UMLS:C0027947 - FACTA Search

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The topoisomerase I inhibitor topotecan has shown antitumour activity against a variety of tumour types in vitro and in vivo. Topotecan in combination with drugs that induce DNA damage generally results in synergistic killing of tumour cells in vitro. As the activity of topotecan is related to exposure time, the drug is administered by intravenous infusion either continuously or once daily over a 30-minute period for several consecutive days. A 30-minute infusion of topotecan 1.5 mg/m2 on 5 consecutive days every 3 weeks produced response rates of up to approximately 20% in patients with advanced ovarian cancer who had failed to respond to platinum-based regimens or relapsed after initial response to such regimens. No significant differences in efficacy were apparent between topotecan and paclitaxel in a phase III study in patients with recurrent ovarian cancer, although a trend in favour of topotecan was evident for all major efficacy parameters. Non-cumulative myelosuppression, including neutropenia, thrombocytopenia and anaemia, is the dose-limiting toxicity associated with topotecan. Myelo-suppression was significantly more common with topotecan than with paclitaxel in a single comparative study. Non-haematological adverse events in topotecan recipients are generally mild and include alopecia, nausea, vomiting, and other gastrointestinal problems. Thus, topotecan has modest efficacy in the treatment of recurrent advanced ovarian cancer, with clinical activity similar to that of paclitaxel in a large randomised phase III study in this setting. Combinations of paclitaxel and a platinum compound are being used increasingly for first-line therapy, although relapse rates remain significant. Topotecan is therefore a suitable second-line option, providing antitumour response for some patients whose disease has relapsed after, or is refractory to, platinum-based therapy. Its wider potential when used either alone or in combination regimens should become clearer from ongoing studies.
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PMID:Topotecan. A review of its potential in advanced ovarian cancer. 980 12

Camptothecins are the only available antitumor agents which target the nuclear enzyme topoisomerase I. 9-Aminocamptothecin (9-AC) is a water-insoluble derivative of camptothecin which has demonstrated impressive antitumor activity in preclinical models. While two other water-soluble derivatives, CPT-11 and topotecan, have successfully completed Phase I and Phase II testing, biochemical and tissue culture studies suggest that camptothecin analogues differ in characteristics which may be important in determining antitumor activity. We performed a Phase I trial of 9-AC to determine the pharmacokinetics, dose-limiting toxicity, and maximum tolerated dose of this agent when administered as a 72-h continuous i.v. infusion. Thirty-one patients with resistant solid cancers received 5-60 microgram/m2/h 9-AC for 72 h, repeated at 3-week intervals. The drug was administered in a vehicle containing dimethylacetamide, polyethylene glycol, and phosphoric acid. Blood samples were collected and the lactone (closed ring) form of 9-AC was quantitated. The maximum tolerated dose of 9-AC was determined to be 45 microgram/m2/h. Dose-limiting toxicity consisted of neutropenia. Thrombocytopenia was also prominent. There were no significant nonhematological toxicities. Minimal responses were seen in patients with gastric, colon, and non-small cell lung cancer. Although significant interpatient variation in plasma 9-AC lactone levels was observed, pooled data were fit to a two-compartment model, with a terminal half-life of 36 h. Analyses of topoisomerase protein levels in peripheral blood cells indicated decreases in topoisomerase I accompanied by increases in topoisomerase II in two of three patients. 9-AC is an active antitumor agent and may be administered safely as a 72-h infusion in patients with cancer. Although Phase II trials with a 72-h infusion of 9-AC are warranted, alternate schedules should be evaluated given the dramatic preclinical activity seen with more prolonged administrations.
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PMID:A phase I and pharmacokinetic study of a new camptothecin derivative, 9-aminocamptothecin. 981 82

