UMLS:C0027947 - FACTA Search

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Query: UMLS:C0027947 (neutropenia)
17,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CPT-11 (irinotecan) is a promising anticancer agent with a novel mechanism of action dependent on the inhibition of the DNA eukaryotic enzyme, topoisomerase I. The clinical utility of CPT-11 in advanced colorectal cancer has been documented in more than 400 patients recruited in phase II clinical trials in Europe, Japan, and United States. Among 178 eligible patients in a multicenter European study, the overall response rate to CPT-11 on a once-every-3-weeks regimen was 18%, and the median duration of response was 9.1 months. Thirty-two percent of the patients had no evidence of disease progression at 6 months. These results were similar in chemotherapy-naive and pretreated patients. These findings are consistent with the results of other studies conducted in Japan and the United States in which a weekly CPT-11 regimen was associated with response rates of 15% to 32% in chemotherapy-naive or pretreated patients. The principal adverse events of CPT-11 are neutropenia and delayed diarrhea, which in the European studies developed as grade 3 or 4 toxicity in 21% and 12% of the cycles (47% and 38% of patients), respectively. Neutropenia did not appear to be cumulative, with total recovery by day 22 in most cases. Loperamide was considered the most effective agent for controlling delayed diarrhea. Other adverse events included an early cholinergic-like syndrome (consisting of diaphoresis, early diarrhea, and abdominal cramps), nausea and vomiting, fatigue, and alopecia. In conclusion, CPT-11 has shown promising antitumor activity in the treatment of patients with advanced colorectal cancer, including those refractory to 5-fluorouracil (5-FU)-based regimens, suggesting no cross-resistance to 5-FU. CPT-11 appears to have activity similar to that of 5-FU in first-line treatment and, moreover, remains active after failure of 5-FU therapy. The specific gastrointestinal toxicity is manageable, and a better control of this type of toxicity is expected in the future. CPT-11 would therefore appear a welcome addition to the oncology armamentarium for this difficult-to-treat malignancy.
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PMID:CPT-11 in the treatment of colorectal cancer: clinical efficacy and safety profile. 863 52

Two new drugs from two new chemotherapy compound families were developed concomitantly: Taxoter (docetaxel), a taxane derivate and CPT 11 (irinotecan) a topoisomerase inhibitor. Six phase I trials of Taxoter were performed. The limiting toxicity is neutropenia. The recommended dosage for phase II trial is 100 mg/m2 administered in 1 hour perfusion, every 21 days. Neutropenic fever is unfrequent. Other toxicities are mucositis, skin toxicity, hypersensibility reaction, weight gain and oedema. None of these toxicities were limiting. Six phase I studies were conducted to determine the maximum tolerated dose of CPT 11 (irinotecan). Two different schedules were studied: the weekly 30-90 minutes infusion and an infusion administered every three weeks in one day or daily over three or five consecutive days. The limiting toxicity of the weekly schedule is diarrhea. Therefore the recommended dosage is 100-150 mg/m2/week. While dose limiting toxicities in the three week schedule are diarrhea as well as neutropenia. The recommended dose is 350 mg/m2. Since diarrhea appeared to be the major problem in achieving high dose intensity with CPT 11, a dose escalation trial with drug support against diarrhea was performed. A recommended dosage of 500 mg/m2 is therefore described. These two drugs are under evaluation in a large spectrum of tumors. Their original mechanism of action suggests interesting therapeutic properties. Clinical studies in combination with other drugs are in progress to define the role of topoisomerase I inhibitors and taxane in cancer therapy.
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PMID:[Taxotere (docetaxel) and CPT 11 (irinotecan): phase I trials]. 867 54

