A phase I/II trial of cisplatin, docetaxel and ifosfamide in advanced or recurrent non-small cell lung cancer

This trial was initiated to evaluate the toxicity and activity of combination chemotherapy employing cisplatin (CDDP), docetaxel (DCT) and ifosfamide (IFX) in non-small cell lung cancer (NSCLC), and to determine the maximum tolerated dose (MTD) of IFX. Chemotherapy-naive patients with advanced or recurrent NSCLC received 60 mg/m(2) DCT followed after a 3-h interval by 60 mg/m(2) CDDP on chemotherapy day 1, and IFX at an escalating dose with mesna protection on days 2-4. The chemotherapy was repeated every 3 weeks. Granulocyte colony-stimulating factor (GCSF) was administered in the event of grade 3 leukopenia/neutropenia. The patients tolerated the treatment well up to level 4 of IFX dosing 1.5 g/day, but not the IFX dose at level 6 (2.0 g/day). Additional patients were enrolled in level 5 (IFX 1.7 g/day) to evaluate the toxicity of the drugs around the MTD. Level 5 was also judged as having exceeded the MTD, with febrile neutropenia and hepatic toxicity being observed as the dose-limiting toxicities. No toxicity-related deaths occurred. The majority of the chemotherapy courses were supported by GCSF administration. A total of 33 eligible patients were entered into the trial; the overall response rate was 10/33 or 30% among all eligible cases, and the rate for patients treated with the MTD or higher (levels 4-6) was 8/24, or 33% (90% confidence limit: 18-52%). The MTD of IFX was 1.5 g/m(2) administered for 3 days in this triplet combination. The clinical activity does not seem to justify the toxicity profile.     

Phase I study of docetaxel plus S-1 combination chemotherapy for recurrent non-small cell lung cancer

S-1 is a novel oral fluorouracil prodrug that plays a role in non-small cell lung cancer (NSCLC). Docetaxel (DTX) is one of the standard agents for relapsed NSCLC. We performed a phase I study of DTX plus S-1 combination therapy as second-line treatment for NSCLC to determine the maximum tolerated dose (MTD) and recommended dose (RD). Patients with recurrent NSCLC, aged 20-74 years with an Eastern Cooperative Oncology Group performance status of 0-1 and measurable lesions, were enrolled. The treatment consisted of four dose levels. The patients received DTX (40-60 mg/m(2) intravenously on day 1) and S-1 (65-80 mg/m(2) orally, daily on days 1-14) for each 21-day cycle. Three to six patients were treated at each dose level with the two drugs, with MTD defined as the dose level at which dose-limiting toxicity (DLT) occurred in 33% of the patients. A total of 17 patients were enrolled. At dose level 4 (DTX, 60 mg/m(2); S-1, 80 mg/m(2)) 3 of 5 patients experienced DLT and this level was regarded as the MTD. Therefore, dose level 3 (DTX, 60 mg/m(2); S-1, 65 mg/m(2)) was selected as the RD for subsequent studies. The DLTs were neutropenia (grade 4) and mucositis (grade 3). The response rate was 5.9% (1 of 17 patients achieved a partial response) and 14 of 17 patients achieved stable disease. This combination regimen showed a tolerable and manageable profile in recurrent NSCLC and therefore warrants further evaluation.     

Paclitaxel, epirubicin and cyclophosphamide combination in first-line treatment of metastatic breast cancer: a dose escalation study

The purpose of this study was to determine the maximum tolerated dose (MTD) and dose-limiting toxicity (DLT) of combined paclitaxel, epirubicin and cyclophosphamide in patients with metastatic breast cancer. The dose of paclitaxel was planned to be escalated from 150 to 225 mg/m(2)in 25 mg/m(2) steps, while the doses of epirubicin and cyclophosphamide were fixed at 50 and 500 mg/m(2), respectively. Because of DLT, the dose of paclitaxel was maintained at 200 mg/m(2) and the dose of epirubicin was increased to 90 mg/m(2). The MTD was reached at a dose of paclitaxel and epirubicin of 200 and 75 mg/m(2), respectively. DLT were mainly febrile neutropenia and grade 4 neutropenia lasting for > or =7 days. Among the 35 evaluable patients, there were 2 (6%) complete responses and 19 (53%) partial responses for an overall response rate of 59% [95% confidence interval (CI): 41-74%]. The triplet paclitaxel/epirubicin/cyclophosphamide is an effective and well-tolerated combination worthy of further investigation in the treatment of patients with metastatic breast cancer.     