Topotecan, a water-soluble analogue of camptothecin, is a newly available cytotoxic agent which acts as an inhibitor of topoisomerase I, an enzyme necessary for DNA replication. Topotecan is a semisynthetic product derived from camptothecin, which was discovered during a National Cancer Institute cytotoxic drug screening program almost 30 years ago. It acts by forming a stable covalent complex with the DNA/topoisomerase I aggregate, the so-called 'cleavable complex'. This process leads to breaks in the DNA strand resulting in apoptosis and cell death. Topotecan possesses a serum half-life of approximately 3 h, a high volume of distribution with high tissue uptake and a low protein binding. The chemical structure is based on a lactone ring. Topotecan undergoes reversible hydrolysis from its biologically active lactone form to the open ring inactive carboxylate form. It is also able to penetrate the intact blood-brain barrier. Since most of the agent is excreted by the kidneys, dose adjustment is necessary when renal function is impaired. In contrast, pharmacokinetic behavior is unchanged in patients with limited hepatic function. The principal toxicity of topotecan when administered at standard doses is neutropenia, but thrombocytopenia and anemia occur as well, while the nonhematological toxicities are usually mild. Alopecia is frequently observed and some patients may suffer from pronounced fatigue. Most clinical data available are based on the following schedule: 1.5 mg/m2 topotecan given as a 30-min infusion, days 1-5. There are currently only minimal data available regarding a dose-antitumor activity relationship. Other topotecan administration schedules are currently being investigated. Preclinical data suggest that continuous-infusion schedules may be a better application form in terms of both, toxicity and antitumor activity. However, clinical trials could not confirm these results to date. Results of phase II studies suggest considerable antitumor activity of single agent topotecan in small cell lung cancer and ovarian cancer patients. A randomized phase III trial of topotecan versus paclitaxel in ovarian cancer patients pretreated with cisplatin/cyclophosphamide has demonstrated that topotecan is as effective as paclitaxel in the second-line treatment of these patients. Activity of topotecan was also observed in non-small-cell lung cancer, refractory leukemias/myelodysplastic syndromes and in childhood sarcomas. Due to its unique mechanism of action and lack of cross-resistance, cisplatin, etoposide, cytarabine and paclitaxel are potential interacting partners for combination chemotherapy regimens. However, the best combination regimen as well as the optimal combination schedule have yet to be conclusively determined. The potential of topotecan in a variety of solid tumors, as well as its use in combination regimens for ovarian and small cell lung cancer is currently being investigated.
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PMID:Topotecan - A novel topoisomerase I inhibitor: pharmacology and clinical experience. 988 71

Irinotecan is a new topoisomerase I inhibitor. It has demonstrated antitumor activity in solid tumors, independently of the histologic type, and in squamous cervical carcinoma. Its original mechanism of action offers the possibility to combine it with other drugs. In vitro and in vivo studies have demonstrated synergistic activity between irinotecan, cisplatin and etoposide. This article reviews the main published phases I and II studies with irinotecan. The limiting toxicity of combination schedules in neutropenia. The best results were obtained with the association cisplatin-irinotecan in lung cancer. For the combination etoposide-irinotecan the best schedule of administration remains to be determined.
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PMID:[Irinotecan-containing combinations in solid tumors, except colonic carcinomas]. 993 85

9-Nitrocamptothecin (9-NC) is a water-insoluble topoisomerase I inhibitor with a broad antitumor activity in animal models. A phase II study was performed in patients with heavily refractory ovarian, tubal or peritoneal cancer (median number of previous chemotherapy regimens > 3) to determine the activity of a daily oral dose of 9-NC. 9-NC dose was 1.5 mg/m2/day for four consecutive days every week. Increments of 0.25 mg/day were authorized in patients without significant side effects. Of 29 evaluable patients, a 7% remission rate was observed. Thirty-four percent of patients had stable disease. The median survival was 8 months. Toxicity was evaluated in 31 patients. Grade 3 or 4 hematologic toxicity consisted of anemia in 10 patients (32%), neutropenia in eight (26%) and thrombocytopenia in three (10%). Grade > or = 2 non-hematologic toxic effects were nausea and vomiting in 26 (84%), diarrhea in 12 (39%), weight loss in seven (22%), chemical cystitis in six (19%) and neutropenic sepsis in six (19%). 9-NC was tolerated for sustained periods of time in some patients (up to 47 weeks). The observed 8-month survival in such a refractory patient population is noteworthy. Further clinical research of prolonged exposure to less toxic analogs of 9-NC is warranted.
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PMID:A phase II clinical and pharmacological study of oral 9-nitrocamptothecin in patients with refractory epithelial ovarian, tubal or peritoneal cancer. 1037 72

