UMLS:C0242379 - FACTA Search

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

Paclitaxel and carboplatin have nonoverlapping toxicities with a broad range of clinical activity. The combination of escalating dose paclitaxel and carboplatin dosed to a fixed area under the curve (AUC) was explored in a series of phase I studies. 76 patients were treated with paclitaxel over three hours followed by a 30 min carboplatin infusion, dosed by the Calvert formula to a target AUC of 4.0 or 4.5 mg/min/ml-1. The maximum tolerated dose of paclitaxel was 270 to 290 mg/m2, with a dose limiting toxicity of peripheral sensory neuropathy. Activity was seen in lung cancer, with a paclitaxel dose at or above 230 mg/m2. Neuropathy correlated with paclitaxel AUC due to nonlinear pharmacokinetics at higher doses. Ongoing studies include the use of amifostine as a neuroprotectant and phase II studies of the paclitaxel/carboplatin regimen in head and neck cancer, small cell lung cancer and sarcomas.
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PMID:The clinical development of paclitaxel and the paclitaxel/carboplatin combination. 989 25

Paclitaxel and methotrexate are active against a variety of solid tumors. Because of differences in their mechanisms of action and toxicity profiles, the combination of these two agents has clinical potential. Clinical studies of this combination are in progress. We studied the optimal schedule of paclitaxel and methotrexate in combination at various schedules in vitro using human lung cancer A549, breast cancer MCF7, ovarian cancer PA1, and colon cancer WiDr cells. Cells were simultaneously exposed to paclitaxel and methotrexate for 24 h and sequentially exposed to paclitaxel for 24 h followed by methotrexate for 24 h or vice versa. Cell growth inhibition after 5 days was determined by a 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. The effects of drug combinations at the concentration of drug that produced 80% cell growth inhibition (the IC80 level) were analyzed by the isobologram method. The simultaneous exposure to paclitaxel and methotrexate produced additive to antagonistic effects in the A549 and PA1 cells, and antagonistic effects in the MCF7 and WiDr cells. The sequential exposure to paclitaxel followed by methotrexate produced additive effects in all four cell lines. The reverse sequence produced synergistic effects in the A549, MCF7, and WiDr cells, and additive effects in the PA1 cells. These findings suggest that a sequential administration of methotrexate followed by paclitaxel may be the appropriate schedule for this combination. On the basis of the observed in vitro synergism, further in vivo and clinical studies are necessary to clarify the toxicity and proposed antitumor effects of this schedule.
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PMID:Schedule-dependent synergism and antagonism between paclitaxel and methotrexate in human carcinoma cell lines. 1006 68

Paclitaxel (taxol, Tax) is a novel plant product isolated from the Pacific yew (Taxus brevifolia). It has a unique mechanism of action, because it induces very stable and dysfunctional microtubules. Paclitaxel has a broad spectrum of antineoplastic activity. It has been successfully used in the treatment of ovarian cancer, metastatic breast cancer, lung cancer, carcinoma of the head and neck, malignant melanoma and other human neoplasms. Tax has response rates of 20-36% in patients with refractory ovarian cancer. Toxic effects include myelosuppresion, hypersensitivity reactions, peripheral neuropathy, cardiac disturbances, alopecia. However, studies evaluating the drug still are ongoing paclitaxel seems to be one of the most promising antineoplastic agents.
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PMID:[Pharmacological action of paclitaxel]. 1034 50