Dose escalation study of paclitaxel in combination with fixed-dose irinotecan in patients with advanced non-small cell lung cancer (JCOG 9807)

BACKGROUND: Both irinotecan (CPT) and paclitaxel (Pac) are effective against non-small cell lung cancer (NSCLC), and besides, preclinical studies have demonstrated an additive or synergistic interaction between camptothecin and taxane. METHODS: We conducted a phase I/II study of combination chemotherapy consisting of Pac and CPT to determine qualitative and quantitative toxicities and efficacy of the combination against advanced NSCLC. We fixed the dose of CPT at 60 mg/m(2) and escalated the Pac dose in 10 or 20 mg/m(2) increments from a starting dose of 80 mg/m(2), and repeated the cycle every 2 weeks. Prophylactic G-CSF was also administered. RESULTS: Between February 1999 and April 2001, 24 patients were registered in the study. None of the patients had a history of prior chemotherapy, but surgical resection had been performed in 3 of them. None of the patients experienced dose-limiting toxicity (DLT) up to and including level 6. At dose level 7 of Pac, 180 mg/m(2), 2 patients experienced DLT, that is grades 2 and 3 dyspnea due to pneumonitis. Another patient experienced grade 1 dyspnea due to pneumonitis. Neutropenia, diarrhea, and other toxicities were mild; however, we concluded that dose level 7 of Pac was the maximum-tolerated dose. An objective response was observed in 58.3%. The median survival time was 370 days, and the 1-year survival rate was 54.2%. CONCLUSION: Pneumonitis was the DLT in this study, and Pac 160 mg/m(2) and CPT 60 mg/m(2) every 2 weeks are recommended for the phase II study. This combination shows appreciable activity against NSCLC.     

Phase 1 dose escalation study of docetaxel with filgrastim support in patients with advanced solid tumors

Docetaxel has demonstrated activity in a broad range of solid tumors. Phase I trials have shown 100 mg/m(2) every 21 d to be the recommended dose. This phase I trial was designed to define the dose-limiting toxicities (DLTs) and maximum tolerated dose (MTD) of docetaxel with granulocyte colony-stimulating factor (G-CSF) support in patients with advanced solid tumors. Eligible patients had advanced malignancies and up to two prior chemotherapy regimens, ECOG PS = 0 1, adequate organ function, and gave written, informed consent. Docetaxel was escalated in cohorts of patients starting at 100 mg/m(2) on a 21-d schedule. Prophylactic G-CSF was administered on d 3 10. The DLT was defined as grade IV neutropenia >4 d, febrile neutropenia, grade IV thrombocytopenia, any grade III nonhematologic toxicity, or the inability to receive cycle 2 because of ongoing toxicity. Twenty-three patients were enrolled at doses up to 145 mg/m(2). The median age was 59 yr and the median number of prior chemotherapy regimens was 1. No DLT was observed at 100 mg/m(2), and 2 of 11 patients at 120 mg/m(2) experienced DLT (neutropenic fever and stomatitis). At 145 mg/m(2), one of eight patients had DLT (fatigue). Two of eight patients at 145 mg/m(2) had brief grade IV neutropenia (without fever), and none had grade III-IV thrombocytopenia or anemia. The docetaxel dose can be safely escalated to 145 mg/m(2) every 21 d with GCSF support, a 45% increase above the standard recommended phase II dose. Further studies will clarify the role of dose-intensified docetaxel.     

Phase I trial of outpatient weekly docetaxel, carboplatin and concurrent thoracic radiation therapy for stage III unresectable non-small-cell lung cancer: a Vanderbilt cancer center affiliate network (VCCAN) trial.