It has been reported that the antitumor effect of CPT-11 is manifested through the inhibition of topoisomerase I by SN-38 which is an active metabolite of CPT-11 produced by intracellular carboxylesterase, and that CPT-11 is effective against recurrent ovarian carcinoma. We investigated the antitumor effect and adverse reactions in the combined therapy with CPT-11 and CDDP in patients with prior chemotherapy for recurrent carcinoma, and in 7 patients without prior chemotherapy, consisting of 4 patients with postoperative adjuvant chemotherapy for clear cell carcinoma and 3 patients with metastatic ovarian carcinoma. CDDP was administered on day 1 and CPT-11 was administered three times on days 1, 8 and 15. The dose of both CDDP and CPT-11 was 50 mg/m2 or 60 mg/m2. Adverse reactions were investigated in all patients and the antitumor effect was assessed in 12 patients with recurrent carcinoma who had measurable lesions. (1) The DLF was neutropenia. The neutrophil count nadiar occurred on day 18 or 19. Grade 3 or 4 adverse reactions were observed in 60% or more of the patients, but they disappeared following short term administration of G-CSF. In patients with recurrent carcinoma given CDDP and CPT-11 at 60 mg/m2, the incidence of grade 3 or 4 adverse reactions and number of occasions on which CPT-11 administration had to be postponed were higher than those in patients given 50 mg/m2. (2) Mild platelet reduction was observed. (3) Grade 3 or 4 diarrhea was observed in 3.2% of patients with recurrent carcinoma and in 7.7% of patients with metastatic ovarian carcinoma. (4) The antitumor effect was evaluated in 12 patients with recurrent carcinoma: CR in 2 patients. PR in 3, NC in 6, and PD in one. The response rate was 41.7%. (5) An antitumor effect was observed in 2 patients with serous carcinoma and in one patient each with mucous carcinoma, clear cell carcinoma and endometrial carcinoma. In conclusion, adverse reactions caused by the combination therapy with CPT-11 and CDDP (CPT-11: 50-60 mg/m2 on days 1, 8 and 15, CDDP: 50-60 mg/m2 on day 1) can be relieved by short term administration of G-CSF and it is suggested that the combination therapy may be effective in treating ovarian carcinoma.
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PMID:[Combination of irinotecan hydrochloride (CPT-11) and cisplatin as a new regimen for patients with advanced ovarian cancer]. 884 Oct 50

The increase in our understanding of the mode of action of drugs and their potential interactions is allowing treatment strategies to be designed to optimize efficacy and minimize toxicity. Combination chemotherapy may entail the use of concurrent administration of two or more agents, or sequential or alternating administration of single agents or combinations. It is increasingly important to understand the advantages and disadvantages of each of these strategies, and the influence of each component of a combination therapy. Biochemical modulation is now used to enhance drug efficacy: the metabolism of 5-fluorouracil can be modified using leucovorin, methotrexate and 5-ethynyluracil; etoposide enhances the action of platinum drugs by inhibiting repair of the platinum-damaged DNA; and treatment with topoisomerase I inhibitors can increase sensitivity to topoisomerase II inhibitors. The role of docetaxel in combinations is now under investigation. Docetaxel (Taxotere) has the following features which indicate that it will be a useful drug in combination: the unique mechanism of action of the taxoids; neutropenia as the single dose-limiting toxicity; and a broad spectrum of antitumour activity. Clinical trials are ongoing to examine the use of docetaxel combination regimens in several disease areas.
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PMID:New approaches to the treatment of advanced breast cancer. 886 11

Irinotecan (CPT-II) is a semisynthetic derivative of camptothecin. It and other camptothecin analogues/derivatives appear to exert their antitumour activity by binding to topoisomerase I. The active metabolite of irinotecan, 7-ethyl-10-hydroxycamptothecin (SN-38), has demonstrated potent growth inhibition of human colorectal cancer cells in vitro, with superior activity to fluorouracil. In phase II clinical studies in patients with advanced colorectal cancer, objective response rates after irinotecan therapy ranged between 20.5 and 32%. These studies used a range of irinotecan regimens including 350 mg/m2 once every 3 weeks (Europe), 125 to 150 mg/m2 once a week for 4 weeks followed by a 2-week drug-free interval (US) and 100 mg/m2/week or 150 mg/m2 every 2 weeks (Japan). The median duration of response ranged between 5.6 and 10.6 months. Disease stabilisation occurred in 30 to 71.2% of patients. Objective response rates to irinotecan therapy in patients who had received no prior chemotherapy were similar to those in patients pretreated with fluorouracil. Importantly, irinotecan also induced responses in some patients with tumours refractory to fluorouracil. Severe (grade 3 or 4) neutropenia and diarrhoea, which occurred in up to 40% of patients receiving irinotecan therapy in phase II studies, require careful monitoring and appropriate management. Thus, irinotecan is a valuable agent for the second-line treatment of patients with advanced colorectal cancer who fail to respond to or relapse after fluorouracil therapy.
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PMID:Irinotecan. A review of its pharmacological properties and clinical efficacy in the management of advanced colorectal cancer. 889 70