The positive impact on survival of traditional chemotherapeutic agents has renewed interest in developing newer cytotoxic agents and orally active compounds with improved therapeutic indices. In addition, new insights into the pathways of human tumorigenesis have led to novel approaches aimed at specific mechanism-based targets. The taxane class, of which paclitaxel was the first member, has the unique ability to promote and stabilize microtubule function directly, thereby inhibiting mitotic progression and inducing apoptotic cell death. Paclitaxel provides treatment benefit in a broad range of solid tumors including breast, ovarian, and lung cancer. The success with paclitaxel stimulated interest in the microtubule as a new therapeutic target. Taxane analogues with improved preclinical efficacy have been identified and are entering clinical trials. The enthusiasm for oral anticancer agents and the therapeutic importance of platinum compounds has led to the development of JM216 (satraplatin), a novel platinum IV coordination complex with oral activity in cisplatin-resistant cell lines, which is now in phase III trials in prostate cancer. Another compound in late development is DPPE, a chemopotentiator that enhances the in vivo antitumor effects of cytotoxic agents such as doxorubicin, cyclophosphamide, and cisplatin. Agents that inhibit topoisomerase I and II have also been of interest. TAS-103 is a dual topoisomerase I and II inhibitor with preclinical efficacy in a broad spectrum of tumors and in multidrug-resistant tumor cell lines. Vaccination strategies represent a rational therapeutic approach in the minimal residual disease or high-risk adjuvant therapy setting. The GMK and MGV vaccines utilizing ganglioside antigens overexpressed on human tumors such as melanoma and small cell lung cancer appear to induce antibody production reliably at tolerable doses and are under further clinical investigation. Inhibition of matrix metalloproteinases (MMPs) is another attractive target for intervention in several aspects of tumor progression. Local production of MMPs with subsequent degradation of the extracellular matrix is implicated in supporting tumor growth, invasion, and angiogenesis. The development of orally active, nontoxic MMP inhibitors is critical since these compounds will likely require chronic administration in conjunction with other therapies. Oncogenes and tumor suppressor genes are appealing targets for therapy since they are thought to be responsible for a significant number of cancers. Mutations in the Ras oncogene occur with great frequency in a number of human cancers including lung, pancreas, and colon cancer. Clinical development of potent and selective inhibitors of farnesyltransferase, the Ras-processing enzyme, is ongoing. These compounds uncouple Ras activity, affect tumor growth, and have demonstrated significant antitumor activity against experimental models of human cancer. The exciting compounds and novel therapeutic approaches currently under investigation by Bristol-Myers Squibb Pharmaceutical Research Institute offer great potential as effective cancer chemotherapy agents for the near future.
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PMID:Promising new developments in cancer chemotherapy. 1035 61

The antiproliferative effect of paclitaxel, docetaxel, gemcitabine, topotecan, SN-38 and cis-platin was studied on 5 non-small cell lung cancer (NSCLC) cell lines, 3 of which were adenocarcinoma (ADK) and 2 squamous cell carcinoma (SCC). Cellular chemosensitivity was determined using the MTT in vitro assay after 48, 72 and 96 h of exposure to drug in concentration ranging from 0.001 to 100 microM. A concentration-dependent cell growth inhibition was observed for paclitaxel, gemcitabine, topotecan, SN-38 and cis-platin in all cell lines tested. Docetaxel showed a concentration-independent cytotoxicity and was 104 times more potent than cis-platin (IC50 = 0. 001 vs. 10 microM). Paclitaxel, gemcitabine, topotecan and SN-38 were 102 times more potent than cis-platin, with median IC50 = 0.1 microM at 72 h. The level of drug-induced cell growth inhibition appeared to be correlated, for some of the six drugs tested, with the tumor histological subtype. In particular, topotecan and cis-platin were more active in squamous cell carcinoma than in adenocarcinoma cell lines (p=0.006 and 0.001 respectively at 0.1 microM concentration), while paclitaxel was more active in ADK than in SCC cell lines (p=0.004 at 0.01 microM concentration). Ca-Lu-6, a cell line that, contrary to most other lung cancer cell lines, is wild-type for most oncogenes/tumor suppressor genes, was by far the most sensitive cell line used (p=0.002, 0.003, 0.01 for paclitaxel, topotecan and cis-platin respectively, at 1 microM concentration), showing a >50% growth inhibition to new drugs at a concentration of 0.01 microM. In conclusion, all these new compounds tested were found to be more potent than cis-platin in affecting cellular proliferation of six NSCLC cell lines studied. We suggest that the specific histological subtype and molecular pattern of the cell line being treated could affect the antiproliferative effect of these drugs.
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PMID:Pre-clinical evaluation of new antineoplastic agents in NSCLC cell lines: evidence of histological subtype-dependent cytotoxicity. 1049 63