Topotecan is a semi-synthetic, water soluble topoisomerase I inhibitor which has recently been approved for the treatment of ovarian cancers after failure of first-line therapy. A number of different dosing schedules are being investigated in clinical trials including oral administration, a daily infusion on 5- or 3-consecutive days and a continuous infusion for 21 days. A 30-minute infusion of topotecan 1.5 mg/m2 on 5 consecutive days every 3 weeks, as standard schedule, produced response rates of 13.8 to 20.5% in the 3 largest phase II/III studies in women with advanced ovarian cancers who had either failed to respond or had relapsed after an initial response to platinum-based chemotherapy (N = 92 to 139), continuous 21-day infusion of topotecan 0.3 to 0.5 mg/m2 has shown efficacy in 2 small phase II studies. There were no statistically significant difference in efficacy between topotecan (1.5 mg/m2/day for 5 consecutive days every 21 days) and paclitaxel (175 mg/m2/day given over 3-h every 21 days) in the randomized phase III study. In 3 large clinical trials, response to topotecan was higher in patients who were platinum sensitive (19.2 to 29%) than in those whose disease was platinum resistant or refractory (11.3 to 13.3%) not statistically significant in 1 study, statistical analysis not reported in the other 2 trials. Myelosuppression, particularly neutropenia, is the dose-limiting toxicity of topotecan. It is reversible, dose-related and non-cumulative. In 2 large studies, topotecan produced grade 4 neutropenia in 78 and 79% of patients and in 40 and 37% of all treatment courses (febrile neutropenia occurred during 3% of 552 courses in 1 study). Grade 4 thrombocytopenia was seen in 18 and 25% of patients and in 6 and 10% of all courses, respectively. Grade 4 neutropenia was significantly more common in patients receiving topotecan than in those receiving paclitaxel (79 vs 23%), as was grade 4 thrombocytopenia (25 vs 2%), in a single randomized clinical trial. Non-hematological adverse events during topotecan therapy were mostly mild. A step beyond is the combination treatment including topotecan as a 3- or 5 days schedule plus a platinum compounds or topoisomerase II inhibitor. These associations of drugs are based on the preclinical data of the in vitro studies showing a synergy of the anti-tumor activity. A novel schedule of topotecan is also the "alternating" chemotherapy consisting of different doublet of drugs given as a sequential way or as a really sequential topotecan therapy. Both methods of combining topotecan as second/salvage treatment or front line therapy are being investigated by numerous authors. Preliminary data suggest interesting results in terms of efficacy, manageable toxicity and new schedules of treatment for topotecan. Low dosages of drug in combination with other agent do not seem to influence the well-known data of efficacy or safety of topotecan literature. Probably the 3-day schedule allows a combination treatment, otherwise not feasible with the standard 5-day administration.
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PMID:[Topotecan: prospects for using it in combination therapy for ovarian carcinoma]. 1078 95

Topotecan, a soluble semisynthetic derivative of camptothecin, is a specific inhibitor of topoisomerase I and is endowed of potent antiproliferative effect in vitro and in vivo on tumoral cell lines as well as on endothelial cells. Moreover, topotecan is able to interfere with the development of blood vessels in many in vivo experimental models. During the last years, several phase I clinical studies have demonstrated that the five-daily schedule is the most effective for the treatment of neoplastic diseases of children and adults. In particular, the best clinical results have been obtained in patients affected by metastatic ovarian cancer, small cell (SCLC) and non-small cell lung carcinoma (NSCLC), as well as mammary and gastrointestinal neoplasms. High response rates have been observed in myelodysplastic syndromes and myeloma. The clinical effectiveness of topotecan has been also demonstrated in ovarian carcinoma, even after failure of first or second line chemotherapy and in SCLC, where the response rate is 39%, while the percentage decreases up to 7% in case of drug resistance, with a median survival of 5.4 months. Toxicologic profile of topotecan is foreseeable and manageable, and the most frequent and severe toxicity is represented by myelosuppression. Leukopenia and neutropenia, which follow the administration of topotecan, are non-cumulative and self-limiting and unfrequently complicated by infections, whereas non-hematologic toxicities are uncommon and generally of mild-to-moderate degree. Topotecan is under continuous clinical evaluation for the treatment of neoplasms other than those reported above, alone or in combination with antineoplastic drugs in poly-chemotherapeutic protocols.
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PMID:[Preclinical pharmacology and clinical uses of topotecan]. 1078 94