Irinotecan hydrochloride (CPT-11) is a new derivative of camptothecin which inhibits topoisomerase I. Phase II studies have demonstrated that CPT-11 is active against a broad spectrum of neoplasms including intractable non-Hodgkin's lymphoma. An early phase II study in lymphoma suggested that a schedule of daily infusions of 40 mg/m2/day for three or five consecutive days is more effective than a single infusion of 200 mg/m2 every three to four weeks. Carboplatin is also an active agent against lymphoma, and preclinical studies have shown that CPT-11 and its active metabolite have a synergistic effect with platinum compounds. To evaluate the maximal tolerated dose (MTD) and the therapeutic efficacy of CPT-11 in combination with carboplatin in relapsed or refractory non-Hodgkin's lymphoma, we conducted a combination phase I/II study. The starting dose of CPT-11 was 20 mg/m2/day (days 1 through 3 and 8 through 10), and dose escalations of 5 mg/m2/day increments were planned, with a fixed dose of carboplatin (300 mg/m2, day 1). Six of the eight patients receiving both agents at the starting dose level developed critical toxicities such as grade 4 hematologic (neutropenia 6/8, thrombocytopenia 1/8) and grade 3 non-hematologic toxicities (diarrhea 2/8, transaminase elevation 1/8). Further dose escalation of CPT-11 was halted, and the starting doses were judged to be the MTDs. The response rate (25%, 2/8) to the combination of the MTDs was not superior to that of CPT-11 alone in a previous phase II study (38%, 26/69), and the MTD of CPT-11 in combination with carboplatin was less than half the single-agent dose. We conclude that carboplatin is not recommendable for combination with CPT-11 in lymphoma patients. Other suitable agents for such a combination should be sought.
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PMID:Combination phase I/II study of irinotecan hydrochloride (CPT-11) and carboplatin in relapsed or refractory non-Hodgkin's lymphoma. CPT-11/Lymphoma Study Group. 900 51

Topotecan (Hycamtin; SmithKline Beecham Pharmaceuticals, Philadelphia, PA), a topoisomerase I inhibitor, is a semisynthetic camptothecin that has been structurally modified for increased water solubility. The closed lactone ring predominates at acidic pH, but the reverse reaction of the parent into the metabolite predominates at physiologic pH. The pharmacokinetic profile of topotecan is usually characterized by a two-compartment model and is linear in the dose range of 0.5 to 3.5 mg/m2. Following intravenous administration for 5 days at doses of 0.5 to 1.5 mg/m2/d as a 30-minute infusion, topotecan has a volume of distribution of approximately 130 L. Mean plasma clearance for topotecan (total) was approximately 1,000 mL/min with a plasma half-life of 2 to 3 hours. Renal clearance is an important determinant of topotecan elimination, with approximately 30% of the dose excreted in the urine. In three phase I studies in which the schedule of five daily doses every 21 or 28 days was investigated, all found 1.5 mg/m2/d to be the maximum tolerated dose. Neutropenia (reversible and noncumulative over time) was the major dose-limiting toxicity; fevers and infections were infrequently reported. The magnitude of topotecan exposure was correlated to the observed myelosuppression.
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PMID:An overview of the clinical pharmacology of topotecan. 912 37

This study evaluated the efficacy and safety of topotecan, a topoisomerase I inhibitor, in patients with advanced squamous cell cancer of the head and neck. Topotecan was administered intravenously (over 30 min) daily for 5 days every 3 weeks at a starting dose of 1.5 mg/m2/day. Eligibility required no prior chemotherapy, measurable disease, and performance status of < or = 2. Quality of life (QOL) assessment was performed at specified time points using the Spitzer QOL index and the symptom distress scale. Of 26 patients entered into the study, 23 and 22 patients were assessable for toxicity and response, respectively. One complete and two partial responses were observed, with response durations of 9, 4, and 1.5 months, respectively. Six patients had stable disease, including one patient with a 45% tumor shrinkage. The median survival for all patients entered was 4 months. Neutropenia was the major dose-limiting side effect, with grade 4 toxicity observed in 42% of all cycles of treatment. Grade 3 anemia occurred in 16% of all cycles, and nine patients required blood transfusions. Nonhematologic toxicities were infrequent and mild to moderate. QOL assessment revealed no significant change of total scores between each assessment point. Topotecan is a well-tolerated new agent with similar single-agent activity to that of cisplatin, 5-fluorouracil, and methotrexate in advanced head and neck cancer. Further investigation of this agent with other chemotherapeutic drugs and with concurrent radiation therapy is appropriate.
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PMID:A phase II study of topotecan in patients with recurrent head and neck cancer. Identification of an active new agent. 916 58