Paclitaxel (Taxol; Bristol-Myers Squibb) is one of the most active single agents for non-small cell lung cancer (NSCLC), and ideal in combination with radiation therapy. We designed a phase II study to determine the efficacy and toxicity of continuous hyperfractionated accelerated radiotherapy (CHART) and concurrent weekly Paclitaxel (T) in good performance status patients with unresectable stage III A and B NSCLC. T (60 mg/m2) was given as a 3-h infusion on days 1, 8, 15, 22, 29 and 36; CHART was started on day 15 with 150 cGy/fraction given three times a day for a total dose of 54 Gy in 12 days with no weekend break. Twenty patients were evaluable for acute toxicity. The major acute toxicities were esophagitis and pulmonary toxicity; 70% of the patients experienced grade 2-3 esophagitis and 50% experienced grade > or = 3 pulmonary toxicity. Grade 3 anemia developed in only one patient. Of the 17 patients evaluable for late toxicity, 12% of the patients had grade 3 pulmonary toxicity, one patient developed grade 4 esophagitis. Nineteen patients were evaluable response. The overall response rate was 84% (95% confidence interval, 60-97). CHART with concurrent weekly T seems to be an effective regimen, but tolerability needs to be documented with a larger number of patients and longer follow-up.
Lung Cancer 1999 Sep
PMID:Preliminary analysis of a phase II study of Paclitaxel and CHART in locally advanced non-small cell lung cancer. 1051 30

Paclitaxel is an antimicrotubule agent that interferes with cell division. It has demonstrated promising single-agent activity against non-small-cell lung cancer. The purpose of this study was to evaluate the therapeutic effectiveness of paclitaxel in previously untreated patients with extensive stage small-cell lung cancer (SCLC). The study was designed as a two-stage phase II trial. All patients who entered received paclitaxel by intravenous infusion at a dose of 250 mg/m2 during 24 hours. Granulocyte colony stimulating factor was also provided to ameliorate neutropenia. Cycles were repeated at 21-day intervals. Patients who achieved a complete response received a maximum of 10 cycles of treatment, whereas those who achieved a partial response/regression continued treatment until progression or undue toxicity developed. Patients who progressed or maintained stable disease for six cycles were crossed over to cisplatin and etoposide. Forty-three patients entered the study and all were evaluable for analysis. Responses were observed in 23 (53%) of the patients. There was no significant difference in the response rates in patients with measurable or evaluable disease (13/23 versus 10/20, p = 0.76). At the time of analysis, 39 patients had progressed with a median time to progression of 95 days, and 39 patients had died with a median survival of 278 days. The 1-year achieved survival rate was 24%. Significant neutropenia (absolute neutrophil count <1,000/microl) occurred in 24 (56%) of the patients, but only 2 patients experienced severe infection (grade > or = 3), and there were no septic deaths. The results indicate that paclitaxel is active against SCLC. Myelosuppression was the main side effect in this patient population. Response duration was short (median = 3.4 months), which suggests that paclitaxel is not sufficient as a single agent. Further studies of paclitaxel in combination with other agents against SCLC are currently in progress within the North Central Cancer Treatment Group and other cancer treatment groups. Key Words: Paclitaxel-G-CSF-Small-cell lung cancer-North Central Cancer Treatment Group.
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PMID:Paclitaxel and G-CSF in previously untreated patients with extensive stage small-cell lung cancer: a phase II study of the North Central Cancer Treatment Group. 1052 Oct 70

The role of chemotherapy in the treatment of advanced non-small-cell lung cancer (NSCLC) has been a subject of debate for many years. Only recently, cisplatin-based combination chemotherapy has been demonstrated to yield a small but definite survival benefit and to improve symptoms, performance status and quality of life in a substantial proportion of advanced NSCLC patients. The cisplatin-etoposide (PE) regimen was developed in the early 1980s and has been one of the standard chemotherapy programs most extensively used in the clinical practice until a few years ago. More recently, several randomized trials have compared the efficacy of new cisplatin-containing combination chemotherapies including Paclitaxel or Gemcitabine with that of PE or PE-like regimens. Preliminary results are encouraging, indicating a small benefit in favor of the last generation of regimens which might therefore replace PE as 'gold standards' in the treatment of advanced NSCLC. However, the costs of these last generation regimens is higher and the entity of the benefit small. Therefore, PE chemotherapy can still be an option in selected situations.
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PMID:The combination of etoposide and cisplatin in non-small-cell lung cancer (NSCLC). 1058 33

