UMLS:C0027497 - FACTA Search

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Query: UMLS:C0027497 (nausea)
23,468 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

One of a novel series of compounds (AMAPS or arylmethylaminopropanediols), 773U82-HCl has shown significant antitumor activity in in vitro and in in vivo tumor systems, but has less animal CNS toxicity than the lead compound in the same series (crisnatol). This study was designed to evaluate the pharmacokinetics, qualitative and quantitative toxicities of 773U82-HCl and to determine the recommended phase II dose (MTD) of 773U82-HCl given as a short infusion daily for 3 days every 3 weeks. Twenty-nine patients with refractory malignancies received 79 courses over 9 dose levels during this study. Doses ranged from 50 to 1060 mg/m2/d x 3 days. Due to the possibility of local hemolysis with concentrations > 1.5 mg/ml, drug was administered in solutions containing < or = 1.5 mg/ml. Because large volumes were needed at the higher dose levels, the infusion duration was increased from 2 hours to 4 hours. Mild to moderate nausea, vomiting, fatigue, dizziness and headaches were observed. Myelosuppression was the dose limiting toxicity. The recommended phase II dose and schedule was determined to be 800 mg/m2/d x 3d every 3 weeks. 773U82-HCl plasma concentration-time data were analyzed using a two-compartment pharmacokinetic model. The t1/2 beta averaged 6 hours and the total body clearance was 75.9 L/hr/m2. The volume of distribution (Vdss) was large, averaging 470 L/m2.
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PMID:Phase I evaluation of 773U82-HCl in a two-hour infusion repeated daily for three days. 148 1

A phase I clinical study of intravenous Tegafur was conducted in nineteen previously treated patients with primary lung cancer. The dose of Tegafur was elevated from 1.0 to 3.0 g/m2/day for five consecutive days to determine the maximum tolerated dose. The dose-limiting factors were gastrointestinal and neurological toxicity and fatigability observed with the dose level of 2.5 g/m2/day for 5 days. Hematologic, hepatic and renal toxicities were not observed. Gastrointestinal toxicity including nausea, vomiting, anorexia and diarrhea of over grade 2 were seen to result from the dose of 2.5 g/m2/day. Neurological toxicity consisted of headache, dizziness, anxiety and depression. At the dose level of 2.0 g/m2/day, one patient, who had epileptic seizures in the past, experienced a psychomotor seizure. Depression (Grade 2 CNS toxicity) was observed at the dose level of 3.0 g/m2/day. Dose limiting factors were neurological toxicities. The pharmacokinetics of tegafur and 5-FU (the active form of Tegafur) has been studied in all patients. Serum level of tegafur was measured by HPLC method, and serum level of 5-FU was analyzed by GC-MS method. At the dose level greater than 2.0 g/m2/day for 5 days, the mean serum 5-FU values appear over the therapeutic range (0.1 micrograms/ml). In conclusion, 2.5 g/m2/day for 5 days was considered to be MTD, and 2.0 g/m2/day for 5 days intravenous administration was recommended for the phase II trial of single agent chemotherapy.
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PMID:[High-dose Tegafur (FT) for primary lung cancer: a phase I trial]. 201 1

Recently 5'-DFUR (5'-deoxy-5-fluorouridine) was developed as a new anticancer drug in Japan. The compound was active against various murine tumors by oral administration and the toxicity was almost comparable to the other prodrugs of 5-fluorouracil (5-FU). 5'-DFUR is converted to 5-FU in vivo by pyrimidine nucleoside phosphorylase which was found to exist relatively much in tumor tissues compared to normal ones except intestinal tract. In the phase I study, the dose-limiting toxicities were gastro-intestinal (GI) ones such as nausea, vomiting, anorexia etc., and the MTD was 2,100 mg/body/day (oral administration). In the multi-institutional phase II studies, clinical activity of 5'-DFUR was found in head and neck, thyroidal, esophageal, gastric, colo-rectal, gall-bladder and breast cancers at daily doses of 800-1,200 mg/body. The main side effects were consisted of GI-toxicities in which diarrhea appeared most frequently (26.3%). This diarrhea, however, disappeared rapidly by decreasing the dosage or termination of treatment. In the comparative clinical studies of 5'-DFUR with tegafur against advanced breast cancer cases, 5'-DFUR was found superior to tegafur in the clinical responses. From these results, 5'-DFUR was judged as an useful new anticancer drug.
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PMID:[A new anticancer drug, 5'-deoxy-5-fluorouridine (5'-DFUR)]. 295 7