Hepatocellular carcinoma (HCC) is one of the most frequent cancers. The only curative treatment is liver transplantation or complete surgical resection; however, most patients have inoperable disease at diagnosis. To date, no cytotoxic agent has demonstrated a clinical impact on time-related parameters, especially survival. The development of new treatments of inoperable HCC patients is highly desirable. Among the new cytotoxic agents, DNA topoisomerase I poisons are those with the widest spectrum of antitumor activity. However, few data are available in HCC patients. One of the main obstacles to the use of irinotecan in HCC is the frequent alterations of liver function at diagnosis. A 48-year-old patient with a HCC that had developed within a normal liver but of very poor prognosis because of a multifocal primary tumor with a large nodule measuring 10 cm of diameter, associated with a portal thrombosis, could tolerate very intensive treatment with irinotecan using doses up to 700 mg/m2 every 2 weeks and was responsive to treatment as measured by alpha-fetoprotein levels. Despite initial criteria of inoperability, the absence of disease progression under therapy with a follow-up of 1 year invited us to propose a liver transplant. The patient is still in post-surgical complete remission and has consolidation chemotherapy with irinotecan. This result invites us to consider the evaluation of the efficacy of topoisomerase I poisons in HCC patients and to escalate the dose of irinotecan in patients with less than grade 4 neutropenia.
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PMID:Complete remission of unresectable hepatocellular carcinoma on healthy liver by the combination of aggressive surgery and high-dose-intensity chemotherapy by CPT-11. 1108 58

The i.p. administration of topoisomerase I (Topo I) inhibitors has a pharmacologic advantage over intravenous application, including preservation of the biologically active lactone form. In our ongoing study, patients have received 9-amino-20(S)-camptothecin (9-AC) i.p. on days 1, 3, 5, 8, 10, and 12, repeated every 4 weeks. The daily dose has been escalated to level IV of 1.5 mg/m2 (9.0 mg/m2 per course), median of 3 cycles, range 1-4, with a reversible Grade 3 neutropenia in one patient. Responses included one CR (resolution of a pleural effusion), two patients without progressive disease (PD), two not evaluable, and two patients too early for evaluation. The area under the curve (AUC)i.p./AUCpl ratio (pharmacologic advantage) ranged from 7.6 to 16.5 on average, and, using nonlinear modeling, the pharmacologic decay data were fit to one- or two-compartmental models. Overall, a 9-AC i.p. application is well tolerated and anticipated to be an active regimen against i.p. malignancies, particularly those known to be sensitive to systemic Topo-I inhibitors.
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PMID:Intraperitoneal topoisomerase-I inhibitors. Preliminary findings with 9-aminocamptothecin. 1119 93

Exatecan mesylate (DX-8951f) is a new hexacyclic camptothecin analogue with favorable attributes compared to topotecan and CPT-11, including watersolubility, greater potency against topoisomerase I, lack of esterase-dependent activation, broad antitumor activity, and low cross-resistance against MDR-1 overexpressing tumors. In preclinical studies, the compound demonstrated a favorable toxicology profile with hematologic dose-limiting toxicity and moderate gastrointestinal toxicity, linear pharmacokinetics, P450 hepatic metabolism (CYP3A4 and CYP1A2), and predominately fecal excretion. The results of six U.S. and European phase I clinical trials as well as two Japanese studies are presented including total DX-8951 and lactone DX-8951 pharmacokinetics. The toxicity profile was similar for all schedules of administration. Hematologic toxicity was dose-dependent and reversible. Neutropenia was dose-limiting in minimally pretreated patients, whereas neutropenia and thrombocytopenia were dose-limiting in heavily pretreated patients. Non-hematologic toxicity included moderate gastrointestinal toxicity (nausea, vomiting > diarrhea), transient elevation of hepatic transaminases, asthenia, and alopecia. Two cases of acute pancreatitis not predicted by preclinical toxicology were also observed. Antineoplastic activity was detected in several solid tumor types: non-small cell lung cancer, extrapulmonary small cell cancer, colorectal cancer, hepatocellular cancer, and sarcoma. Antitumor activity was seen in CPT-11 and topotecan-resistant tumors. Pharmacokinetics were linear within the dose range tested. A pharmacokinetic/pharmacodynamic model predictive of DX-8951f-induced neutropenia in individual patients was developed. The daily x5, every 3-week schedule with the drug administered as a 30-minute intravenous infusion was selected for future phase II clinical trials based on its superior antitumor activity.
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PMID:DX-8951f: summary of phase I clinical trials. 1119 1

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