1 Medical Oncology Service, 2 Pathology Service, Hospital Germans Trias i Pujol, Barcelona; 3 Hospital Municipal de Badalona, Barcelona, Spain
Received 12 February 2003; revised 28 March 2003; accepted 14 April 2003
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Abstract |
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The aim of this phase II study was to determine toxicity, response rate, time to progression, and overall survival of cisplatin, etoposide and gemcitabine in patients with carcinoma of unknown primary tumour site.
Patients and methods:
Thirty patients with no previous chemotherapy and not belonging to a treatable group were treated with cisplatin 70 mg/m2 on day 1, etoposide 70 mg/m2 on days 1 and 2, and gemcitabine 700 mg m2 on days 1 and 8, administered every 3 weeks. Stable or responding patients received a maximum of eight cycles. Twenty patients (67%) had more than three affected sites, and 25 patients (84%) had adenocarcinomas.
Results:
Overall response rate was 36.6% (11 patients), including four complete responses (13.3%) and seven partial responses (23.3%), with a 95% confidence interval of 19.956. Median survival was 7.21 months and eight patients remained alive for >1 year. Myelosuppression was the most important toxicity, with grade 34 neutropenia in 18 patients (60%) in 32% of the cycles: eight patients had neutropenic fever and 10 patients had thrombopenia in 11% of cycles. No non-haematological grade 4 toxicity occurred.
Conclusions:
Cisplatin, etoposide and gemcitabine is an active combination, inducing objective responses in a subset of heavily advanced disease patients with carcinoma of unknown primary site. The role of adding gemcitabine to cisplatin and etoposide remains to be resolved as to the best schedule to diminish toxicity for the three-drug combination.
Key words: chemotherapy, gemcitabine, unknown primary site
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Introduction |
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In spite of a reasonable diagnostic approach to CUPS, 68% of patients remain with an unidentified primary site [7], and even autopsy studies fail to identify it in 1525% of cases [8]. Classically, these patients are treated with empirical chemotherapy. Monochemotherapy for CUPS yields a small percentage of responses (019%). With the advent of cisplatin, a slight increase in objective responses (2033%) with median survivals of 47 months was obtained. The combination of cisplatin or carboplatin with etoposide has shown activity, and has been used extensively in this setting with responses of 2332% (none complete) and median survival of 58 months [911]. New drugs such as taxanes have been added to this combination with a slight improvement in results, such as in the combination of taxol, carboplatin and etoposide proposed by Hainsworth et al. [12], which yielded objective responses of 47% with median survival of 13.4 months. Gemcitabine, an antimetabolite, has shown activity in lung [13, 14], pancreatic [15, 16] and biliary tract carcinomas [17], frequent origins of CUPS in necropsy series [8]. We designed this phase II study using cisplatin, etoposide and gemcitabine in order to test the addition of gemcitabine to cisplatinetoposide in previously untreated CUPS.
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Patients and methods |
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Patients were eligible if they were <70 years old, with multifocal not locally treatable disease and measurable metastatic tumour of an unidentifiable primary origin in spite of a complete examination. This included: physical examination including gynaecological in women, and global head and neck in men; chemistry profile; computed tomography scan of the chest, abdomen and pelvis; mammography in women; and investigation of any symptomatic areas such as colonoscopy, fibrogastroscopy and bronchoscopy, as indicated by patient symptoms. All pathological diagnoses were eligible, as well as differentiated adenocarcinoma, poorly differentiated adenocarcinoma (PDA), poorly differentiated carcinoma (PDC) and squamous cell carcinoma.
Treatment had to be the first-line therapy for their illness. Patients had to have a ECOG performance status (PS) <3, and adequate bone marrow function (white blood cell count 4000/µl and platelets
100 000/µl), normal liver function (bilirubin
1.5 mg/dl) and normal renal function (creatinine
1.5 mg/dl). Patients with brain metastasis were also eligible for the protocol if they had undergone surgery and/or radiotherapy treatment previous to chemotherapy. Painful bone lesions could be treated with palliative radiotherapy before the beginning of the treatment. Written informed consent was obtained prior to their participation and the study was approved by the hospitals ethics committees.