LY188011 (Gemcitabine hydrochloride) is a new derivative of deoxycytidine. Phase I study was carried out by a cooperative study group. LY188011 was administered weekly for 3 consecutive weeks starting with an initial dose of 60 mg/m2 (1n) and then increasing the dosage to 1,000 mg/m2 (16.7n). Dose limiting factor was found to be myelosuppression (decreases of WBC, neutrophils and platelet), and MTD was considered to be 1,000 mg/m2. The nadir of WBC and platelet were observed after about 1-3 weeks. It took 1-2 weeks for their recovery. Other adverse reactions included fever, fatigue, anorexia, nausea/vomiting, anemia and transient elevations of GOT and GPT. However, those adverse reactions were mild. T1/2 rho of plasma concentration was about 19 min and the C5min was dependent on the dose. Anti-cancer effects were observed in one gastric cancer and two colon cancer patients. It is recommended that the dosing schedule for an early phase II study is 800 mg/m2 weekly for 3 weeks with 1 week of rest as one cycle, in multiple cycles.
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PMID:[LY188011 phase I study. Research Group of Gemcitabine (LY188011)]. 868 15

Nedaplatin is a derivative of cisplatin which produced less nausea & vomiting and nephrotoxicity. In the phase I study, the MTD was 120 mg/m2 and the DLF was a bone marrow suppression. The optimal dose in a phase II study was judged to be 100 mg/m2 repeated every 4 weeks. In the phase II studies, response rates obtained were 42.2% for head & neck ca., 40.9% for small cell lung ca. (SCLC), 20.5% for non-SCLS (NSCLC), 12.5% for breast ca., 51.7% for esophageal ca., 8.3% for stomach cancer. 0 for colon ca., 38.1% for bladder ca., 14.3% for pyelo-ureter tract ca., 18.8% for prostatic ca., 80.0% for testicular tumor, 37.3% for ovarian ca., 46.3% for cervical ca. Grade 3.4 thrombocytopenia, leukopenia, anemia and nausea & vomiting were found in 28.5%, 21.1%, 16.8% and 18.5% respectively. In an additional phase II study for cervical ca. at a dose reduced to 80 mg/m2, a response rate was comparable together with less thrombocytopenia. In a randomized controlled study of nedaplatin plus vindesine vs. cisplatin plus vindesine in NSCLC, there was no significant difference in response, however mephro and G.I. toxicity were significantly less in the nedaplatin group. Thrombocytopenia was found more frequently in the nedaplatin groups. Based on the results, the indication was approved in ca. of the head & neck, SCLC, NSCLC, esophagus, bladder, testicular tumor, ovary and cervix. Dose schedule is 80 - 100 mg/m2 every 4 weeks at more 1,000 mL drip infusion repeated.
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PMID:[Nedaplatin]. 871 35

