these tumors are unresectable and are usually associated with a very poor prognosis because of the lack of active chemotherapy regimens. A review article of the systemic chemotherapy for bile duct cancers reported that mitomycin C, doxorubicin, and 5-FU are the most active agents against cholangiocarcinoma (8) . The overall collective PR of 97 reviewed patients was 29%, and the median survival ranged between 6 and 11 months. However, no CR was reported.

Our previous large-scale study of i.v. 5-FU and s.c. IFN-2b produced a PR rate of 34% and no CR in 32 evaluable patients (6) . Additionally, the combination of 5-FU, carboplatin, and leucovorin was tested in 14 patients with adenocarcinoma of the biliary tree showing an overall response rate of 21.4% and a median survival of 5 months (9) . Ducreux et al. (10) reported recently that the combination of 5-FU and cisplatin produced an overall response rate of 24% in 25 previously untreated patients with inoperable, locally advanced, or metastatic biliary tree carcinoma. Similar results were observed in unresectable or metastatic gallbladder carcinoma. A study of 53 patients with gallbladder carcinoma treated by 5-FU or 5-FU with other agents reported similar antitumor response rate of 12% in each treatment arm (11) . Moreover, systemic therapy with fluoropyrimidines combined with doxorubicin generated an objective response rate of 30–40% (12 , 13) .

Indeed, the achievement of CR in patients with unresectable biliary tree cancers is very rare. The inconsistent response rates reported in different studies may have resulted from the addition of other agents to 5-FU and study sample sizes.

Facing tumors so difficult to diagnose and to treat, and based on these observations, we embarked on this Phase II trial of cisplatin, rIFN-2b, doxorubicin, Adriamycin, and 5-FU (PIAF) in patients with biliary tree cancers.

	PATIENTS AND METHODS

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Between September 1995 and July 1998, 41 patients with unresectable, histologically confirmed, and radiologically measurable adenocarcinoma of the intrahepatic or extrahepatic biliary tree or the gallbladder were registered on a protocol approved by The University of Texas M. D. Anderson Cancer Center Institutional Review Board. For the purpose of this analysis, patients with intra- or extrahepatic biliary tree cancer were referred to as having cholangiocarcinoma and the others as having gallbladder carcinoma. The study sample included 22 cholangiocarcinoma patients (2 extra- and 20 intrahepatic) and 19 gallbladder carcinoma patients. Disease was staged according to the American Joint Committee Cancer Tumor-Node-Metastasis staging criteria (14) and is summarized in Table 2 . Thirty two patients (12 gallbladder carcinoma and 20 cholangiocarcinoma) had stage IV A, and 8 patients (6 gallbladder carcinoma and 2 cholangiocarcinoma) had stage IV B disease. None of the patients seemed a surgical candidate because of multifocal lesions and multilobe disease. Even the patient with stage III gallbladder carcinoma was only a marginal candidate and, therefore, was treated with primary PIAF chemotherapy. However, the patient developed metastasis to segment IV of the liver by the second month of treatment, and the consideration of resection was abandoned. All of the patients provided written informed consent to participate. Eligibility criteria included histological confirmation of the disease and the presence of lesions that could be measured by CT or MRI. Other eligibility criteria were life expectancy of 16 weeks, performance status of 2 on the Zubrod scale, absolute granulocyte count 1500/µl, platelet count 100,000/µl, serum creatinine level 1.5 mg/dl, serum bilirubin level 3 mg/dl, serum albumin level 2.8 g/liter, and normal coagulation profile. Patients with jaundice and evidence of bile duct obstruction of which the biliary tree could be decompressed by means of ERCP or PTC with a subsequent reduction in bilirubin level to 3 mg/dl, were eligible for the study. Previous exposure to any of the four trial drugs was not allowed but prior exposure to nontrial drugs or to radiation therapy was allowed.

Response Evaluation.
Treatment response was assessed at the end of 8 weeks after 2 cycles of chemotherapy had been completed. Liver tumors were evaluated by CT or MRI, and the sum of the product of the largest two perpendicular diameters was used for baseline and follow-up tumor measurements. All of the responses were reviewed and confirmed by one of the authors (K. A. W.). Dimensions of lung metastases were assessed by chest radiography. CR was defined as disappearance of all of the lesions measurable previously and no new tumor lesions appearing for at least 8 weeks. PR was defined as a decrease of >50% in the product of two perpendicular diameters of each measurable lesion (17) . Minor response was defined as a 25–49% decrease in such measurements. Imaging response was correlated with serum CEA levels. Time to disease progression and survival were determined from the first day of treatment.

Statistical Methods.
Simon’s two-stage design (18) was used to calculate the sample size for this Phase II trial, using two levels of response rate, P⁰ (20%) and P¹ (40%). Accordingly, 37 patients were required for this study; 17 patients were accrued for the first stage followed by 20 more patients when four or more responses were observed during the first stage.

The ² test (19) was used to determine the significance of differences in responses between patients with cholangiocarcinoma and patients with gallbladder carcinoma. Survival curves were generated by the Kaplan-Meier method (20) , and the statistical significance of differences was determined according to Gehan’s modification of the Wilcoxon signed-rank test (21) . A P of <0.05 was considered statistically significant.

