UMLS:C0242379 - FACTA Search

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Query: UMLS:C0242379 (lung cancer)
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The objectives of this study were to define the pharmacodynamics of etoposide and to develop potentially useful models (1) to estimate the plasma clearance using a limited number of samples and (2) to describe the relationship between clearance and the dose-limiting toxicity. A total of 17 patients with extensive-stage small-cell lung cancer were treated with 150 mg/m2 etoposide daily for 3 consecutive days and with 100 mg/m2 cisplatin on day 3 only. Both drugs were given intravenously over 1 h. Treatment was repeated every 21 days for up to six courses. All patients were newly diagnosed (no previous chemotherapy or irradiation) and had a performance status of 0-2. Six patients achieved a complete response as confirmed by repeat bronchoscopy and five patients showed a partial response, for an overall objective response rate of 65% (95% confidence interval, 38%-87%). The median survival was 8 months (range, 1-24+ months). The dose-limiting toxicity was neutropenia. Etoposide pharmacokinetics were measured during the first course and determinations were repeated during courses 3 or 4 and 6. Complete blood counts were obtained weekly. Correlations for etoposide clearance and hematologic toxicities were evaluated for 17 initial courses and for an overall number of 33 courses. Pharmacodynamic correlations were significant for graded hematologic toxicities, as well as nadirs of leukocytes, neutrophils, and platelets for the initial courses and for all courses. To reduce the requirement for numerous blood samples, a limited sampling model was developed to estimate the area under the concentration versus time curve (AUC) with the following equation: AUC = 15.45 + 3.86 x C2 + 7.10 x C4, where C2 and C4 represent the etoposide concentrations at 2 and 4 h, respectively. The total plasma clearance was calculated as the dose divided by the AUC; correlations with toxicity were better for clearance expressed in milliliters per minute than for that expressed in milliliters per minute per square meter of body surface area. The absolute neutrophil count at the nadir (ANCn) can be estimated by the following pharmacodynamic model, which is based on 33 courses: ANCn = -0.399 + 0.024 x Ecl, where Ecl represents the etoposide clearance expressed in milliliters per minute. Further studies are necessary to validate both models prospectively.
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PMID:Pharmacodynamics of three daily infusions of etoposide in patients with extensive-stage small-cell lung cancer. 133 71

Etoposide, a podophyllotoxin derivative, has demonstrated antitumor efficacy in a number of human malignancies, including lymphomas, germinal tumors, and lung cancer (especially small cell). Etoposide's antineoplastic activity is achieved through DNA strand breakage, which likely results from the formation of a complex involving drug, DNA, and the DNA unwinding enzyme, topoisomerase II. The drug's steady state volume of distribution ranges from 5 to 17 L/m2, and it is highly bound to plasma protein with an average free plasma fraction of 6%. A number of etoposide metabolites have been confirmed or postulated. Several cell lines have been shown to acquire resistance to etoposide through membrane transport changes. Considerable intrapatient variability exists in pharmacokinetic parameters following intravenous (IV) and oral dosing. Approximately 30% to 40% of unchanged IV drug is excreted in the urine, whereas biliary excretion appears a minor route of drug elimination. The bioavailability of oral etoposide averages 50%, although wide variability exists both among and within different patients. Bioavailability decreases as the dose of oral etoposide is increased. Several recent studies have attempted to correlate etoposide plasma concentrations with toxicity (primarily myelosuppression) in hopes of using this information to optimize drug dosing.
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PMID:Etoposide pharmacology. 149 25

Fifteen patients aged over 65 years of age with advanced non-small-cl lung cancer (mean age = 70.7, stage IIIb: IV = 4:11) were treated with combination chemotherapy consisting of Cisplatin (50 or 80 mg/m2) and a vinca-alkaloid (Vindesine 3 mg/m2 or Etoposide 80 mg/m2). The effectiveness and side effects of this cisplatin therapy in different combinations of vinca-alkaloid regimens (Vindesine vs Etoposide) were examined. The mean dose of Cisplatin in the Etoposide combination group (75.2 mg/m2) was significantly higher than that in the Vindesine combination group (54.3 mg/m2) (p less than 0.01). A notable reduction the tumor size was observed in 25% of the Etoposide group, only. The 6-month survival rate and one-year survival rate were respectively 85.7%, 57.1% in the Vindesine + Cisplatin group, and 87.5%, 50% in the Etoposide + Cisplatin group. The common side effects were nausea, vomiting, anorexia, and alopecia. These symptoms were either alleviated by antiemetic drugs or followed by spontaneous recovery. Leucopenia, anemia and thrombocytopenia were found in both groups, and there was no difference in the time course of myelosuppression between the two groups. The extent of nephrotoxicity was assessed by creatinine clearance rate. Its decrease in the Vindesine group (60.1----38.9 ml/min) was higher than that in the Etoposide group (64.9----48.9 ml/min), while there was no significant change in BUN, serum creatinine and urine NAG between the two groups. There were no cases in which chemotherapy schedules had to be interrupted due to myelosuppression and nephrotoxicity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Cisplatin and vinca alkaloid combination chemotherapy of advanced non-small-cell lung cancer in the aged]. 196 86

