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)

Melphalan has a steep dose-response curve, but the use of high doses results in unacceptable myelosuppression. Strategies to circumvent this dose-limiting myelosuppression would allow for the administration of higher, more effective doses of melphalan. Amifostine (WR-2721) has been shown in preclinical studies to protect the bone marrow from the myelotoxicity of melphalan, and in clinical trials, to protect from the myelotoxicity of other alkylating agents. A Phase I trial of the combination of amifostine and melphalan was performed in children with refractory cancers to: (a) define the acute toxicities of amifostine and its maximum tolerated dose (MTD); and (b) to determine whether the dose of melphalan could be safely escalated when administered in combination with amifostine. Amifostine was administered i.v. as a 15-min infusion 30 min before melphalan. The starting dose of amifostine was 750 mg/m2, with planned dose escalations in 30% increments. Melphalan was administered as a 5-min infusion using the previously defined MTD in heavily pretreated patients, 35 mg/m2, as the starting dose. The dose of melphalan was escalated by 30% increments. Nineteen patients, ranging in age from 3 to 24 years (median, 15 years), were entered on trial. The dose of amifostine was escalated to 2700 mg/m2, which is approximately 3-fold higher than the adult recommended dose, without reaching a MTD. Fifteen patients experienced nondose-limiting (< 25%), transient decreases in blood pressure after the amifostine infusion. Other nondose-limiting toxicities of amifostine included mild nausea and vomiting, flushing, anxiety, diarrhea, and urinary retention. Six patients, three each at the 2100 and 2700 mg/m2 amifostine dose levels were treated with an escalated dose of melphalan (45 mg/m2). All of these patients experienced grade 4 neutropenia (< 500/mm3), and five of six patients had grade 4 thrombocytopenia. The duration of this dose-limiting myelosuppression exceeded 7 days in four of six patients. Although no dose-limiting (grade 3 or 4) toxicity was attributed to amifostine, significant anxiety and reversible urinary retention occurred at the two highest amifostine dose levels. A dose of 1650 mg/m2 for pediatric Phase II trials is recommended. High doses of amifostine, however, do not appear to allow for escalation of melphalan beyond its single agent MTD of 35 mg/m2.
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PMID:A phase I trial of amifostine (WR-2721) and melphalan in children with refractory cancer. 766 82

Amifostine (US Bioscience, West Conshohocken, PA; Ethyol, WR-2721), a phosphorylated thiol developed by the United States Army as a protective agent for military personnel in the event of nuclear warfare, has shown protection of normal tissues from the cytotoxic effects of therapeutic radiation and chemotherapy with preservation of cytotoxic effects on the tumor. The basis of this selective protection derives from the relatively rapid uptake and anabolism of Amifostine into normal tissues and minimal, slower uptake into tumor tissue. Preclinical investigations have demonstrated protection of bone marrow stem cells from the toxic effects of radiation and chemotherapy. Several controlled clinical trials demonstrated this hematoprotective effect. In patients given 1.5 g/m2 cyclophosphamide and month later given Amifostine (740 mg/m2) followed by the same dose of cyclophosphamide, the median nadir neutrophil count was significantly increased and duration of neutropenia was significantly reduced by pretreatment with Amifostine. In women with stage III/IV ovarian cancer treated with 1 g/m2 cyclophosphamide and 100 mg/m2 cisplatin +/- Amifostine 910 mg/m2, treatment with Amifostine before cyclophosphamide and cisplatin resulted in a significant decrease in both the incidence and duration of hospital stays for neutropenic fever compared to cyclophosphamide and cisplatin alone. There were equivalent rates of response and duration of survival in both groups. Other studies have shown Amifostine protects bone marrow purged in vitro with 4-hydroperoxycyclophosphamide before autologous bone marrow transplantation. This preservation of marrow stem cells resulted in a statistically significant decrease in time to marrow engraftment, need for platelet transfusions and antibiotics, and duration of hospital stay. Amifostine-mediated protection of normal bone marrow illustrated in preclinical experiments is also evident in clinical trials. Amifostine preserves trilineage stem cells (red blood cells, platelets, and white blood cells) in contrast to the lineage-specific effects of the colony-stimulating factors. Theoretically, Amifostine and the colony-stimulating factors should provide complementary benefits to bone marrow recovery and function after cytotoxic therapies. These observations offer the promise of using high doses of chemotherapy to exploit antitumor, dose-response relationships in clinical trials.
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PMID:Amifostine-mediated protection of normal bone marrow from cytotoxic chemotherapy. 824 82