	RESULTS

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The characteristics of the 41 patients with biliary tract cancer registered on the protocol (19 men and 22 women) are listed in Table 2 . The patient median age was 56 years (range, 36–80 years); 22 had cholangiocarcinoma and 19 had gallbladder carcinoma. Thirteen patients (32%) required biliary-tract decompression by ERCP or PTC because of obstructive jaundice; 34 (83%) had disease outside the biliary tree or the gallbladder fossa. Metastatic liver involvement was more common in patients with gallbladder carcinoma (n = 17) than in those with cholangiocarcinoma (n = 8; P = 0.03). Of the 41 patients enrolled, 3 patients could not be evaluated for response, 1 withdrew consent to participate, and 2 were lost to follow-up after the first cycle. None of the patients had been exposed to radiotherapy or chemotherapy before enrollment in the study. However, 9 patients with gallbladder carcinoma (47%) underwent a cholecystectomy before PIAF treatment. The overall response rate was 21% (one-sided 95% CI, 11–32%). Of the 21 evaluable patients with cholangiocarcinoma 2 had a PR and a response rate of 9%; and of the 17 patients with gallbladder carcinoma, 1 had a CR and 5 had a PR, for a response rate of 35% (one-sided 95% CI, 16–54%). In addition, 1 patient with cholangiocarcinoma and 1 patient with gallbladder carcinoma had minor responses (Table 3) . Disease did not become resectable in any of these patients despite radiological responses. Before- and after-treatment CT scans of 2 patients with responding disease are shown in Figs. 1 and 2 . Radiological results were correlated with changes in CEA levels. A significant decrease in CEA serum level as compared with the baseline values was observed among all of the patients with CR and PR, with a median decrease of 83% (range of decrease, 60–99%). Conversely, 10 of 18 patients with disease progression showed an increase in their follow-up serum CEA levels. The estimated median increase was 228% compared with baseline values (range of increase, 6.6–1366%). The remaining 8 patients with progressive disease showed normal levels of CEA at baseline, and that value remained stable throughout the study.

View larger version (122K): [in this window] [in a new window] [Download PPT slide]   Fig. 1. A 60-year-old male with cholangiocarcinoma. Top, pretreatment CT scan; bottom, CT scan after 4 months of treatment with PIAF.

View larger version (111K): [in this window] [in a new window] [Download PPT slide]   Fig. 2. A 47-year-old female with gallbladder carcinoma. Top, pretreatment CT scan; bottom, CT scan after 9 months of treatment with PIAF.

View larger version (11K): [in this window] [in a new window] [Download PPT slide]   Fig. 3. Survival curve of all 41 patients with biliary tree cancers.

	DISCUSSION

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In the current study, response rates to PIAF were not different statistically for patients with cholangiocarcinoma versus those with gallbladder carcinoma, perhaps because of the relatively small number of patients tested. Despite a seemingly higher response rate, survival time for patients with gallbladder carcinoma was shorter than that for patients with cholangiocarcinoma, particularly among those with progressive disease; however, survival times of patients with responding disease were similar between the two groups. These findings may suggest that the natural history of gallbladder carcinoma, at least in this study population, may be more aggressive than cholangiocarcinoma. It also could be related to the characteristics of the patients in our series, because patients with gallbladder carcinoma had more extensive disease and a higher rate of liver involvement than did patients with cholangiocarcinoma.

The rationale for selecting this four drug combination (PIAF) was based on the activity reported previously of 5-FU and rIFN-2b (6) and the activity of doxorubicin (12 , 13) and cisplatin (7) in biliary tree cancers. To improve tolerance to cisplatin, dexamethasone was added once as antiemetic, with the assumption that a single administration of steroids was unlikely to abrogate the effects of all four daily doses of rIFN-2b.

One possible explanation for the inferior activity of PIAF relative to that of 5-FU and rIFN-2b for cholangiocarcinoma (6) may be the smaller doses and shorter exposure times to 5-FU in this study (500 mg/m² for 3 days every 4 weeks) relative to our earlier one (750 mg/m² for 5 days every 14 days). For gallbladder carcinoma patients, the shorter survival time despite the seemingly higher antitumor activity of PIAF may reflect large tumor burdens in these patients. Therefore, an argument could be made for conducting separate Phase II trials for gallbladder carcinoma and for cholangiocarcinoma.

In summary, the aggressive, toxic, and expensive PIAF regimen produced some dramatic antitumor responses but is probably not indicated for the treatment of cholangiocarcinoma. Continuous exposure to a fluoropyrimidine-based regimen or an oral fluoropyrimidine analogue may well be less toxic and more effective for patients with cholangiocarcinoma. Given the apparently high response rate, which included one CR in gallbladder carcinoma, PIAF chemotherapy could be used as a salvage treatment for gallbladder cancer. Nevertheless, newer agents and combinations should continue to be explored in Phase II trials.

	FOOTNOTES

 
The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked advertisement in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.

¹ Supported in part by a grant from Schering Plough, Inc., Kenilworth, NJ.

² To whom requests for reprints should be addressed, at The University of Texas M. D. Anderson Cancer Center, Department of Gastrointestinal Medical Oncology and Digestive Diseases, 1515 Holcombe Boulevard, Box 426, Houston, TX 77030. Phone: (713) 792-2828; Fax (713) 745-1163; E-mail: ypatt{at}mdanderson.org

³ The abbreviations used are: HCC, hepatocellular carcinoma; 5-FU, 5-fluorouracil; CT, computed tomography; MRI, magnetic resonance imaging; ERCP, endoscopic retrograde cholangiopancreatography; PTC, percutaneous transhepatic cholangiography; PR, partial response; CR, complete response; CEA, carcinoembryonic antigen.

⁴ M. Hassan, Y. Z. Patt, unpublished observations.

Received 9/15/00; revised 7/ 2/01; accepted 8/24/01.

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