Topoisomerase I inhibitors are new compounds of interest for cancer chemotherapy. We performed a study with GI147211, a new semisynthetic camptothecin analogue, to determine the absolute bioavailability of the drug given orally. Patients with a histologically confirmed diagnosis of a solid tumour refractory to standard forms of therapy were eligible for the study. GI147211 was given orally on day 1 and as a 30-min infusion daily on days 2-5. The treatment course was repeated every 3 weeks. In subsequent patient cohorts, the dose of the oral formulation was escalated from 1.5 mg m(-2) to 6.0 mg m(-2); the dose for i.v. administration was fixed at 1.2 mg m(-2). Plasma pharmacokinetics was performed on day 1 and 2 of the first course and on day 1 of the second course using a validated high-performance liquid chromatographic assay. Nineteen patients were entered into the study; one patient was not evaluable because the treatment course was stopped prematurely. Eighteen patients received a total of 47 treatment courses. The absolute bioavailability of GI147211 averaged 1.3 +/- 5.2%. Drug appeared quickly in plasma with a median Tmax at 0.5 h. Fasting or fed state had no significant influence on the bioavailability of GI147211. The terminal half-life after administration of oral GI147211 was 6.85 +/- 3.13 h, similar to the half-life after intravenous administration. The major toxicities were neutropenia and thrombocytopenia. Nadirs for neutropenia and thrombocytopenia occurred on day 8 and day 15 respectively. Other toxicities predominantly consisted of mild and infrequent nausea and vomiting, and fatigue. The oral administration of the drug is well tolerated. Oral administration of topoisomerase I inhibitor GI147211 results in a low bioavailability with relatively wide interpatient variation. The intravenous route of administration is advised for further development of this promising topoisomerase I inhibitor.
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PMID:The bioavailability of oral GI147211 (GG211), a new topoisomerase I inhibitor. 932 58

This article reviews the clinical pharmacokinetics of a water-soluble analogue of camptothecin, irinotecan [CPT-11 or 7-ethyl-10-[4-(1-piperidino)-1-piperidino]-carbonyloxy-camptoth eci n]. Irinotecan, and its more potent metabolite SN-38 (7- ethyl-10-hydroxy-camptothecin), interfere with mammalian DNA topoisomerase I and cancer cell death appears to result from DNA strand breaks caused by the formation of cleavable complexes. The main clinical adverse effects of irinotecan therapy are neutropenia and diarrhoea. Irinotecan has shown activity in leukaemia, lymphoma and the following cancer sites: colorectum, lung, ovary, cervix, pancreas, stomach and breast. Following the intravenous administration of irinotecan at 100 to 350 mg/m2, mean maximum irinotecan plasma concentrations are within the 1 to 10 mg/L range. Plasma concentrations can be described using a 2- or 3-compartment model with a mean terminal half-life ranging from 5 to 27 hours. The volume of distribution at steady-state (Vss) ranges from 136 to 255 L/m2, and the total body clearance is 8 to 21 L/h/m2. Irinotecan is 65% bound to plasma proteins. The areas under the plasma concentration-time curve (AUC) of both irinotecan and SN-38 increase proportionally to the administered dose, although interpatient variability is important. SN-38 levels achieved in humans are about 100-fold lower than corresponding irinotecan concentrations, but these concentrations are potentially important as SN-38 is 100- to 1000-fold more cytotoxic than the parent compound. SN-38 is 95% bound to plasma proteins. Maximum concentrations of SN-38 are reached about 1 hour after the beginning of a short intravenous infusion. SN-38 plasma decay follows closely that of the parent compound with an apparent terminal half-life ranging from 6 to 30 hours. In human plasma at equilibrium, the irinotecan lactone form accounts for 25 to 30% of the total and SN-38 lactone for 50 to 64%. Irinotecan is extensively metabolised in the liver. The bipiperidinocarbonylxy group of irinotecan is first removed by hydrolysis to yield the corresponding carboxylic acid and SN-38 by carboxyesterase. SN-38 can be converted into SN-38 glucuronide by hepatic UDP-glucuronyltransferase. Another recently identified metabolite is 7-ethyl-10-[4-N-(5-aminopentanoic acid)-1-piperidino]-carbonyloxy-camptothecin (APC). This metabolite is a weak inhibitor of KB cell growth and a poor inducer of topoisomerase I DNA-cleavable complexes (100-fold less potent than SN-38). Numerous other unidentified metabolites have been detected in bile and urine. The mean 24-hour irinotecan urinary excretion represents 17 to 25% of the administered dose. Recovery of SN-38 and its glucuronide in urine is low and represents 1 to 3% of the irinotecan dose. Cumulative biliary excretion is 25% for irinotecan, 2% for SN-38 glucuronide and about 1% for SN-38. The pharmacokinetics of irinotecan and SN-38 are not influenced by prior exposure to the parent drug. The AUC of irinotecan and SN-38 correlate significantly with leuco-neutropenia and sometimes with the intensity of diarrhoea. Certain hepatic function parameters have been correlated negatively with irinotecan total body clearance. It was noted that most tumour responses were observed at the highest doses administered in phase I trials, which indicates a dose-response relationship with this drug. In the future, these pharmacokinetic-pharmacodynamic relationships will undoubtedly prove useful in minimising the toxicity and maximise the likelihood of tumour response in patients.
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PMID:Clinical pharmacokinetics of irinotecan. 934 1

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