PURPOSE: Docetaxel, an active agent for non-small cell lung cancer (NSCLC), has demonstrated activity as a radiosensitizer in numerous pre-clinical studies. We conducted a phase I trial to determine the maximum-tolerated dose (MTD) and dose-limiting toxicities (DLT) of weekly Docetaxel, Carboplatin with concurrent thoracic radiation therapy (TRT) in patients with unresectable stage III NSCLC. PATIENTS AND METHODS: In this phase I clinical trial, Docetaxel was administered weekly as a 1-h intravenous infusion for 6 weeks with a starting dose of 20 mg/m(2). Docetaxel doses were escalated by 10 mg/m(2) increments in successive cohorts of three patients. DLT was defined as grade >or=3 nonhematologic and hematologic toxicity according to RTOG toxicity criteria. Once the DLT of Docetaxel alone was reached, weekly Carboplatin (AUC 2) was added at a DLT-2 dose of Docetaxel (two dose levels below that of dose limiting toxicity). Docetaxel doses were again escalated at 10 mg/m(2) increments in successive cohorts of three new patients to define further DLT and MTD of Docetaxel/Carboplatin with TRT. TRT was administered to the primary tumor and regional lymph nodes (40 Gy) followed by a boost to the tumor (20 Gy). RESULTS: Fifteen patients were entered onto this study with Docetaxel alone through three dose escalations (from 20 to 40 mg/m(2) weekly). The DLT of weekly Docetaxel/TRT was esophagitis and the MTD was 30 mg/m(2) per week for 6 weeks. Nine more patients were added with the Docetaxel/Carboplatin/TRT regimen. The DLT of weekly Docetaxel/Carboplatin with TRT was esophagitis and the MTD of Docetaxel was 20 mg/m(2) per week with weekly Carboplatin (AUC 2). There were 2 complete responses and 13 partial responses in 25 evaluable patients (RR 60%). CONCLUSIONS: This combination regimen has activity with manageable toxicity in patients with stage III NSCLC. A phase II study is planned to define activity.     

Phase I study of TZT-1027, a novel synthetic dolastatin 10 derivative and inhibitor of tubulin polymerization, given weekly to advanced solid tumor patients for 3 weeks

TZT-1027 is a novel synthetic dolastatin 10 derivative that inhibits tubulin polymerization. A phase I study was conducted to determine the maximum tolerated dose (MTD) of TZT-1027, and to assess its pharmacokinetic profile in Japanese patients with advanced solid tumors following administration of the drug weekly for 3 weeks. Eligible patients had advanced solid tumors that failed to respond to standard therapy or for which no standard therapy was available, and met the following criteria: performance status ≤2 and acceptable organ function. The MTD was defined as the highest dose at which more than two-thirds of the patients experienced grade 4 hematological toxicity or grade 3/4 non-hematological toxicity during weekly TZT-1027 administration for 3 weeks. Forty patients were enrolled in the present study. Twelve doses between 0.3 and 2.1 mg/m² were evaluated. Grade 4 neutropenia was the principal dose-limiting toxicity (DLT). At a dose of 2.1 mg/m², two patients developed DLT: one patient developed grade 4 neutropenia, grade 3 myalgia, and grade 4 constipation, and the other one developed grade 4 neutropenia and grade 3 constipation. At a dose level of 1.8 mg/m², toxicity was acceptable and no DLT was observed. The area under the curve and maximum concentration of TZT-1027 tended to increase linearly with the dose. The DLT observed were neutropenia, myalgia, and constipation, and the MTD was 2.1 mg/m². The recommended dose for a phase II study was determined to be 1.8 mg/m² for the drug administered weekly for 3 weeks. ( Cancer Sci 2009; 100: 316–321)     

Phase I/II study of escalating doses of vinorelbine in combination with oxaliplatin in patients with advanced non-small-cell lung cancer.

PURPOSE: Oxaliplatin is a platinum compound active in non-small-cell lung cancer (NSCLC) patients, and vinorelbine (VNB) is an active reference agent. This phase I/II study was performed to determine the dose-limiting toxicity (DLT), the maximum-tolerated dose (MTD), and the recommended dose (RD) of a VNB/oxaliplatin combination given to previously untreated patients with advanced NSCLC. PATIENTS AND METHODS: Oxaliplatin was given at the fixed dose of 130 mg/m2 (2-hour intravenous [IV] infusion) on day 1. VNB was administered on days 1 and 8 (10-minute IV infusion), with doses starting at 22 mg/m2/d and escalated by 2 mg/m2 increments until MTD. Treatment was repeated every 3 weeks. No special hydration measures or prophylactic granulocyte colony-stimulating factors were used. RESULTS: Twenty-seven patients (20 men, 7 women) received 110 cycles total at six different VNB dose levels. Neutropenia was the DLT. Although no patient experienced DLT at the highest dose level (32 mg/m2/d), multiple treatment delays (54% of cycles) and dose reductions (34% of cycles) were required at this dose level. Others toxicities were mainly limited to grade 1 peripheral neuropathy and grade 1/2 nausea/vomiting. The relative dose-intensity of administered VNB from dose levels 3 to 6 (26 to 32 mg/m2) remained stable, whereas grade 3/4 neutropenia increased. All patients were assessable for activity; there were 10 objective responses, including one complete response (37% response rate). CONCLUSION: The present combination can be safely administered in an outpatient setting. The RD is VNB 26 mg/m2 days 1 and 8 with oxaliplatin 130 mg/m2 day 1 every 3 weeks.     