Amifostine (WR-2721) was originally developed as a radioprotective agent. In animals, it protects normal tissues from the damaging effects of irradiation and, as shown in more recent studies, of several cytotoxic agents. Protection of tumours is generally reduced compared with that of normal tissues in animals, suggesting that amifostine may increase the therapeutic window of cytotoxic therapies. Clinical data concerning amifostine suggest that cytotoxic chemotherapy-induced haematological toxicity and cisplatin-induced neurotoxicity, nephrotoxicity and ototoxicity are decreased upon administration of amifostine prior to cytotoxic drugs. Similarly, amifostine reduces damage to normal tissues caused by radiotherapy. Available data show that this protection is achieved without adversely affecting tumour response or patient survival. In 1 large trial, the reduction in cyclophosphamide- and cisplatin-related toxicities manifested as a decrease in the incidence and severity of neutropenia-related fever and sepsis and in the number of patients with ovarian cancer who discontinue therapy before completion of treatment, thus improving the tolerability of this antineoplastic regimen. In addition, the incidences of cisplatin-induced nephro- and neurotoxicity were reduced. Increased doses of cytotoxic therapy have also been administered when amifostine was given prior to therapy, which may increase tumour response. The predominant adverse effect associated with amifostine are hypotension, nausea and vomiting, somnolence and sneezing. Thus, amifostine is likely to be a useful adjuvant to the treatment of patients with malignancy, particularly those receiving cyclophosphamide plus cisplatin. discontinued therapy before completion of treatment, thus improving the tolerability of this antineoplastic regimen. In addition, the incidences of cisplatin-induced.
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PMID:Amifostine. A review of its pharmacodynamic and pharmacokinetic properties, and therapeutic potential as a radioprotector and cytotoxic chemoprotector. 861 69

The first report on the administration of the chemoprotective agent Ethyol (amifostine) in conjunction with high dose carboplatin to a patient in the pediatric/adolescent age group is presented. A 17 year old teenager with recurrent cerebellar medulloblastoma received a total of five courses of high dose carboplatin 2 x 600 mg/m2 (1200 mg/m2 total) in each cycle. A complete response has been observed following the third treatment cycle. However, cumulative grade IV hematological toxicity developed following each of the first four treatments. Therefore, the fifth treatment was administered in conjunction with amifostine, at a dose of 2 x 740 mg/m2. Time to complete hematological recovery (Hb > 100 g/l, granulocytes > 2.0 G/l, platelets > 100 G/l) was 52, 58, 72, 78 and 50 days, respectively, following treatments nos 1, 2,,3, 4 and 5. The duration of grade III-IV neutropenia (< 1.0 G/l) was 3, 7, 8, 10 and 5 days, respectively. The duration of grade II-IV thrombocytopenia (platelets < 75 G/l) was 10, 25, 35, 40 and 32 days, respectively. Grade IV thrombocytopenia (platelets < 25 G/l) lasted for 5, 10, 12, 18 and 3 days, respectively, after each consecutive treatment. The total number of platelet transfusions was 1, 2, 2, 3 and 1, with the transfusion of 6, 9, 11, 11 and 5 units of platelets. The administration of amifostine has not been accompanied by any serious side effect. A short decrease in body temperature and a transient drop of blood pressure have been observed. Although hematological toxicity of high dose carboplatin has not been eliminated by amifostine, we conclude that significant protection was achieved in this situation of progressive bone marrow exhaustion.
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PMID:Administration of Ethyol (amifostine) to a child with medulloblastoma to ameliorate hematological toxicity of high dose carboplatin. 874 9

