UMLS:C0042963 - FACTA Search

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Query: UMLS:C0042963 (vomiting)
31,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A double-blind, parallel-group study in 189 ovarian cancer patients compared the efficacy of ondansetron 8 mg i.v. (OND) and metoclopramide 60 mg i.v. (MET) both in combination with dexamethasone 20 mg i.v. in the prevention of carboplatin-induced emesis. On day 1, complete or major control of emesis (0-2 emetic episodes) was observed in 97% patients from the OND group compared with 74% patients from the MET group (p < 0.001). Similarly, a worst-day analysis over days 1-3 showed complete or major control of emesis in 87% patients (OND) compared wth 66% patients (MET) (p < 0.001). Similar findings in favour of the OND group were observed for nausea grade on day 1 and the worst-day grade during days 1-3. OND was better tolerated than MET. Fewer patients from the OND group (13%) reported adverse events compared with the MET group (21%). Extrapyramidal type symptoms were observed in 6 (6%) patients from the MET group (paraesthesia, involuntary movement of the jaw and tongue, and restlessness), compared with none from the OND group. Ondansetron plus dexamethasone is a highly effective and well-tolerated treatment and is significantly superior to metoclopramide plus dexamethasone in the prevention of carboplatin-induced emesis.
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PMID:A randomised, double-blind, parallel-group study to compare the efficacy and safety of ondansetron (GR38032F) plus dexamethasone with metoclopramide plus dexamethasone in the prophylaxis of nausea and emesis induced by carboplatin chemotherapy. 897 85

Recently, a randomized study conducted by the Gynecologic Oncology Group (GOG 111) demonstrated that, given by a 24-hour infusion, the combination of cisplatin and paclitaxel (Taxol; Bristol-Myers Squibb Company, Princeton, NJ) is superior to combination cisplatin/cyclophosphamide in previously untreated patients with advanced ovarian cancer. This combination, however, necessitates hospitalization. Combination paclitaxel/carboplatin would be expected to induce fewer nonhematologic side effects but may be more myelotoxic. Thus, we started a phase I dose-escalation study to determine the maximal tolerated dose of paclitaxel given as a 3-hour infusion in combination with carboplatin, both drugs administered every 21 days. The paclitaxel dose was escalated by increments of 25 mg/m2, starting at 135 mg/m2 (level 1), 160 mg/m2 (level 2), 185 mg/m2 (level 3), and 210 mg/m2 (level 4). Carboplatin was administered to achieve an area under the concentration-time curve of 5, using the Calvert formula For study levels 5 and 6, the carboplatin dose was targeted at area under the concentration-time curves of 6 and 7.5, respectively, and was combined with a fixed paclitaxel dose of 185 mg/m2. Thirty previously untreated patients with stage IIC to IV ovarian cancer were enrolled. Nonhematologic toxicity, including nausea/vomiting and arthralgia/myalgia, was mild. Across all dose levels, a total of 16 patients developed peripheral neurotoxicity (World Health Organization grades 1 and 2). At dose level 5, one patient experienced reversible grade 4 neurotoxicity. Neutropenia was the principal dose-limiting hematologic toxicity. During 33 (31%) of 106 courses, World Health Organization grade 4 neutropenia was observed. Granulocyte colony-stimulating factor was required in only 7.6% of courses. Thrombocytopenia was less than that expected when carboplatin is given alone. Clinical responses were observed in eight of 14 patients, for an overall response rate of 57%. The combination of carboplatin plus paclitaxel was found to be an active regimen. This trial demonstrates that carboplatin dosed by the Calvert equation and 3-hour paclitaxel can be combined safely at full therapeutic doses for six or more courses in patients with advanced epithelial ovarian cancer.
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PMID:Paclitaxel combined with carboplatin in the first-line treatment of advanced ovarian cancer: a phase I trial. 904 30

A phase II trial was conducted to further explore the potential of salvage intraperitoneal (IP) cisplatin-based therapy in patients with residual ovarian cancer. Twenty-five patients were treated with a regimen of cisplatin (75 mg/m2) and mitoxantrone (15 mg/m2) delivered IP every three weeks for a maximum of six cycles. Ten patients achieved a pathologically complete response (pCR) and six were clinically stable without evidence of disease. After a median follow-up of 18 months, the median progression-free survival (PFS) was 16 months (95% confidence interval-CI-3-29%). The actuarial PFS at 24 months was 36% (95% CI 13-59). Overall eight out of 25 patients (32%) had an IP relapse and thus were considered as local treatment failures. The major toxic side effects were nausea, vomiting, abdominal pain and renal toxicity. Future trials exploring IP delivery of these drugs should attempt to optimize drug dose and schedule and subset analysis of clinical studies should help in identifying patients who are particularly sensitive to this therapeutic approach.
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PMID:Intraperitoneal cisplatin--mitoxantrone in ovarian cancer patients with minimal residual disease. 906 30