Patients were excluded if they had treatable tumours, such as women with adenocarcinoma involving only axillary lymph nodes or the peritoneal cavity, patients with squamous cell carcinoma involving only cervical lymph nodes, patients with a suspected germ cell tumour indicated by clinical characteristics and patients with prostate-specific antigen elevated in their plasma or stained in their tumour. Patients with only massive liver disease were not included in the protocol. Patients were not eligible if they had had either a recent heart attack, congestive heart failure or other severe coexistent medical illness; a history of previous malignancy within 5 years, with the exception of skin carcinoma or cervical carcinoma in situ; or pregnancy or lactation.
Treatment
Chemotherapy was as follows: cisplatin 70 mg/m2 on day 1, etoposide 70 mg/m2 on days 1 and 2, and gemcitabine 700 mg/m2 on days 1 and 8. Cycles were repeated every 21 days. Hydration with mannitol was administered on day 1. Ondasentron and dexamethasone were administered on day 1, and oral treatment for delayed emesis was recommended for four consecutive days after cisplatin. Haematological control was performed weekly, and biochemistry with creatinine clearance on day 15. The blood counts on day 1 of each course were used to modify doses as follows: if neutrophil count was >2.0 x 109/l and platelet count was 75 x 109/l, all drugs were given at full dose. If not, treatment was delayed 1 week up to a maximum of 2 weeks, and then patients were once again treated with a full dose of all agents. In the case of no recuperation within 2 weeks, the patient was removed from the protocol. Dose reductions based on the day-8 blood counts were as follows: gemcitabine was omitted if the neutrophil count was <2.0 x 109/l and the platelet count was <75 x 109/l; doses of cisplatin on day 1 were reduced to 75 or 50% in the case of an alteration of the creatinine clearance.
The use of granulacyte colony-stimulating factors (G-CSFs) was recommended for subsequent cycles in the case of neutropenic fever, and eritropoetin was used in the case of anaemia that required blood support. Patients who were hospitalised for treatment of neutropenia and fever in spite of G-CSF received 75% doses of all drugs. Patients were evaluated every cycle for non-haematological toxicity. Toxicity was graded according to the World Health Organisation common toxicity criteria version 2.0 (1999).
Response evaluation was performed after three cycles. Patients continued on treatment for six cycles in the case of stable disease and good tolerance, and for eight cycles in the case of an objective response and the absence of grade 4 toxicities.
End points
End points of the study were response rate, time to progression and overall survival. Efficacy has been analysed on an intention-to-treat basis. Complete response (CR) was defined as the complete disappearance of all clinical and radiological detectable disease for at least 4 weeks. Partial response (PR) required at least a 50% reduction in the size of all measurable lesions, as measured by the product of the greatest length and greatest width, with no new lesions appearing. Stable disease (SD) required a reduction of <50% or an increase of <25% in the size of measurable lesions, with no new lesions appearing. Patients with progressive disease (PD) had developed either any type of new lesions, or an increase of 25% in the size of any existing measurable lesion.
Time to progression was measured from day 1 of the first cycle until progression or death. Overall survival was measured from day 1 of the first cycle until death. Follow-up at the end of treatment was performed every 2 months until progression, at which time, if the primary tumour was discovered or the patient had a good PS, treatment was left to the physicians criteria. A statistical package (SPSS version 10.0) was used for statistics and descriptive factors. Actuarial survival curves were constructed using the KaplanMeier method. Quality of life end points and cost analyses were not included as part of this phase II trial.
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Results |
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Efficacy
Overall response rate was 36.6% (11 patients), which included four CR (13.3%) and seven PR (23.3%) with a 95% confidence interval (CI) of 19.9% to 56%. Moreover, seven patients (23.3%) had SD and 12 (40%) progressive tumours. Complete response patients all had three or more metastatic sites and a PS of 1 at the beginning of treatment. Figure 1 shows actuarial survival for all 30 patients. Time to progression for patients with an objective response (PR, CR) was 9.01 months (95% CI 8.0210.0), significantly better than patients with progression (2.65 months, 95% CI 2.233.08). Time to progression for CR patients was 8.95 months (95% CI 4.9112.98). Median survival was 7.21 months (95% CI 2.5911.83) for all patients, and eight patients (26%) remained alive for >1 year, ranging from 12 to 29 months (Figure 1).
