Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

In patients with small-cell lung cancer VP-16-213 is often given in combination with doxorubicin and cyclophosphamide. Little is known about possible interactions between these drugs. Therefore we investigated in 7 patients the pharmacokinetics of VP-16-213, with and without the other two drugs. We found no change in the pharmacokinetics. We also provide evidence that the pharmacokinetics did not change in two sequential administrations of the drug. Pharmacokinetic data are in agreement with previous reports.
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PMID:Unchanged pharmacokinetics of VP-16-213 (etoposide, NSC 141540) during concomitant administration of doxorubicin and cyclophosphamide. 282 Jul 44

The efficacy and toxicity of carboplatin 100 mg/m2, administered intravenously (IV) daily X 3, and VP-16-213 120 mg/m2, IV daily X 3, administered every 28 days for six courses, was assessed in 94 (36 limited stage, 58 extensive stage) previously untreated patients with small-cell lung cancer. Mediastinal irradiation using 50 Gy in 25 fractions was given to all limited-stage patients with a complete (CR) or partial response (PR) after three chemotherapy courses. Cranial irradiation was administered to all patients with CR. Objective responses were seen in 77% (CR 40%, PR 37%) of patients with limited-stage and 58% (CR, 9%; PR, 49%) with extensive-stage disease. Median relapse-free survival for objective responders with limited stage was 14.6 months and 7.9 months for extensive-stage patients. Median relapse-free survival following CR was 15.4 months and 8.5 months for PR. Median survival was 15.3 months for limited-stage and 8.1 months for extensive-stage patients. The combination was well tolerated with mild nausea or less (World Health Organization [WHO] grade 0 or 1) in 62% of patients and minimal mucositis, renal, neurotoxicity, or ototoxicity. Neutropenia less than 1.0 X 10(9)/L (WHO grade 3 or 4) was seen in 63% of patients, with two deaths from infection while neutropenic. The combination of carboplatin and VP-16-213 is a new, active program with low toxicity when applied intensively in previously untreated patients with small-cell lung cancer.
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PMID:Carboplatin (CBDCA, JM-8) and VP-16-213 in previously untreated patients with small-cell lung cancer. 282 Nov 97

A multicentric randomized prospective trial was conducted to test whether late intensification chemotherapy would increase the remission rate, the relapse-free survival, and the survival of small-cell lung cancer patients responding to induction chemotherapy. Autologous bone marrow transplantation was used as support to reduce the duration of the aplasia induced by very high-dose chemotherapy. As induction chemotherapy, 101 patients received, during a period of 5 months, a total dosage of 120 mg/m2 methotrexate, 4.5 mg/m2 vincristine, 1,800 mg/m2 cyclophosphamide, 180 mg/m2 doxorubicin, 160 mg/m2 cisplatin, 750 mg/m2 VP-16-213, and 30 Gy prophylactic cranial irradiation. Forty-five patients, selected for their sensitivity to this induction treatment, were randomized to a last cycle of chemotherapy that combined cyclophosphamide, BCNU, and VP-16-213 either at a conventional dosage of 750 mg/m2 intravenously (IV), 60 mg/m2 IV, and 600 mg/m2 orally or alternatively at a very high dosage of 6 g/m2 IV, 300 mg/m2 IV, and 500 mg/m2 IV, respectively. In the late intensification group, the complete remission rate increased from 39% before randomization to 79% after high-dose chemotherapy. Median relapse-free survivals after randomization for intensified and control chemotherapy groups were 28 and 10 weeks, respectively (P = .002). Median overall survival after induction therapy was 68 weeks for the intensified group compared with 55 weeks for the conventional therapy group (P = .13). Four patients died during intensification. Patients in both groups relapsed at the primary site. It can thus be concluded that late intensification chemotherapy for sensitive small-cell lung cancer increases the complete remission rate and resulted in a statistically significant increase in the relapse-free survival. However, since relapse occurred at the primary site and toxicity was high, overall survival was not significantly improved.
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PMID:Late intensification chemotherapy with autologous bone marrow transplantation in selected small-cell carcinoma of the lung: a randomized study. 282 8

From June 1982 through October 1985, the Southeastern Cancer Study Group randomized patients with limited small-cell lung cancer (SCLC) to cyclophosphamide plus doxorubicin (Adriamycin, Adria Laboratories, Columbus, OH) plus vincristine (CAV) for six cycles v CAV plus concomitant thoracic irradiation as induction therapy. Patients achieving either a complete or partial response and remaining in remission after completion of induction therapy were subsequently randomized to consolidation chemotherapy consisting of cisplatin 20 mg/m2 X 4 plus etoposide (VP-16) 100 mg/m2 X 4 every 4 weeks for two courses v no further therapy. There were 160 patients entered on the consolidation phase and 148 were fully evaluable. The median survival for patients randomized to cisplatin plus VP-16 (PVP16) from start of CAV chemotherapy was 97.7 weeks, compared with 68 weeks for the no-consolidation arm (P = .0094). PVP16 consolidation also significantly increased the duration of remission, with median durations of 49 weeks v 28 weeks (P = .0008). The median durations for partial remission were 41 weeks v 23 weeks (P = .013), and for complete remission, 52 weeks v 30.5 weeks (P = .0091). Furthermore, 18 patients on PVP16 consolidation remain in a continuous complete remission for 12+ months and 13 of these are continuously disease free 2+ years. Eight patients randomized to no consolidation remain in a continuous complete remission, with only four patients disease free 2+ years. PVP16 consolidation has significantly improved the duration of remission and overall survival and appears capable of improving the cure rate in limited SCLC.
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PMID:Cisplatin plus etoposide consolidation following cyclophosphamide, doxorubicin, and vincristine in limited small-cell lung cancer. 283 49