We retrospectively reviewed the medical records of 21 patients with advanced epithelial ovarian carcinoma treated with intravenous chemotherapy in an attempt to restore intestinal function following small-bowel obstruction. All patients had a drainage gastrostomy tube placed for palliation of vomiting, and 11 patients received concomitant total parenteral nutrition (TPN). Eight (38%) patients were treated with single-agent paclitaxel, 7 (33%) received platinum-based regimens, and 6 (29%) received other second-line chemotherapy. The median survival for all patients post-gastrostomy tube placement was 84 days. The median survival for patients with recurrent ovarian cancer who received salvage chemotherapy and TPN was 89 days, longer than for patients who received salvage chemotherapy alone (71 days) (P = 0.031). Two of three patients with newly diagnosed ovarian cancer and concomitant bowel obstruction had sufficient temporary response from chemotherapy with resolution of obstruction and removal of the gastrostomy tube. Chemotherapy was ineffective in restoring bowel function in heavily pretreated patients with recurrent disease.
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PMID:Chemotherapy and total parenteral nutrition for advanced ovarian cancer with bowel obstruction. 906 58

The mechanism of action, pharmacokinetics, clinical efficacy, adverse effects, and dosage and administration of amifostine are reviewed. Amifostine is a prodrug converted by alkaline phosphatase to the active sulfhydryl compound WR-1065. WR-1065 protects normal cells by scavenging free radicals, donating hydrogen ions to free radicals, depleting oxygen, and binding to active derivatives of antineoplastic agents. The immediate conversion of amifostine to WR-1065, its small volume of distribution, and the limited amount of drug and metabolite recovered in the urine suggest that amifostine is rapidly dephosphorylated and enters cells as its active metabolite. The selectivity of amifostine for normal tissue is hypothesized to be a results of the decreased vascularity of tumors, decreased activity of alkaline phosphatase in tumor cells, and pH dependence of WR-1065 uptake. In clinical studies, amifostine decreased the frequency of cisplatin-induced nephrotoxicity, ototoxicity, neurotoxicity, and myelosuppression. Amifostine has demonstrated an ability to decrease the hematologic toxicity of cyclophosphamide, carboplatin, mitomycin, and antineoplastic drug combinations. Amifostine has FDA-approved labeling for use in reducing cumulative renal toxicity in patients receiving repeat doses of cisplatin for advanced ovarian cancer and non-small-cell lung cancer. The recommended dose in adults is 910 mg/m2 administered as a 15-minute infusion 30 minutes before the start of chemotherapy. The major adverse effects of amifostine include hypotension and emesis. The benefits of amifostine must be weighted against its potential adverse effects, and the drug's impact on the efficacy of antineoplastics should be further investigated. Amifostine has shown promise in protecting non-malignant cells from the toxic effects of antineoplastics, apparently without compromising toxicity against cancer cells.
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PMID:Amifostine for protection from antineoplastic drug toxicity. 977 47

The pharmacology, pharmacokinetics, clinical efficacy, adverse effects, and dosage and administration of gemcitabine are reviewed. Gemcitabine is a deoxycytidine-analogue antimetabolite with activity against some solid tumors. Gemcitabine is phosphorylated intracellularly to difluorodeoxycytidine triphosphate, which terminates DNA-chain elongation and competitively inhibits DNA polymerase and ribonucleotide reductase. After i.v. administration, gemcitabine is rapidly distributed into total body water. The drug is deaminated in the plasma to inactive difluorodeoxyuridine; both gemcitabine and difluorodeoxyuridine are primarily renally eliminated. In clinical studies, gemcitabine reduced pain and improved function in patients with advanced pancreatic cancer. Gemcitabine has shown some activity against non-small-cell lung cancer, particularly when combined with cisplatin or ifosfamide. The agent has also shown modest activity against advanced ovarian and breast cancer. Adverse effects include dose-limiting myelosuppression, flu-like symptoms, nausea, vomiting, and rash. Gemcitabine has FDA-approved labeling for use in the treatment of locally advanced and metastatic pancreatic cancer. The recommended dosage for this indication is 1000 mg/m2 (as the hydrochloride salt) i.v. given over 30 minutes weekly for seven weeks, followed after one week of rest by 1000 mg/ m2 i.v. given over 30 minutes weekly for three weeks every four weeks. Gemcitabine palliates symptoms in patients with advanced or metastatic pancreatic cancer. More study is needed to determine gemcitabine's role in the treatment of non-small-cell lung cancer, ovarian cancer, and breast cancer.
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PMID:Gemcitabine: a cytidine analogue active against solid tumors. 911 4

To evaluate the combined effect of granisetron and methylprednisolone against acute emesis induced by cytotoxic agents, we investigated the clinical response and the urinary excretion of 5-HIAA in 85 patients with ovarian cancer who received the same anticancer chemotherapeutic regimen in a prospective randomized trial. Each patient received one of three different regimens (granisetron alone, methylprednisolone plus granisetron, and metoclopramide alone). The combination therapy of granisetron and methylprednisolone is effective for preventing acute emesis induced by cytotoxic chemotherapy.
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PMID:Combination effect of granisetron and methylprednisolone for preventing emesis induced by cytotoxic agents. 912 35