JM216 [bis-acetato-ammine-dichloro-cyclohexylamine-platinum(IV)] is an oral platinum complex that is currently in phase II trials in ovarian cancer and lung cancer on a daily-times-5 schedule. This trial examined an alternative schedule of two doses given 12 h apart, which may be better tolerated by patients. A total of 19 patients were given 50 cycles of treatment at doses ranging from 150 to 350 mg/m2 b.i.d. The study was stopped before the MTD was reached due to non-linear pharmacokinetics. Toxicity was similar to that encountered in previous phase I studies, with nausea, vomiting and diarrhoea being seen at all dose levels, although this was generally mild and short-lived, and grade 3 and 4 myelosuppression being seen at dose levels ranging from 250 to 350 mg/m2. There was no nephro-, oto-, or neurotoxicity, but one patient had an allergic reaction at 300 mg/m2 on the fifth and sixth cycles. No response was seen, but two patients with mesothelioma had stable disease and received six cycles. There was considerable interpatient variability in plasma pharmacokinetics at all dose levels. There was no relationship between dose and AUC (dose 1 and dose 2) or Cmax after dose 1. In a limited number of patients the first dose was given in the morning rather than in the evening, apparently resulting in lower AUC, Cmax and Tmax values at the 250-mg/m2 dose level, but this was not seen in one patient at 300 mg/m2. This study confirms that the pharmacokinetics of JM216 is non-linear and highly variable due to saturable absorption and that the daily times 5 schedule is the optimal schedule for further phase II trials.
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PMID:Phase I study of oral JM216 given twice daily. 965 14

CBT-1, a natural product, was studied as an MDR modulator with Taxol (135 mg/m2) in an escalating dose Phase I clinical trial. CBT-1 was administered orally at doses from 300 mg/m2 to 500 mg/m2 daily x 7. The MTD was determined to be 500 mg/m2 with moderate nausea and occasional emesis. Side effects were mainly attributable to Taxol rather than the study drug. A total of 18 patients were registered on study with only one patient determined to be intolerant of CBT-1 due to nausea and emesis. In this Phase I study four patients (3 breast, 1 NSCLC) remained stable for greater than two cycles of treatment. No complete or partial responses were seen in this Taxol resistant population of patients with advanced cancer.
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PMID:Phase I study of CBT-1 and Taxol in patients with Taxol resistant cancers. 1080 20

CBT-1, a natural product, was studied in an escalating dose Phase I clinical trial with doxorubicin at 60 mg/m2. CBT-1 was administered by mouth at doses from 200 mg/m2 to 600 mg/m2. The drug was given for 7 days and doxorubicin administered intravenously on day 6. The MTD was determined to be 500 mg/m2 although some patients did tolerate 600 mg/m2 with moderate nausea and occasional vomiting. Side effects were otherwise mild in the 23 patients treated. Pharmacokinetic determinations in an additional 11 patients demonstrated that CBT-1 did not significantly alter the pharmacokinetics of doxorubicin. In this Phase I study, 25 of 34 patients were evaluable for response and 5 patients demonstrated tumor shrinkage.
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PMID:A phase I and pharmacokinetic study of CBT-1 as a multidrug resistance modulator in the treatment of patients with advanced cancer. 1085 Mar 43

Irofulven (MGI 114, 6-hydroxymethylacylfulvene, HMAF) is a semisynthetic illudin analog with broad in vitro anti-neoplastic activity. In this leukemia phase I study, we investigated the toxicity profile and activity of Irofulven in patients with primary refractory or relapsed acute myeloid leukemia (AML), acute lymphocytic leukemia (ALL), or myelodysplastic syndromes (MDS). Irofulven was given as an intravenous infusion over five minutes daily for five days. The starting dose was 10 mg/m2/day (50 mg/m2/course). Courses were scheduled to be given every 3-4 weeks according to toxicity and antileukemic efficacy. Twenty patients [AML: 17 patients; MDS: one patient; ALL: one patient; mixed lineage acute leukemia: one patient] were treated. Nausea, vomiting, hepatic dysfunction, weakness, renal dysfunction, and pulmonary edema were dose limiting toxicities, occurring in two of five patients treated at 20 mg/m2/day and two of three patients treated at 12.5 mg/m2/day. The MTD was defined as 10 mg/m2/day for five days. One patient with primary resistant AML achieved complete remission. Proposed phase II studies will further define the activity of Irofulven in patients with better prognosis AML and in other hematological malignancies, both as a single agent and in combination regimens, particularly with topoisomerase 1 inhibitors.
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PMID:Phase I study of irofulven (MGI 114), an acylfulvene illudin analog, in patients with acute leukemia. 1129 29

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

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