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 is a semisynthesized derivative of camptothecin that has a potent antitumor activity by inhibiting DNA topoisomerase I. Leukopenia (mainly neutropenia) is DLF (dose limiting factor) and MTD (maximum tolerated dose) is higher than 250 mg/m2 in CPT-11 from the results of clinical phase I study. Now we are going on phase II study of CPT-11. We are seeing the cases responded to the drug in cancer of the lung, ovary, uterus, stomach, colorectum, pancreas, breast, malignant lymphoma etc.
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PMID:[DNA topoisomerase inhibitor as chemotherapeutic drug--clinical point of view]. 165 85

The purpose of the study was to evaluate the toxicity and biological activity of highly purified lipopolysaccharide (LPS) administered intravenously to cancer patients in order to establish an optimum dosage scheme. An initial subtoxic dose was increased in weekly increments in accordance with individual regimens that maintained patient reaction at a safe and acceptable level. Purified LPS from Salmonella abortus equi was administered to 11 patients with advanced solid tumors on a weekly schedule with intraindividually escalating dosage as determined by patient response. Biological response was monitored by complete blood count, C-reactive protein, and cytokine measurements at different time points after LPS injection. Tumor necrosis factor-alpha (TNF) and interleukin-1 beta serum levels were measured by enzyme-linked immunosorbent assay and interleukin-6 (IL-6) by bioassay. Dose-limiting toxicities including chills and fever (WHO grade III) were reached at 1.0 ng/kg of body weight (maximal tolerated dose-1, MTD-1). Pretreatment with ibuprofen (1,600 mg) abrogated these side effects, allowing further escalation of LPS doses up to 10 ng/kg of body weight. At dose levels greater than 8.0 ng/kg of body weight (MTD-2), the aforementioned side effects occurred again and, additionally, hepatic toxicity (WHO grade III) was observed. Hematological changes included neutropenia followed by a pronounced neutrophilia contributed to by up to 30% bands, marked monocytopenia for 3 h, and retarded lymphopenia. By 24 h, all hematological parameters returned to pretreatment values. TNF serum levels increased from 10 pg/ml before treatment to 7,000 pg/ml as a function of dosage. Maximum serum levels were reached at 60 to 90 min after LPS injection. Similarly, IL-6 serum concentrations increased from less than 4 to 2,500 U/ml; peak levels were obtained 30 min after TNF peak values. Prior administration of ibuprofen had no effect on the above-mentioned hematological changes nor on cytokine release. LPS can be administered intravenously in weekly intervals at escalating doses from 0.15-10.0 ng/kg of body weight, when patients are protected by pretreatment with ibuprofen at dose levels above 1.0 ng/kg of body weight. Cytokine release as measured by TNF and IL-6 increased in a dose-dependent manner although the constitutional symptoms are completely attenuated.
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PMID:Biological response to intravenously administered endotoxin in patients with advanced cancer. 225 60

KRN 8602 is a new antineoplastic drug with the chemical structure, 3'-deamino-3'-morpholino-13-deoxo-10-hydroxycarminomycin hydrochloride. This drug was developed in an attempt to improve the clinical efficacy of currently used anthracyclines. In preclinical studies, KRN 8602 has been shown to produce less cardiotoxicity and alopecia, yet has comparable antitumor effects to adriamycin. In addition, KRN 8602 has shown antitumor effects on adriamycin-resistant tumors. A phase I clinical study was undertaken to determine the toxicity of KRN 8602 given as a single i.v. dose. Toxicity evaluation included CBC with differentials, platelet counts, SMA chemistry profile, EKG, urinalysis, plain chest X-ray and physical examination. Myelosuppression was the major side effect noted with leukopenia, and especially neutropenia, being dose-limiting. The degree of WBC suppression was dose-related and MTD appears to be 30 mg/m2. Nausea and vomiting were observed in cases who had received more than 10 mg/m2. No patient had alopecia. No obvious cardiotoxicity in this study. Maximum total cumulative dose of KRN 8602 was 450 mg/m2. Further observation is necessary to confirm this point. In this study of 10 cases, one breast carcinoma with bilateral lung metastasis revealed definite regression of metastasis for more than 18 months with this agent alone. This patient had previous chemo- and hormone therapy, containing adriamycin. The above preliminary phase I clinical study suggests strongly the usefulness of KRN 8602, and further investigations are indicated.
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PMID:[Phase I clinical study of MX2 (KRN 8602)]. 231 Feb 2