Surgery alone is inadequate therapy for limited small-cell lung cancer (SCLC), resulting in less than 5% long-term survival. Since 1976, we treated patients undergoing surgery for SCLC with adjuvant chemotherapy in an attempt to prolong survival and increase cure. Seventy-seven patients who underwent surgery as their primary treatment were identified, and of these 63 (46 male and 17 female) received chemotherapy. Fifteen patients had a pneumonectomy, 46 a lobectomy, and two had wedge resections. Six patients had positive microscopic resection margins. Pathologic staging showed tumor, node, metastasis (TNM) involvement as follows: T1N0, eight; T2N0, ten; T1N1, six; T2N1, 18; T1N2, five; T2N2, nine; T3N0, three; T3N1, one; and T3N2, three. All patients received cyclophosphamide, Adriamycin (doxorubicion; Adria Laboratories, Mississauga, Ontario), and vincristine; four also received etoposide (VP-16) and cisplatin, one VP-16, and four methotrexate, procarbazine, and lomustine (CCNU). Forty-nine patients received prophylactic cranial irradiation, and 35 received radiotherapy to the mediastinum and primary site. The overall median survival of the 63 patients is 83 weeks, and the projected 5-year survival is 31%. Patients with T1 or T2 tumors without nodal involvement had a median survival of 191 weeks, and projected 5-year survival of 48%. Stage II (T1N1, T2N1) and stage III (any T3 or T1-2N2) patients had median survivals of 72 weeks and 65 weeks, and projected 5-year survivals of 24.5% and 24%, respectively. Thirty-three patients have relapsed and died of disease. Only two patients had an isolated relapse at the primary site. Seven other patients have died without recurrent disease. Adjuvant chemotherapy after surgery results in prolonged survival and cure for a significant number of patients with stage I SCLC, although nodal involvement at any level is associated with shorter survival.
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PMID:Adjuvant chemotherapy following surgical resection for small-cell carcinoma of the lung. 283 43

The effect of adding the epipodophyllotoxin etoposide (VP-16-213) to a standard chemotherapy regimen for patients with extensive stage small-cell lung cancer was evaluated during a randomized trial. Chemotherapy consisted of vincristine, doxorubicin, and cyclophosphamide (VAC) alone or with etoposide (EVAC). Of 139 patients enrolled, 136 patients were eligible for study and all but five were evaluable for response. The overall objective response was 46% in the VAC group v 70% in the etoposide-treated group (P = .008) with complete response (CR) rates of 12% v 29%, respectively (P = .030). Although the time to the observation of disease progression was significantly longer in the group of patients receiving etoposide (9.6 v 6.5 months, P = .010), overall survival was similar; this was probably due to administration of other agents including etoposide at the time of VAC failure. However, there were noteworthy differences in long-term (greater than or equal to 2 year) survival. Whereas only four (6%) patients treated with VAC lived 2 years, 11 (16%) of the etoposide-treated group did so (P = .100). Two-year failure-free survival was attained in one (2%) of the VAC patients and eight (11%) of the patients treated with etoposide (P = .034). Long-term survivorship, heretofore usually reported in patients with limited stage disease after a variety of treatments, may be possible with this drug combination in the setting of extensive disease.
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PMID:Improvement of long-term survival in extensive small-cell lung cancer. 283 32

Seventeen patients with small-cell lung cancer refractory to combination chemotherapy were entered in a study of VP-16 and infusional Ara-C. All patients were evaluable for response and 14 were evaluable for toxicity (three deaths that occurred after the first cycle of therapy were due to progressive tumor, and toxicity could not be evaluated in these three patients). Ara-C was given as a continuous intravenous infusion of 45 mg/m2/day for 72 h; VP-16 was given as three daily intravenous bolus doses of 50 mg/m2 at hours 12, 36, and 50 of the 72-h Ara-C infusion. Because of excessive myelotoxicity in the first six patients, the last 11 patients began treatment at a lower dose of Ara-C, 25 mg/m2/day. Six of 17 patients had previously been exposed to VP-16 as part of their initial chemotherapy regimen. The 17 patients received 32 cycles of therapy. Myelotoxicity was severe, with nadir granulocyte counts less than 500/microliters or platelet counts less than 30,000/microliters in four treatment cycles (including two at the lower Ara-C dose). No patient experienced an objective response to this therapy. We conclude that the combination of VP-16 and infusional Ara-C at these doses is excessively toxic and does not warrant further investigation in refractory small-cell lung cancer.
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PMID:Etoposide (VP-16) and cytosine arabinoside in the treatment of relapsed small-cell lung cancer. 284 44


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