Amifostine is a sulfhydryl compound that protects against the cytotoxicity of cytotoxic agents and ionizing radiation. Preclinical and clinical studies also suggest that amifostine may potentiate the effects of cytotoxic drugs. We therefore conducted a phase II trial of amifostine, cisplatin, and vinblastine in 25 previously untreated patients with metastatic non-small cell lung cancer. Patients received amifostine (740 or 910 mg/m(2) prior to cisplatin 120 mg/m(2) on day 1, plus vinblastine 5 mg/m(2) weekly. Cycles were repeated every 4 weeks. Patients were required to have good performance status, no prior chemotherapy or biologic therapy, adequate organ function, and measurable disease. Sixteen of 25 evaluable patients had an objective response (64%; 95% confidence interval, 45% to 85%). With a median duration of follow-up of 19.2 months, the estimated median length of survival is 17 months and the 1-year survival rate is 64% (+/- 10%). Toxicities included reversible grade 3 nephrotoxicity (12%), hypotension (16%), grades 3 and 4 neutropenia (8% and 92%, respectively), and nausea and vomiting (32% and 4%, respectively). Grade 3 neuropathy was observed in seven patients at cumulative cisplatin doses ranging between 324 and 660 mg/m(2); grade 3 ototoxicity occurred in three patients at cumulative cisplatin doses ranging between 390 and 450 mg/m(2). The amifostine, cisplatin, and vinblastine regimen appears to be highly active against metastatic non-small cell lung cancer. Acute toxicities were generally reversible and the data suggest that amifostine may protect against long-term renal insufficiency from cumulative cisplatin doses. Additional studies are warranted to confirm the high response rate and prolonged survival, and to determine the mechanism of the antitumor effect.
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PMID:High-dose cisplatin and vinblastine plus amifostine for metastatic non-small cell lung cancer. 878 72

Amifostine selectively protects normal, but not tumor, tissue from the cytotoxic damage induced by radiation therapy and chemotherapy. In a broad range of preclinical and phase II and III clinical studies, amifostine has been shown to substantially reduce anticancer drug-induced neutropenia, thrombocytopenia, nephrotoxicity, neurotoxicity (including ototoxicity and peripheral neuropathy), musculoskeletal toxicity, cardiotoxicity, and mutagenicity. Based on the rapidly expanding clinical trials database, there is strong rationale to design phase II and III studies of amifostine as a cytoprotective agent in patients with early and/or advanced breast, bladder, cervix, head and neck, small cell and non-small cell lung, ovarian, and rectal cancers, as well as melanoma, pediatric sarcomas, and lymphomas, including Hodgkin's disease. In this article, we have attempted to survey recently completed and ongoing phase II and III clinical studies and suggest specific designs for future clinical trials to establish the ultimate role of amifostine as a broad-spectrum cytoprotective agent.
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PMID:Future development of amifostine in cancer treatment. 878 74

Mitomycin C (MMC)-vinblastine (VBL) is a regimen that has commonly been used as salvage therapy for advanced breast cancer for many years. The hematologic toxicity of this combination is one aspect that limits its usefulness. Amifostine, an organic thiophosphate, has been developed as a selective chemoprotective agent. In this pilot study, we tested the feasibility of MMC/VBL administration in combination with amifostine and we monitored the hematologic toxicity closely. Patients having failed one or two chemotherapy regimens for advanced breast cancer, with a good performance status scored at 2 or better and measurable or evaluable lesion(s), were eligible. They were treated according to the following schedule: mitomycin C 10 mg/m2 i.v. day 1, vinblastine 5 mg/m2 i.v. day 1 and 15, amifostine 910 mg/m2 in short i.v. infusion prior to MMC. Premedication consisted of dexamethasone 3 x 20 mg, haloperidol 2 x 0.5 mg p.o., hydration with 11 of normal saline, metoclopramide 1.5 mg/kg in short infusion and procyclide HCl 10 mg i.v. Cycles were repeated every 4 weeks. In all, 14 cycles were administrated to six heavily pretreated patients. Following the first cycle, five of the six patients experienced grade 3 or 4 neutropenia on day 15, and consequently did not receive the second vinblastine administration as planned. Three out of four patients receiving two or more cycles had moderate thrombocytopenia. There were no patients with neutropenic fever or major bleeding problems. The MMC/VBL+amifostine regimen was well tolerated regarding other toxicities. Neither amifostine-related acute vomiting nor any significant decrease in blood pressure was observed. Administration of amifostine in combination with MMC/VBL was feasible but in this group of heavily pretreated patients there were no hints of a protective effect of amifostine on the hematologic toxicity profile of this chemotherapy regimen.
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PMID:Mitomycin C and vinblastine in combination with amifostine in metastatic breast cancer. A feasibility study of the EORTC--Investigational Drug Branch for Breast Cancer (IDBBC). 932 55