Two trials are being conducted to evaluate paclitaxel (Taxol; Bristol-Myers Squibb Company, Princeton, NJ) combined with cisplatin in previously treated and untreated breast and ovarian cancer. Preliminary results are presented. The objectives of these nonrandomized trials are (1) to determine the toxicity of paclitaxel/cisplatin in a biweekly schedule, (2) to establish the maximum tolerated dose of paclitaxel in combination with a fixed dose of cisplatin (60 mg/m2), (3) to determine the feasibility of repeated biweekly administrations, and (4) to evaluate the efficacy of the combination in these diseases. In the breast cancer study, 22 patients have been enrolled to date and eight patients have completed treatment. Dose-limiting neutropenia, which occurred with the starting dose of paclitaxel (90 mg/m2) followed by 60 mg/m2 cisplatin, has precluded any attempts to escalate the paclitaxel dose. Overall, the regimen has been well tolerated at the doses just described. There has been little grade III and no grade IV nonhematologic toxicity. Among 16 patients currently evaluable for response, four had a complete response and II had a partial response, for an overall response rate of 94%. In the ovarian cancer study, 14 patients have been enrolled thus far. Paclitaxel/cisplatin appears to be well tolerated, although it is still too early to assess response rates or to define the MTD. Patients continue to be accrued in both trials.
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PMID:Biweekly paclitaxel (Taxol) and cisplatin in breast and ovarian cancer. 793 58

Based on preclinical data, we designed a phase I/II clinical trial to determine the efficacy and toxicity of doxorubicin followed by paclitaxel (Taxol; Bristol-Myers Squibb Company, Princeton, NJ) in the treatment of patients with advanced breast cancer (either untreated or relapsed after adjuvant therapy). In the phase I study, 19 enrolled patients received bolus doxorubicin (50 mg/m2) and, after a 16-hour interval, escalating doses of paclitaxel (from 130 to 250 mg/m2 in 30-mg/ m2 increments) by 3-hour infusion every 3 weeks for a maximum of eight cycles. Paclitaxel doses were increased if the maximum tolerated dose (MTD; defined by dose-limiting toxicities) had not been reached. Analysis of the 128 cycles assessable for toxicity demonstrated neutropenia (< 500/microL) in 20% of cycles with no significant clinical events. No relevant clinical cardiotoxicity was observed. Other toxicities included mild peripheral neuropathy and mild myalgia/arthralgia (In 37.5% and 30.4% of cycles, respectively). The maximum tolerated paclitaxel dose was not reached at the 250 mg/m2 dose level. In the second phase, 13 patients were treated with fixed doses of both drugs (doxorubicin 50 mg/m2 and paclitaxel 220 mg/m2, the dose level immediately preceding the highest paclitaxel dose used in phase I). Grade 4 neutropenia occurred in 36 of the 87 cycles but was complicated by fever in only eight cycles (9%); three patients needed granulocyte colony-stimulating factor. Peripheral neuropathy (grades 1 and 2 in 41.3% and 5.7% of cycles, respectively) and a myalgic syndrome (grades 1 and 2 in 24.1% and 17.2% of cycles, respectively) were observed. No significant clinical cardiotoxicity was observed in 12 of the 13 patients. One patient experienced a decrease in left ventricular ejection fraction (from 60% to 43%) at a cumulative doxorubicin dose of 400 mg/m2. Antitumor efficacy was evaluated in both phase I and phase II. Overall clinical responses included 10 complete (31.3%) and 15 partial (46.9%) responses, for an objective response rate of 78.1%. Six patients (18.8%) had stable disease. The median durations of objective and complete response were 9 and 7 months, respectively. The 78.9% objective response rate in the phase I trial (31.6% complete and 47.3% partial responses) suggests a dose response relationship: at paclitaxel dose > or = 190 mg/m2, all patients had an objective response (six complete and nine partial responses). These results confirm that doxorubicin followed by paclitaxel is active and should be tested as adjuvant treatment and in patients treated previously with anthracyclines.
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PMID:A phase I/II study of sequential doxorubicin and paclitaxel in the treatment of advanced breast cancer. 889 94