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Discussion |
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These results seem to be worse than those from the combination of carboplatin, etoposide and taxol studied by Hainsworth et al. [12]. However, in that study of 55 patients, brain metastasis patients were excluded and, although they attained a 47% overall response rate and 13% CR, 18 patients (33%) in their study had only one metastatic site and 14 (25%) had only two sites; only two patients had bone metastasis. The group of patients with only one or two metastatic organs show the best survival (40 months) in retrospective studies, especially if they have no liver, bone, and pleural or adrenal lesions [18]. The patients included in our study had worse prognostic characteristics, as described previously.
The toxicity pattern of our study was slightly better than that of Hainsworth et al. [12]. We had no grade 4 non-haematological toxicity, and only grade 34 leucopenia in 37% of patients and 13% of cycles. This was in contrast to Hainsworth et al.s 76% of patients and 41% of cycles, although 60% of our patients had grade 34 neutropenia. Thrombopenia was similar: 33% of patients and 11% of cycles in our study, as compared with 26% of patients and 10% of cycles with the addition of taxol to carboplatin and etoposide. Forty-seven per cent of our patients needed blood support, as compared with 38% in the Hainsworth study. A re-analysis of the same cohort of patients with more cases and longer follow-up reproduced similar results [19].
Briasoulis et al. [20] studied a carboplatin and taxol treatment of CUPS, and attained an overall response rate of 38.7%. However, they included a subset of patients with good prognostic features: 16 women (68.4%) with peritoneal carcinomatosis had responses and contributed to the better results. This group of patients is commonly treated as ovarian cancer, with similar good response and prognosis with chemotherapy.
Other authors have not reproduced the results obtained with paclitaxel and platinum compounds with or without etoposide, in unpublished small reports [21, 22].
Another taxane, docetaxel, has also been used in this setting: 26 patients were treated with docetaxel and cisplatin, and 45 with docetaxel and carboplatin, in a recent non-randomised selective patients trial. The activity of this combination seems to be inferior to paclitaxel and carboplatin (overall responses of 26% and 22%, respectively) with median survivals of 8 months in the two groups. Once again, no brain or meningeal metastases were included, and 81% and 75%, respectively, of patients had only one or two metastatic sites [23].
The role of taxanes in this setting has not been established, and the absence of activity in pancreatic and colorectal tumours makes its use controversial in this heterogeneous group of patients.
Gemcitabine, a recent new antimetabolite compound, with a narrow antitumour activity, could be of use for these tumours. As a second-line treatment in pre-treated CUPS patients, Hainsworth et al. [24] observed PR of 8% and minor responses or SD of 25% with an improvement in symptoms and good tolerance. Recently, The Minnie Pearl Cancer Research Network Study evaluated the combination of gemcitabine, carboplatin and paclitaxel in 120 patients. Fifty-one per cent of them had multiple liver metastases and 25% had objective responses; survival was 42% at 1-year follow-up and 23% at 2 years [25]. The characteristics of the patients included in this study seem worse than in previous studies of the same authors, where only 1619% of patients presented liver metastasisa known poor prognostic characteristic in this setting [26]. Toxicity was also more manageable than in the previous studies and similar to our study: 46% grade 34 leucopenia in 32% of cycles, and 43% thrombopenia in 14% of cycles.
Gemcitabine, cisplatin and etoposide appears to be a good combination for use in this pathology. The best schedule to be used needs further study. A previous study in small-cell lung cancer used the same drugs at different doses, as etoposide was administered orally; haematological toxicity was also dose-limiting [27]. The use of gemcitabine seems convenient in this subset of patients, as it has demonstrated activity in pancreatic and lung carcinoma. However, in spite of these encouraging results, further research into the optimal number of cycles, and the impact of chemotherapy on quality of life, is warranted. Furthermore, the identification of origin of the disease by the analysis of gene expression will probably help us to identify and individualise the best treatment for each patient [28].
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Acknowledgements |
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Footnotes |
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References |
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