A combination phase II study was performed on 31 patients with previously untreated small-cell lung cancer (19 LD & 12 ED). Patients were treated intravenously with Adriamycin (30 mg/m2 day 1), CDDP (80 mg/m2 day 1) and Etoposide (70 mg/m2 x 3 day 1, 3, 5). This combination chemotherapy was administered over a four- or five-week period. Among 26 evaluable patients there were 4 CR and 17 PR, giving a response rate of 80.8% (68.4% in LD). The median duration of response was 19 (3-123) weeks. Despite the relatively low response rate and CR rate, the median survival times of LD and ED patients were 17.0 (3.1-43.1) and 9.4 (4.4-17.7) months, respectively. The major toxic effect of this regimen was bone marrow suppression. Two patients were excluded from this study in the first course because of severe hematologic toxicity. The renal toxicity of this regimen was minimal and no patients developed any clinical problem. Nausea and vomiting during the treatment were well controlled by high-dose metoclopramide and methylprednisolone. In conclusion, this combination of chemotherapy is effective for patients with small cell lung cancer. However, the advantage of adding Adriamycin to CDDP and Etoposide is still controversial.
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PMID:[A combination phase II study of adriamycin, CDDP and etoposide in small cell lung cancer]. 215 85

The EORTC Lung Cancer Working Party investigates various chemotherapeutic regimens in patients with bronchogenic cancer. Within 12 years our Group has conducted 8 international co-operative studies in patients with non small cell lung cancer. We have demonstrated that Cis-platin was an active agent and its activity increases in association with Etoposide, mainly in limited disease. Lastly, we tested regimens including Carboplatin. This agent does not improve results in terms of objective response. We are now testing regimens including radiotherapy after chemotherapy in limited disease.
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PMID:[Chemotherapy in non-small cell bronchial carcinoma. 12 years' experience in an international cooperative group: EORTC Lung Cancer Working Party]. 217 77

The relationship between morphological manifestations and cell kinetic changes of three lung cancer cell lines after exposure with chemotherapeutic agents was studied. After treatment with Cis-dichloro diammine platinum (II) (CDDP), an increase in cells of G2/M compartment at first, and then of S compartment was observed. As for the morphological manifestation, enlarged nuclear cells were more frequently observed. These cells seemed to be in S-G2/M compartment and to die finally. However a part of cells escaped from complete blockade may show multiple nuclei. Also after treatment with Etoposide (VP-16), an increase of G2/M compartment was observed, and on the morphological manifestation enlarged nuclear cells or double-or multiple-nuclear cells were observed. As these cells seemed to enter into G2/M compartment immediately. Cell destruction was thought to be started earlier compared with other two drugs. After treatment with Peplomycin (PEP), its effects on cell cycle traverse were only minimum accumulation of G2/M compartment in high PEP concentration. However concerning the morphological manifestation, many cells treated with PEP revealed enlarged, double or multiple nuclei. This suggests that morphological manifestation may reflect cytocydal effects more dominantly than cell cycle traverse. Each chemotherapeutic agent influenced the morphological manifestation and the cell kinetics of human lung cancer cells characteristically. It seemed to be important to study these relations in order to estimate the effect of chemotherapeutic agents and the therapeutic efficacy on cancer cells.
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PMID:[The relationship between morphological manifestations and cell kinetic changes of human lung cancer cells after exposure to chemotherapeutic agents]. 243 Aug 76

In this study, we evaluated the role of alternating chemotherapy with or without etoposide (VP-16) in patients with extensive-stage small-cell carcinoma (SCC) of the lung. All patients received initial treatment with CMC [cyclophosphamide, methotrexate, and chloroethyl-cyclohexyl-nitrosourea (CCNU)]. Four weeks after initial treatment, patients were stratified by performance score, central nervous system (CNS) metastasis, age, and response to initial CMC therapy and randomized to receive AO (doxorubicin and vincristine) or AVO (doxorubicin, VP-16, and vincristine) alternating with CMC. One hundred eighty-two eligible patients were treated with the initial cycle of CMC and 98 responded (54%). One hundred fifty-four patients were randomized to either AO/CMC or AVO/CMC. The response rates to AO/CMC and AVO/CMC were similar (72 vs. 68%). The time to progression and survival were not significantly different on the two treatment regimens. Toxicity was significantly greater for patients receiving AVO/CMC with six treatment-related deaths. Etoposide as used in this regimen did not significantly influence response rates, time to progression, or survival of patients with extensive small-cell lung cancer.
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PMID:Alternating chemotherapy with or without VP-16 in extensive-stage small-cell lung cancer. 254 4