The novel folate analogue AG2034, which was designed as an inhibitor of GARFT (glycinamide ribonucleotide formyltransferase), was evaluated in this phase I study under the auspices of The Cancer Research Campaign, UK. AG2034 blocks de novo purine synthesis through inhibition of GARFT. A total of 28 patients with histologically proven intractable cancers were enrolled. AG2034 was administered as a short intravenous infusion once every 3 weeks. 8 dose levels ranging from 1-11 mg/m(2)were evaluated with patients receiving up to 6 cycles. Dose-limiting toxicities in the form of mucositis, diarrhoea and vomiting were observed at doses of 6 mg/m(2)and above. Significant levels of thrombocytopenia, neutropenia and anaemia were also recorded. Other sporadic toxicities included fatigue and myalgia. The MTD with this schedule of AG2034 was 5 mg/m(2). Most side effects occurred more frequently with cumulative dosing. In keeping with this, pharmacokinetic analysis revealed evidence of drug accumulation. The AG2034 AUC(0-24)increased by a median of 184% (range 20-389%) from cycle 1 to 3 in all 10 patients examined. No objective antitumour responses were observed in the study.
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PMID:Phase I dose-escalation and pharmacokinetic study of a novel folate analogue AG2034. 1116 93

A dose escalation study of paclitaxel in combination with vinorelbine was conducted in 21 patients with previously untreated stage IIIb or IV non-small cell lung cancer (NSCLC). All three patients treated with the initial dose of paclitaxel 135 mg/m(2) administered as a 1-h intravenous infusion and vinorelbine 25 mg/m(2) experienced dose-limiting toxicity (febrile neutropenia). After modification of the dosing schedule, the MTD of paclitaxel was found to be 115 mg/m(2) when combined with vinorelbine 20 mg/m(2) on day 1, followed by vinorelbine 20 mg/m(2) on day 5. Partial responses were achieved in 24% of patients, with a median duration of response of 126 days (range from 84 to 484 days) and a 1-year survival rate of 42%. In conclusion, haematologic toxicity (febrile neutropenia/neutropenia) severely restricts the dosing schedule of combined paclitaxel and vinorelbine, and possibly limits anti-tumour efficacy.
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PMID:Phase I study of paclitaxel (Taxol) plus vinorelbine (Navelbine) in patients with untreated stage IIIb and IV non-small cell lung cancer. 1116 10

Targeting an anti-cancer drug to tumors should increase the Area Under the drug concentration-time Curve (AUC) in tumors while decreasing the AUC in normal cells and should therefore increase the therapeutic index of that drug. Anti-tumor drugs typically have half-lives far shorter than the cell cycle transit times of most tumor cells. Tumor targeting, with concomitant long tumor exposure times, will increase the proportion of cells that move into cycle when the drug concentration is high, which should result in more tumor cell killing. In an effort to test that hypothesis, we conjugated a natural fatty acid, docosahexaenoic acid (DHA), through an ester bond to the paclitaxel 2'-oxygen. The resulting paclitaxel fatty acid conjugate (DHA-paclitaxel) does not assemble microtubules and is non-toxic. In the M109 mouse tumor model, DHA-paclitaxel is less toxic than paclitaxel and cures 10/10 tumored animals, whereas paclitaxel cures 0/10. One explanation for the conjugate's greater therapeutic index is that the fatty acid alters the pharmacokinetics of the drug to increase its AUC in tumors and decrease its AUC in normal cells. To test that possibility, we compared the pharmacokinetics of DHA-paclitaxel with paclitaxel in CD2F1 mice bearing approximately 125 mg sc M109 tumors. The mice were injected at zero time with a bolus of either DHA-paclitaxel or paclitaxel formulated in 10% cremophor/10% ethanol/80% saline. Animals were sacrificed as a function of time out to 14 days. Tumors and plasma were frozen and stored. The concentrations of paclitaxel and DHA-paclitaxel were analyzed by LC/MS/MS. The results show that DHA targets paclitaxel to tumors: tumor AUCs are 61-fold higher for DHA-paclitaxel than for paclitaxel at equitoxic doses and eight-fold higher at equimolar doses. Likewise, at equi-toxic doses, the tumor AUCs of paclitaxel derived from i.v. DHA-paclitaxel are 6.1-fold higher than for paclitaxel derived from i.v. paclitaxel. The tumor concentration of paclitaxel derived from i.v. paclitaxel drops rapidly, so that by 16 h it has fallen to the same concentration (2.8 microM) as after an equi-toxic concentration of DHA-paclitaxel. In plasma, paclitaxel AUC after an MTD dose of DHA-paclitaxel is approximately 0.5% of DHA-paclitaxel AUC. Thus, the increase in tumor AUC and the limited plasma AUC of paclitaxel following DHA-paclitaxel administration are consistent with the increase in therapeutic index of DHA-paclitaxel relative to paclitaxel in the M109 mouse tumor model. A phase I clinical study has been completed at The Johns Hopkins Hospital to evaluate the safety of DHA-paclitaxel in patients with a variety of solid tumors. Twenty-one patients have been treated to date. The recommended phase II dose is 1100 mg/m(2), which is equivalent to 4.6 times the maximum approved paclitaxel dose on a molar basis. No alopecia or significant peripheral neuropathy, nausea, or vomiting have been observed. Asymptomatic, transient neutropenia has been the primary side effect. Eleven of 22 evaluable phase I patients transitioned from progressive to stable disease, as assessed by follow-up CT. Significant quality of life improvements have been observed. Thus, DHA-paclitaxel is well tolerated in patients and cures tumors in mice by targeting drug to tumors.
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PMID:Tumor targeting by conjugation of DHA to paclitaxel. 1148 99