Phase I and pharmacokinetic study of anhydrovinblastine every 3 weeks in patients with refractory solid tumors

PURPOSE: Anhydrovinblastine (AVLB) is a novel semisynthetic vinca alkaloid. We conducted a phase I trial to determine the maximum tolerated dose (MTD), dose-limiting toxicities (DLT) and pharmacokinetics of AVLB given as a 1-h intravenous infusion once every 3 weeks in patients with advanced refractory solid tumors. PATIENTS AND METHODS: Entered into the study were 24 patients with normal bone marrow, hepatic and renal function, and of these 21 were evaluable. There were 12 males and 12 females with a median age of 60 years (range 27-75 years). Diagnoses were non-small-cell lung cancer (NSCLC) (11), colorectal cancer (5), soft tissue sarcoma (4), and miscellaneous (4). Patients had had a median of three prior chemotherapy regimens (range one to six). A total of 51 courses were administered at doses of 2.5, 5, 10, 16.5, 21, 25 and 30 mg/m(2) in one, three, one, three, six, six and one patient respectively. RESULTS: Grade 2 infusional hypertension, anemia, and dizziness were noted at 16.5 mg/m(2). At 25 mg/m(2), two of six evaluable patients had DLT. DLT was grade 4 constipation, neutropenia and grade 3 nausea/vomiting. At 21 mg/m(2) one of six evaluable patients had DLT (grade 3 nausea/vomiting). This dose was the MTD. Stable disease was noted in one patient with metastatic sarcoma to the lungs and in three patients with metastatic NSCLC. The pharmacokinetics of AVLB were linear, and well characterized by a two-compartment model, with a mean clearance of 26.4 l/h per m(2) and median terminal half-life of 18 h. CONCLUSIONS: The recommended phase II dose is 21 mg/m(2). A phase II study in NSCLC is being initiated.     

Phase Ⅰ/Ⅱ study of gemcitabine and oxaliplatin chemotherapy in combination with concurrent 3-D conformal radiotherapy for locally advanced non-small cell lung cancer

Background and objective Recent studies have showed that combination of chemotherapy and radiotherapy might result in better outcome for locally advanced non-small cell lung cancer (NSCLC). The aim of this study is to determine the maximal tolerance dose (MTD) and efficacy of full-dose gemcitabine and oxaliplatin when given concurrently with 3-dimentional radiation therapy (3D-RT) for locally advanced NSCLC. Methods Oxaliplatin was administered at a fixed dose of 130 mg/m2, and gemcitabine was administered at a starting dose of 800 mg/m2 with an incremental dose gradient of 200 mg/m2 for 3 dose levels. MTD was defined as the immediate dose level lower than the dose at which dose-limiting toxicity (DLT) occurred in more than one-third of the patients. The chemotherapy was administered at 3-week cycle. The RT was given as 3-D conformal manner at a single daily dose of 2 Gy for 5 days per week. Results Twenty-two patients were evaluable and distributed to three different dose levels: 6 at level 1, 8 at level 2 and 8 at level 3. Pulmonary toxicity, esophageal and hematologic toxicity were the main DLT. Grade Ⅲ acute pulmonary toxicity occurred in one patient each at level 2 and level 3, both with V20＞20%, and grade Ⅲ esophagitis in two patients at level 3. The MTD of gemcitabine in this study was 1000 mg/m2. The overall response rate was 75.0% (9/12). The 1- and 2-year survival rate was 70.0% and 30.5% respectively. The median time to progression was 8.7 months (range 5--11.8 months). Conclusion With reduced radiation volume, gemcitabine of 1000 mg/m2 in combination with oxaliplatin of 130 mg/m2 was effective and could be safely administered for NSCLC.     

Genotype-directed, dose-finding study of irinotecan in cancer patients with UGT1A1*28 and/or UGT1A1*6 polymorphisms