Etoposide is an increasingly used and well-tolerated drug in cancer medicine. Its cytotoxic action is phase-specific and it has demonstrated schedule dependency in both in vitro and animal studies, but clinical evidence of the importance of drug scheduling is uncertain. The two administration schedules of etoposide that have been compared in this randomized study of 39 patients with previously untreated extensive small-cell lung cancer treated with single-agent etoposide were 500 mg/m2 as a continuous intravenous (IV) infusion over 24 hours or five consecutive daily 2-hour infusions each of 100 mg/m2. Both regimens were repeated every 3 weeks, for a maximum of six cycles. Patients received combination chemotherapy with vincristine, doxorubicin, and cyclophosphamide (VAC) or radiotherapy on failure to respond or at relapse, depending on their Karnofsky performance status. The same therapy was used in both arms of the study. All patients are evaluable for response to etoposide. In the 24-hour arm, two patients achieved a partial remission, resulting in an overall response rate of 10%. In the 5-day schedule, 16 patients had a partial response and one had a complete remission, producing an overall response rate of 89%, which was significantly superior to that in the 24-hour arm (P less than .001). The median duration of remission to etoposide in the 5-day arm was 4.5 months. Bone marrow toxicity was similar in both schedules. Etoposide pharmacokinetics were measured in all patients, and total areas under the concentration versus time curves (AUCs) were equivalent in both regimens. This study has clearly demonstrated the importance of etoposide scheduling in humans, and the superiority of five daily infusions over a 24-hour continuous infusion. The response rate to single-agent etoposide using an efficacious schedule in extensive small-cell lung cancer has been determined to be in excess of 80%.
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PMID:A randomized trial to evaluate the effect of schedule on the activity of etoposide in small-cell lung cancer. 254 4

The chemistry, pharmacology, pharmacokinetics, clinical efficacy, adverse effects, and pharmacodynamics of etoposide are reviewed. Etoposide, although similar in chemical structure to podophyllotoxin, has a different mechanism of cytotoxicity compared with its parent compound. Etoposide may stabilize type II topoisomerase-DNA complexes, preventing rejoining of single- and double-strand DNA breaks. Etoposide may also require cellular activation into intermediates, which then bind to DNA and disrupt cellular function. Oral etoposide has an average bioavailability of 50% (range, 17%-137%), with substantial intrapatient and interpatient variability. Etoposide is widely distributed in the body and is highly bound to plasma proteins (greater than 95%). Approximately 50% (range, 20%-81%) of an etoposide dose is recovered in the urine as parent drug or glucuronide, with the remainder of the dose being unaccounted for. The disposition of etoposide in patients with renal and hepatic dysfunction is discussed. Etoposide is effective in combination with other agents against lung cancer, and response rates of 90% in small-cell lung cancer have been observed. When etoposide is used in combination with other agents, response rates of approximately 80% have been observed in patients with testicular cancer. The activity of etoposide in treating leukemia, lymphoma, and breast and ovarian carcinomas and other tumors is discussed. The impact of etoposide on prolonging survival in lung and testicular cancer is addressed, and studies evaluating the pharmacodynamics of etoposide are described. Adverse effects associated with etoposide therapy include myelosuppression, alopecia, nausea and vomiting, mucositis, and hypotension after rapid intravenous administration. Etoposide has demonstrated considerable clinical efficacy against a broad spectrum of tumors.
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PMID:Etoposide: an update. 279 80

Etoposide (VP-16) is one of the most active drugs against small-cell lung cancer. There may be a steep dose-response relationship, and we have explored the use of etoposide as a single agent in a high dose (1,200 mg/m2) without bone marrow transplantation, for patients with very bulky, extensive-stage disease. This therapy is well tolerated in patients having good performance status, with myelosuppression representing the major toxicity. Our data suggest there may truly be a steep dose-response relationship. We have continued to explore intensive induction therapy for selected very poor-prognosis patients by adding high-dose cyclophosphamide (100 mg/kg) to high-dose etoposide. This combination is also very myelotoxic, but quite similar to etoposide alone. Our current study adds cisplatin (120 mg/m2) to the high-dose cyclophosphamide-etoposide schedule in an attempt to take advantage of the synergism seen with these drugs in various other circumstances. This series of studies will give us information regarding the feasibility of intensive induction therapy and provide data for the design of phase III studies.
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PMID:High-dose etoposide (VP-16) in small-cell lung cancer. 298 34

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