The French Groupe des Investigateurs Nationaux pour l'Etude des Cancers Ovariens (GINECO) conducted a multicenter phase II study of carboplatin and paclitaxel (Taxol; Bristol-Myers Squibb Company, Princeton, NJ) to evaluate the efficacy and side effects of this combination in pretreated advanced ovarian cancer. Patients with progressive ovarian carcinoma during or after platinum-based chemotherapy received paclitaxel 175 mg/m2 intravenously over 3 hours followed by intravenous carboplatin over 30 minutes every 4 weeks. The dose of carboplatin was calculated using a projected area under the concentration-time curve of 5 mg/mL x min. Of the 50 patients entered, 50 were evaluable for toxicity and 42 for response. There were eight complete and 10 partial responses, for an overall response rate of 43% (95% confidence interval, 28% to 56%). Overall response rates in platinum refractory patients and in those with early (> or = 3 and < 12 months) and late (> or = 12 months) relapse was 28%, 33%, and 71%, respectively. Median response duration, progression-free survival, and overall survivals were 8, 6, and 14 months, respectively. The most frequent and severe toxicity was myelosuppression. Grades 3 and 4 neutropenia occurred in 30% and 23% of cycles, and granulocyte colony-stimulating factor was administered in 6%. Only one case of neutropenic fever was observed. Grades 3 and 4 thrombocytopenia occurred in 3% and 1% of cycles, respectively. Alopecia and moderate nausea or vomiting were frequent. Transitory peripheral neuropathy was present in 45% of patients but was severe in only one patient. One early death was observed due to progressive disease and possibly to therapy. The combination of paclitaxel 175 mg/m2 as a 3-hour infusion and carboplatin dosed to an area under the concentration-time curve of 5 is an effective therapy in patients previously treated with platinum-based chemotherapy and may be administered safely to outpatients who relapse after one or two lines of chemotherapy.
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PMID:Efficacy and safety of the combination paclitaxel/carboplatin in patients with previously treated advanced ovarian carcinoma: a multicenter French Groupe des Investigateurs Nationaux pour l'Etude des Cancers Ovariens phase II study. 934 19

CI-980 is a synthetic mitotic inhibitor that binds to the colchicine binding site of tubulin. It demonstrates broad activity against human and murine tumor models and shows no cross resistance with tumor models whose mechanism of resistance is mediated by P-glycoprotein (MDR-1). A phase I study was completed in 25 patients with solid tumors using a 24-hour infusion schedule, with courses repeated every 3 weeks. Eight dose levels were tested between 1.2 and 15.6 mg/m2. The maximum tolerated dose was 14.4 mg/m2. Neutropenia was dose-related but not dose-limiting; thrombocytopenia was infrequent. CNS toxicities were dose-limiting and consisted of dizziness, headache, loss of coordination, loss of consciousness, nervousness, and other symptoms. These events occurred near the end of the infusion and were reversible, usually within 24 hours. One patient who was to be treated at dose level 8 (intended dose was 19.2 mg/m2; actual dose was 15.6 mg/m2) became encephalopathic prior to completion of the infusion. Other adverse events included gastrointestinal toxicities (nausea, vomiting, anorexia, constipation, stomatitis, dyspepsia, bleeding, cheilitis), IV site erythema, fever, and fatigue. A partial response was observed in one patient with colon cancer and reductions in CA-125 levels were observed in 2 patients with ovarian cancer. Pharmacokinetics were linear and dose-proportional. Results indicate high systemic clearance and wide tissue distribution. Mean pharmacokinetic parameter values: T1/2 = 5.52 hours, plasma clearance 1163 mL/min/m2, and Vdss 376 L/m2.
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PMID:A phase I trial and pharmacokinetic evaluation of CI-980 in patients with advanced solid tumors. 938 46

Granisetron (G) is an effective antiemetic drug that is used to prevent cisplatin-induced emesis, although it is less effective for delayed emesis. To enhance the antiemetic effects of granisetron, corticosteroid analogues such as methylprednisolone (M) and dexamethasone (D) were employed in a study of patients treated with cisplatin (CDDP). We investigated the clinical response and urinary excretion of 5-hydroxyindole acetic acid (5-HIAA), the main metabolite of serotonin, in 31 patients with ovarian cancer or uterine endometrial cancer who received CAP therapy (CDDP 75 mg/m2) in a 3-day cross-over trial comparing G + M and G + D treated patients. Both regimens were and delayed emesis than G + D. We conclude that G + D is a more efficacious combination than G + D in protecting patients from CDDP-induced acute and delayed emesis.
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PMID:[Combination effect of granisetron plus corticosteroid for prevention of cisplatin-induced emesis: a cross-over study comparing methylprednisolone and dexamethasone]. 961 30

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