Irinotecan-induced severe neutropenia is associated with homozygosity for the UGT1A1*28 or UGT1A1*6 alleles. In this study, we determined the maximum-tolerated dose (MTD) of irinotecan in patients with UGT1A1 polymorphisms. Patients who had received chemotherapy other than irinotecan for metastatic gastrointestinal cancer were enrolled. Patients were divided into three groups according to UGT1A1 genotypes: wild-type (*1/*1); heterozygous (*28/*1, *6/*1); or homozygous (*28/*28, *6/*6, *28/*6). Irinotecan was given every 2 weeks for two cycles. The wild-type group received a fixed dose of irinotecan (150 mg/m(2)) to serve as a reference. The MTD was guided from 75 to 150 mg/m(2) by the continual reassessment method in the heterozygous and homozygous groups. Dose-limiting toxicity (DLT) and pharmacokinetics were evaluated during cycle 1. Of 82 patients enrolled, DLT was assessable in 79 patients (wild-type, 40; heterozygous, 20; and homozygous, 19). Dose-limiting toxicity occurred in one patient in the wild-type group, none in the heterozygous group, and six patients (grade 4 neutropenia) in the homozygous group. In the homozygous group, the MTD was 150 mg/m(2) and the probability of DLT was 37.4%. The second cycle was delayed because of neutropenia in 56.3% of the patients given the MTD. The AUC(0-24 h) of SN-38 was significantly greater (P < 0.001) and more widely distributed in the homozygous group. Patients homozygous for the UGT1A1*28 or UGT1A1*6 allele can receive irinotecan in a starting dose of 150 mg/m(2), but many required dose reductions or delayed treatment in subsequent cycles. UMIN Clinical Trial Registration number: UMIN000000618.     

Gemcitabine and oxaliplatin for patients with advanced or metastatic pancreatic cancer: a North Central Cancer Treatment Group (NCCTG) phase I study.

BACKGROUND: The study was performed to determine the maximum tolerated dose (MTD) of gemcitabine and oxaliplatin in patients with advanced or metastatic pancreatic adenocarcinoma (ACA). PATIENTS AND METHODS: Pancreatic ACA patients, with previously untreated advanced or metastatic disease, were enrolled in a dose escalation study of gemcitabine and oxaliplatin. Oxaliplatin was given intravenously on day 1 and gemcitabine intravenously on days 1 and 8 of a 3-week cycle. Doses of both drugs were increased with sequential cohorts of patients until dose-limiting toxicity (DLT) was observed. RESULTS: A total of 18 patients were enrolled to three dose levels. DLT of neutropenia and a severe infection was noted at a dose of gemcitabine 1250 mg/m2 and oxaliplatin 130 mg/m2. Hematological toxicity and nausea and vomiting were the most common grade 3/4 toxicities. The MTD, gemcitabine 1000 mg/m2 and oxaliplatin 100 mg/m2, was well tolerated. Three confirmed responses were seen. CONCLUSIONS: The MTD of gemcitabine and oxaliplatin in patients with pancreatic ACA was determined. A phase II study of this combination is ongoing and will be reported separately at a later date.     

A phase I trial of pemetrexed plus gemcitabine given biweekly with B-vitamin support in solid tumor malignancies or advanced epithelial ovarian cancer

PURPOSE: To determine the maximally tolerated dose (MTD) of biweekly pemetrexed with gemcitabine plus B(12) and folate supplementation in patients with advanced solid tumors and ovarian cancer. EXPERIMENTAL DESIGN: Patients with no prior pemetrexed or gemcitabine therapy enrolled in cohorts of three, expanding to six if dose-limiting toxicity (DLT) was observed. Pemetrexed, escalated from to 700 mg/m(2), was given before gemcitabine 1,500 mg/m(2) every 14 days. DLTs were grade 4 neutropenia lasting >7 days or febrile neutropenia, grade 4 or 3 thrombocytopenia (with bleeding), grade > or =3 nonhematologic toxicity, or treatment delay of > or =1 week due to unresolved toxicity. RESULTS: The ovarian cancer cohort enrolled 24 patients with unlimited prior cytotoxic chemotherapies. MTD was observed at pemetrexed 600 mg/m(2), with 2 of 9 patients experiencing DLT. Most common grade 3 to 4 toxicities per patient were neutropenia (83%), leukopenia (67%), lymphopenia (73%), and febrile neutropenia (12%). Median cycle per patient was 8 (range, 1-16). Six of 21 (28%) patients had confirmed partial responses. Study protocol was modified for the solid tumor cohort (n = 30) to enroll patients with two or more prior cytotoxic regimens. MTD was observed at pemetrexed 500 mg/m(2), with 1 of 9 patients experiencing DLT. Most common grade 3 to 4 toxicities per patient were neutropenia (63%), lymphopenia (43%), leukopenia (70%) and febrile neutropenia (6.6%). Median cycle per patient was 4 (range, 1-20). Three of 29 (10.3%) response-evaluable patients had confirmed partial responses: 2 squamous cell carcinomas of head and neck and 1 nasopharyngeal cancer. CONCLUSION: MTDs for the solid tumor and ovarian cancer cohorts were reached at pemetrexed 500 and 600 mg/m(2), respectively, given biweekly with gemcitabine 1,500 mg/m(2).     