A phase I study of gemcitabine (GEM) and docetaxel (TXT) combination chemotherapy was performed for unresectable non-small-cell lung cancer. Chemotherapy consisted of a fixed dose of GEM (1,000 mg/m2) on day 1, 8 and an escalated dose of TXT (50, 60, 70 mg/m2) on day 8 every 21 days, > or = 2 courses. Nine patients were entered (each dose level: 3 patients). Leukopenia, neutropenia, GOT increase, GPT increase, anorexia, fatigue, fever, and alopecia occurred, but no dose-limiting toxicity was found at any dose level and no MTD was reached. The recommended dose for the phase II study is GEM 1,000 mg/m2 and TXT 70 mg/m2 with consideration of application to outpatients and continuing courses.
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PMID:[Phase I study of gemcitabine (GEM) and docetaxel (TXT) combination chemotherapy for unresectable non-small-cell lung cancer]. 1246 92

We conducted a phase I study to evaluate the activity and tolerability of concurrent docetaxel and cisplatinum radiosensitization with hyperfractionated irradiation, in patients with advanced non-small cell lung cancer (NSCLC) and squamous cell carcinoma of the head and neck (SCCHN). Nine patients (5 stage III(A) and 4 III(B)) with NSCLC, and 15 with SCCHN (10 stage III and 5 IV) were treated with a b.i.d. hyperfractionated (HF) radiotherapy schedule. The normalized total dose for alpha/beta ratio = 10 Gy was 69.6 Gy for NSCLC and 80.5 Gy for SCCHN patients. The standard dose of cisplatin (10 mg/m(2)) was given combined to docetaxel on a weekly basis. The docetaxel starting dose level was 10 mg/m(2)/week and was escalated by 3 mg/m(2) increments in cohorts of 8 patients (5 SCCHN and 3 NSCLC). DLT (grade 3 malaise) was observed in 4 out of 8 patients treated at the 16 mg/m(2)/week docetaxel dose level. The 13 mg/m(2)/week docetaxel dose level was defined as the MTD causing grade 3 mucositis in 4 out of 8 patients. In total 4 (17%) patients developed grade 3 neutropenia. G-CSF support was given in 1/8, 4/8, and 5/8 patients treated at the 10, 13 and 16 mg/m(2) docetaxel dose levels respectively. Fatigue was the most common adverse event (5/24: 21%) and was responsible for more than 1 week treatment delay in 4 out of 8 patients treated at the 16 mg/m(2)/week docetaxel dose level. Nine (3 NSCLC and 6 SCCHN patients: 37.5%) had treatment delay of 1 week, while 7 (3 NSCLC and 4 SCCHN: 29%) had delays of 2 weeks for combined chemoradiation sequelae. Acute hypersensitivity reactions occurred in 3 (12.5%) patients, and grade 3 mucositis in 2/8, 5/8 and 6/8 patients, treated at 10, 13 and 16 mg/m(2)/week docetaxel dose levels respectively. The overall response rate was 79% (CI = 63-96%) with 33% and 53% CRs for NSCLC and SCCHN patients respectively. There were 3 deaths among 9 NSCLC and 4 among 15 SCCHN patients. Local and/or distant disease recurrences were shown in 4 NSCLC and in 6 SCCHN patients; 5 NSCLC and 9 SCCHN patients are alive with no evidence of tumor progression at 8.5 months mean follow-up time. Radiosensitization with docetaxel and cisplatin given concurrently with HF (b.i.d.) radiotherapy on a weekly basis is a promising approach and the recommended dose for further phase II studies is 10 mg/m(2)/week for both drugs. The antitumor activity shown was significant in both types of tumors. The incorporation of docetaxel in chemoradiotherapy regimens for future treatment of squamous cell carcinoma of the lung and head and neck, merits evaluation in phase II and III trials.
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PMID:A phase I trial of weekly docetaxel and cisplatinum combined to concurrent hyperfractionated radiotherapy for non-small cell lung cancer and squamous cell carcinoma of head and neck. 1246 68

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