The newer or 'third generation' chemotherapeutic agents (paclitaxel, docetaxel, vinorelbine, gemcitabine, irinotecan, topotecan) have all recently been shown to have substantial activity against non-small-cell lung cancer (NSCLC). Many of these agents are now being incorporated into the therapy for patients with advanced disease. Paclitaxel was the first 'third generation' drug to be studied. The use of paclitaxel and carboplatin has proven to be a well tolerated and quite active regimen with one-year survival in patients with stage IV disease of about 40% and two-year survival of about 20%. These survival rates are at least twice as good as previous platinum-based regimens. We have simplified the administration of paclitaxel by using a one-hour infusion and many other investigators and clinicians have followed suit. The results are equivalent to a three-hour infusion schedule. Given the degree of activity in patients with stage IV disease, it is imperative to begin neoadjuvant and adjuvant trials with the newer drugs and drug combinations. We and others have started a neoadjuvant strategy which has proven to be feasible and most patients tolerate surgery well. While the results are quite preliminary, we have seen some complete pathologic responses (about 20%) and are encouraged by these early data. In addition, we have routinely used adjuvant paclitaxel and carboplatin in patients with stage IB-IIIA disease who have been previously resected. Radiotherapy and a weekly schedule of paclitaxel and carboplatin have been incorporated for patients with stages II-IIIB (selected IIIB patients). Randomized comparisons are certainly needed in the neoadjuvant and adjuvant arena and the other 'third generation' drugs need to be quickly evaluated. We have chosen to add a third agent to paclitaxel and carboplatin. The evaluation of several triple combinations including the addition of gemcitabine, vinorelbine and topotecan, respectively to the paclitaxel-carboplatin combination has been completed. Preliminary results from these trials will be briefly summarized and plans for additional studies of the newer agents will also be discussed. Studies to learn the appropriate combinations, doses and schedules of the newer drugs in concert with radiotherapy and/or resection are also urgently needed. Since the newer 'third generation' drugs appear to genuinely improve the survival of patients with stage IV disease, it is likely that incorporation of these more active agents into therapy for lower stages of disease will make an even greater impact on overall survival for patients with this common neoplasm.
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PMID:Paclitaxel-based therapy in non-small-cell lung cancer: improved third generation chemotherapy. 1058 42

With the use of cisplatin-based combination chemotherapy, metastatic testicular germ-cell tumors can be cured in 70% to 80% of patients. The combination of cisplatin, etoposide and bleomycine (PEB) is considered standard therapy. Patients refractory to cisplatin-based chemotherapy have a markedly poor prognosis. Several chemotherapeutic agents have been evaluated in intensively pre-treated or cisplatin-refractory patients. Neither the anthracyclines nor vinorelbine, topotecan or biological agents such as suramin and retinoic acid have demonstrated clinical activity. Paclitaxel has been evaluated at different doses and schedules and yielded a response rate of 21% (range 11-30%), with single patients achieving complete remissions. This has led to the inclusion of paclitaxel in salvage regimens in combination with cisplatin and/or ifosfamide. Two studies have evaluated gemcitabine in refractory germ-cell tumors and demonstrated a response rate of 17% (95% CI 7-28%) in 52 intensively pre-treated patients, two-thirds of whom had relapsed after previous high-dose chemotherapy plus autologous stem-cell transplantation. The non-hematological toxicity of weekly gemcitabine at doses of 1,000 to 1,250 mg/m2 was tolerable, and hematological side effects included thrombocytopenia in approximately 20% of patients. Ongoing studies in refractory germ-cell tumors performed by the German Testicular Cancer Study Group are evaluating bendamustine, an alkylating agent with activity in breast and small-cell lung cancer, and oxaliplatin, a platinum derivative with incomplete cross-resistance to cisplatin. Future trials combining new active agents may examine alternating treatment strategies in patients with poor-prognostic disease or as salvage treatment.
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PMID:Treatment of patients with cisplatin-refractory testicular germ-cell cancer. German Testicular Cancer Study Group (GTCSG). 1059 9

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