A phase I trial of outpatient weekly docetaxel and concurrent radiation therapy for stage III unresectable non small-cell lung cancer: a Vanderbilt Cancer Center Affiliate Network (VCCAN) Trial

Docetaxel has demonstrated activity as a radiosensitizer in numerous preclinical studies, probably due to its role as a cell cycle synchronizer for the G2/M radiosensitive phase of the cell cycle. We conducted a phase I trial to determine the maximum-tolerated dose (MTD) and dose-limiting toxicities (DLT) of docetaxel with concurrent thoracic radiation therapy (TRT) to patients with unresectable stage III non small-cell lung cancer (NSCLC). Fifteen patients were entered into this study. Docetaxel was administered as a 1-hour intravenous (I.V.) infusion, repeated every week for 6 weeks with starting dose of 20 mg/m2. Doses were escalated in 10 mg/m2 increments in successive cohorts of three new patients, if tolerated. Unacceptable toxicity was defined as grade = 3 nonhematologic or hematologic toxicity according to Eastern Cooperative Oncology Group (ECOG) toxicity criteria. TRT was administered to the primary tumor and regional lymph nodes (40 Gy) followed by a boost to the tumor (20 Gy). At the first dose level (20 mg/m2/week), one patient developed grade 4 hyperglycemia and accrual was expanded to five patients. At the second level (30 mg/m2/week), two out of six patients developed grade 3 esophagitis. At the third level (40 mg/m2/week), two out of four patients developed grade 3 esophagitis and one patient developed grade 3 pulmonary toxicity. The weekly docetaxel MTD with concurrent radiation therapy (RT) was found to be 30 mg/m2. The DLT was esophagitis and pulmonary toxicity. Other toxicities encountered included skin reaction, nausea and vomiting, as well as diarrhea. Additionally, there were no treatment-related mortalities or late-occurring toxicities. Esophagitis was the principal DLT of concurrent weekly docetaxel and thoracic radiation in the outpatient setting. The MTD of concurrent weekly docetaxel with TRT is 30 mg/m2 weekly for 6 weeks. This study is still open to accrual with weekly docetaxel and TRT in locally advanced NSCLC patients.     

Thoracic radiotherapy and daily vinorelbine as radiosensitizer in locally advanced non small cell lung cancer: a phase I study

Experimental studies have shown that vinorelbine is a powerful radiosensitizer in vitro. To date, no reports on clinical activity of the single agent vinorelbine as radiosensitizer have been published. The aim of the present phase I study was to determine the maximum tolerated dose (MTD) of vinorelbine administered daily concurrently with thoracic radiotherapy, with or without amifostine support, in the treatment of locally advanced non small cell lung cancer. In vitro studies have shown that vinorelbine can potentiate the antitumor effects of radiation therapy. Amifostine is a sulphydril compound that has shown to protect normal tissues from chemotherapy and radiotherapy-induced toxicities. Radiotherapy lasted 6 weeks and the total dose was 55 Gy. The daily fraction was 1.8 Gy, administered 5 days a week for 5 weeks and increased to 2.0 Gy during the sixth and last week. Concurrent vinorelbine was administered daily with a planned escalation of the dose from 4, to 5 and 6 mg/m(2). Fourteen patients were enrolled in the study. The first dose of vinorelbine was 4 mg/m(2) and it showed to be feasible without dose-limiting toxicity (DLT). Instead, the second dose level of 5 mg/m(2) was unfeasible because three out of six patients had DLT (grade 4 neutropenia, treatment interruption longer than 2 weeks for prolonged grade 2 neutropenia and treatment interruption longer than 2 weeks for prolonged grade 3 esophagitis together with grade 4 dyspnea). At that time, the study continued adding amifostine to vinorelbine in order to increase its MTD. Amifostine was administered by means of subcutaneous injection 15 min before each radiotherapy fraction at the fixed dose of 300 mg/m(2). However, 5 mg/m(2) of vinorelbine were considered unfeasible even with amifostine support because three out of five patients showed DLT (grade 4 neutropenia, febrile grade 4 neutropenia and grade 3 liver toxicity). Among 14 patients enrolled in the study, eight completed the planned treatment because six patients experienced DLT, which determined treatment interruption. Overall, four partial and two complete responses were observed. Two partial and one complete response were observed in those three patients who had been treated with the first dose of vinorelbine. In conclusion, our data show that the MTD of daily vinorelbine is 4 mg/m(2). Therefore, this is the recommended dose of daily vinorelbine to be administered with concurrent thoracic radiotherapy in a phase II trial. Finally, amifostine administered subcutaneously failed to increase the MTD of daily vinorelbine.     