Physicians are frequently pressured to make therapeutic decisions within a cost-effective framework to demonstrate value to managed care. Because cancer is a chronic disease, health care costs are known to be expensive and physicians must use their resources as efficiently as possible. Historically, economic analyses in oncology have emphasized survival as their clinical end point. Today, both government groups and professional organizations are moving toward making quality of life the clinical end point in determining the economics of chemotherapy. This report evaluates the cost and efficacy of amifostine (Ethyol; Alza Pharmaceuticals, Palo Alto, CA/US Bioscience, West Conshohocken, PA) use in the treatment of advanced ovarian cancer using two pharmacoeconomic analyses. A cost-utility analysis performed in the United States indicated that inclusion of amifostine therapy had both a favorable clinical and cost-utility profile compared with other medical therapies. A second cost-benefit analysis, conducted in Canada, suggested that use of amifostine in patients with advanced ovarian cancer would be cost saving. Amifostine is a novel agent that protects against both chemotherapy- and radiotherapy-induced toxicities, such as nephrotoxicity, neutropenia, thrombocytopenia, peripheral neuropathy, mucositis, and xerostomia. These toxicities are disturbing to both patients and physicians alike. The results of these studies support the use of amifostine as a valuable resource both economically and clinically.
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PMID:Pharmacoeconomics of amifostine in ovarian cancer. 1034 68

Much effort is being made to reduce the iatrogenic toxicity of antineoplastic treatments in order to improve the quality of life of cancer patients. Cytoprotection of healthy tissue by thiol group donors is one of the most promising lines of research. Amifostine is the most extensively studied drug in the category. We reviewed the extensive medical literature on amifostine. The protective effect of amifostine has been demonstrated for cisplatin-induced toxicity in lung and ovarian cancer, with particular regard to nephrotoxicity, neurotoxicity and neutropenia. No protective effect has been seen for tumor cells owing to a selective action of amifostine on healthy tissues. A frequent side effect of amifostine is a transient decreases in blood pressure; it is usually asymptomatic if an easily handled premedication is given. Cytoprotection by amifostine is also well known for alkylating drugs and radiation therapy, whereas it is still the object of study for new drugs, especially taxanes. The present work also includes a cost-benefit analysis and a prospective view on the most promising research lines.
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PMID:Protection of normal tissues from radiation and cytotoxic therapy: the development of amifostine. 1036 72

Patients receiving systemic cancer chemotherapy must often have their dose intensity of therapeutic agents reduced, because a broad range of organs are adversely affected. Therefore, research and the development of agents protecting the normal tissues from the toxicity of antineoplastic therapy, without reducing the antitumour efficacy, are very important. Amifostine, a prodrug that forms an activated free thiol, when dephosphorylated by alkaline phosphatase, appears selective in its entry in non-malignant cells, and exerts a protective effect from toxicity induced by chemo- or radiotherapy on normal tissues, through free radical scavenging, hydrogen donation and inhibition of DNA damage. Studies in vitro and experimental models have confirmed the protective properties of amifostine in normal cells. In clinical trials pretreatment with amifostine reduced the frequency of cyclophosphamide induced neutropenia and nephro-, oto- and neurotoxicity of platinum compounds. In some cases the use of amifostine have also potentiated the effects of several drugs, such as alkylating agents and, in recent studies, taxanes. The main potentially dose-limiting adverse effect is hypotension, that is often asymptomatic. Amifostine is thus usefully employed in order to obtain a better quality of life in patients receiving oncologic treatments.
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PMID:Amifostine: A selective cytoprotective agent of normal tissues from chemo-radiotherapy induced toxicity (Review). 1052 12

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