A dose-escalation study of pemetrexed and docetaxel in non-small-cell lung cancer

A phase I study was conducted to determine the maximum tolerated doses (MTD) and the dose-limiting toxicities (DLT) of pemetrexed and docetaxel in patients with advanced unresectable or metastatic non-small-cell lung cancer (NSCLC). Patients were treated with escalating doses of pemetrexed (400-600 mg/m(2) as a 10-min intravenous infusion) and docetaxel (65-85 mg/m(2) as a 1-h intravenous infusion) on day 1, every 3 weeks. An expanded accrual at the level of the recommended dose (RD) had been scheduled. Forty-two patients with metastatic NSCLC were enrolled in the phase I study and 20 additional patients at the RD level. The MTD could not be reached even at the doses of 550 and 85 mg/m(2) for pemetrexed and docetaxel, respectively, which are higher than the recommended dose for each drug given as a single agent. Therefore, the RD was defined at 500 mg/m(2) pemetrexed and 75 mg/m(2) docetaxel. Among the 164 administered chemotherapy cycles (phase I part), there were three episodes of febrile neutropenia whereas 13 (7.9%) and 11 (6.7%) cycles were complicated with grade III and IV neutropenia, respectively. Three patients developed grade III/IV thrombocytopenia. Non-hematologic toxicity was mild with grade III fatigue occurring in three (6.7%) patients. There was no toxic death. The favorable toxicity profile of the regimen was confirmed in patients treated at the RD level. Overall, one complete (CR) and 13 partial responses (PR) (overall response rate = 23; 95% C.I:12.4-33.5%] were documented. The combination of pemetrexed and docetaxel seems to be an effective regimen in NSCLC with acceptable and manageable toxicity, which merits further investigation.     

Dose-finding study of fixed dose gemcitabine and escalating doses of ifosfamide given on days 1 and 8 in patients with advanced non-small cell lung cancer

This is a dose-finding study of fixed dose gemcitabine and escalating doses of ifosfamide, in chemo na?ve patients with advanced non-small cell lung cancer. The purpose of the study was to determine the optimal dosage and the maximal tolerated dose (MTD) of a specified schedule of gemcitabine and ifosfamide. Patients received gemcitabine 1250 mg/m2 and ifosfamide between 1.6 and 2.2 g/m2, intravenously, on days 1 and 8, repeated every 3 weeks for a maximum of four cycles. RESULTS: Sixteen patients entered the study. Three patients were entered at the first dose level of ifosfamide (1.6 g/m2) and none experienced any dose limiting (DLT) toxicity. In dose level 2 (1.8 g/m2), two patients had grade IV haematological toxicities, but they reached 21 days without any other dose limiting toxicity (DLT). Three further patients entered at this level but they were withdrawn due to disease progression. The sixth patient entered without any DLT. Three patients entered dose level 3 (2.0 g/m2), without any grade IV toxicity. The first patient entered into dose level 4 (2.2 g/m2), had progressive disease within 21 days and was withdrawn and another three were entered and had no DLT during the first 21 days. Four (33%) of the patients had stable disease and 67% had progressive disease. CONCLUSION: The MTD of the ifosfamide gemcitabine combination was not reached in the present study, as no DLT was observed. This combination at the dose levels of this protocol has little or no activity in patients with advanced NSCLC.     

Phase I and pharmacokinetic study of docetaxel and irinotecan in patients with advanced solid tumors.

PURPOSE: We conducted a phase I and pharmacokinetic study of docetaxel in combination with irinotecan to determine the dose-limiting toxicity (DLT), the maximum-tolerated dose (MTD), and the dose at which at least 50% of the patients experienced a DLT during the first cycle, and to evaluate the safety and pharmacokinetic profiles in patients with advanced solid tumors. PATIENTS AND METHODS: Patients with only one prior chemotherapy treatment (without taxanes or topoisomerase I inhibitors) for advanced disease were included in the study. Docetaxel was administered as a 1-hour IV infusion after premedication with corticosteroids followed immediately by irinotecan as a 90-minute IV infusion, every 3 weeks. No hematologic growth factors were allowed. RESULTS: Forty patients were entered through the following seven dose levels (docetaxel/irinotecan): 40/140 mg/m(2), 50/175 mg/m(2), 60/210 mg/m(2), 60/250 mg/m(2), 60/275 mg/m(2), 60/300 mg/m(2), and 70/250 mg/m(2). Two hundred cycles were administered. Two MTDs were determined, 70/250 mg/m(2) and 60/300 mg/m(2); the DLTs were febrile neutropenia and diarrhea. Neutropenia was the main hematologic toxicity, with 85% of patients experiencing grade 4 neutropenia. Grade 3/4 nonhematologic toxicities in patients included late diarrhea (7.5%), asthenia (15.0%), febrile neutropenia (22.5%), infection (7.5%), and nausea (5.0%). Pharmacokinetics of both docetaxel and irinotecan were not modified with the administration schedule of this study. CONCLUSION: The recommended dose of docetaxel in combination with irinotecan is 60/275 mg/m(2), respectively. At this dose level, the safety profile is manageable. The activity of this combination should be evaluated in phase II studies in different tumor types.     

Phase I study of weekly paclitaxel and liposomal doxorubicin in patients with advanced solid tumours

The aim of this study was to determine the maximum tolerated dose (MTD) and the dose-limiting toxicities (DLT) of a weekly administration of paclitaxel and pegylated liposomal doxorubicin (Caelyx; Schering Plough Pharmaceutical) in patients with advanced solid tumours. 19 pretreated patients with solid tumours received escalated doses of pegylated liposomal doxorubicin (6-12 mg/m(2)) as a 1-h intravenous (i.v.) infusion followed by a fixed dose of paclitaxel (80 mg/m(2)) weekly for 4 consecutive weeks in cycles of 6 weeks. DLT was defined as grade 4 neutropenia or thrombocytopenia, febrile neutropenia, grades 3 or 4 non-haematological toxicity or treatment delay due to unresolved toxicity during cycle 1. The MTD was reached at the dose of pegylated liposomal doxorubicin of 10 mg/m(2)/week and paclitaxel of 80 mg/m(2)/week. The DLTs were treatment delay due to grade 3 neutropenia and grade 3 diarrhoea. A total of 55 chemotherapy cycles were administered, and grades 3-4 neutropenia occurred in seven cycles (13%); the non-haematological toxicity was mild with grades 2/3 diarrhoea occurring in 4 (7%), grades 2-4 asthenia in 11 (20%) and grade 2 mucositis in 7 (13%) cycles. There was no case with more than a 10% LVEF decrease after a median of 3 (range 2-6) administered cycles/patients. One patient with breast cancer and 1 with ovarian cancer experienced a major partial response. The weekly administration of pegylated liposomal doxorubicin at the dose of 10 mg/m(2) in combination with paclitaxel at the dose of 80 mg/m(2) for 4 consecutive weeks, in cycles of 6 weeks which represent the recommended doses for further phase II studies, is a well tolerated regimen, which merits further evaluation in tumours known to be sensitive to taxanes and/or anthracyclines.     

A phase I and pharmacokinetic study of BAY59: a novel taxane

PURPOSE: To determine the maximum tolerated dose (MTD), the dose limiting toxicities (DLT) and the pharmacokinetics of BAY59, a novel taxane given as a 1-hour intravenous infusion every 3 weeks in patients with advanced refractory solid tumors. EXPERIMENTAL DESIGN: Initially, 15 patients with previously treated (median of 4 prior chemotherapy regimens) refractory cancers, but with normal marrow, hepatic and renal function were treated with BAY59 at doses of 15, 30, 50, 75 and 100 mg/m2 using a standard dose escalation design. Subsequently, 11 patients were treated, 5 at 90 mg/m2 and 6 who had had prior oxaliplatin at 75 mg/m2. RESULTS: At 75 mg/m2, grade 4 neutropenia was noted in 2/6 patients, of whom 1 had grade 4 neutropenia lasting more than 5 days (DLT). At 100 mg/m2, 2/2 patients had febrile neutropenia, with 1 fatality. At 90 mg/m2, 2/5 patients had DLTs, including grade 3 neuropathy, severe lower extremity pain, dehydration and grade 4 neutropenia. The MTD was determined to be 75 mg/m2. A cohort of 6 patients, previously exposed to oxaliplatin, were enrolled at the MTD to evaluate the incidence of neurotoxicity. While DLTs (grade 3 arthralgia, grade 4 neutropenia) were noted in 3/6 patients, there was no increase in the incidence of neurotoxicity. There were no responses. Pharmacokinetics of BAY59 was linear over the doses studied, with a median terminal half-life of 21 h. CONCLUSIONS: The recommended phase II dose for BAY59 is 75 mg/m2.