Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0043352 (xerostomia)
4,250 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The radiation induced xerostomia is a common and, up to now, irreversible side effect of the definitive or postoperative treatment of ENT cancers. A possible mechanism is the apoptosis of serous gland cells. The sequelae of xerostomia are increasing cavities, plaques and parodontosis, infections in the pharynx, taste alterations and weight loss. Therapeutic approaches include improved oral hygiene, dietetic adjustments, artificial saliva and most recently, medication. Pilocarpine, a parasympathomimeticum, results in a degranulation of the secretoric granula and consequently, lowers the radiosensitivity of the cells. Amifostine acts a scavenger of radicals and is concurrently tested in a phase III clinical trial to evaluate the selective protection of normal tissue during radiotherapy.
...
PMID:[Campaign against radio-xerostomia]. 970 18

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.
...
PMID:Pharmacoeconomics of amifostine in ovarian cancer. 1034 68

Amifostine (Ethyol), the first broad-spectrum cytoprotectant approved in many countries for clinical use, is an analog of cysteamine and was originally developed by the U.S. Walter Reed Army Institute of Research in the 1950s as a radioprotective agent. Studies have shown that amifostine selectively protects normal tissues of various organs from the effects of radiation and multiple cytotoxic chemotherapeutic drugs. Amifostine has demonstrated broad-spectrum cytoprotection against myelotoxicity, nephrotoxicity, xerostomia, and mucositis associated with various chemotherapy and radiation modalities. Amifostine has been evaluated in large comparative clinical trials in patients with advanced ovarian cancer, rectal cancer, and head and neck cancer, and in many phase 2 trials in patients with various neoplastic diseases. These trials have shown that amifostine delivers protection from the cytotoxic effects of cisplatin, cyclophosphamide, and radiation on various organs. Pretreatment with amifostine has also improved salivary gland tolerance of high-dose radioiodine treatment. Recent unique observations include improvement in cytopenia in patients with myelodysplastic syndrome. This review summarizes preclinical and clinical data on amifostine and includes trials that evaluated the drug's chemoprotective and radioprotective effects and other potential uses in clinical oncology.
...
PMID:Chemoprotective and radioprotective effects of amifostine: an update of clinical trials. 1119 8

The authors discuss the results of 3 studies of their group reflecting the possible role of amifostine in simultaneous radiochemotherapy (RCT) of advanced head and neck cancer. In a controlled phase II trial (1995 through 1996), 39 patients were included in this pilot investigation. A control group (n = 14) received simultaneous RCT of the head and neck region with an irradiation dose of 60 Gy and 2 cycles of carboplatin (700 mg/m(2) cumulative dose). Twenty-five patients received the same basic therapy and an additional 500-mg dose of amifostine before each chemotherapy. Amifostine was administered less than 45 minutes before the end of radiotherapy. The authors observed a dramatic reduction of typical radiotherapy-associated toxicities (mucositis, xerostomia, loss of taste, dysphagia). The hematologic side effects (leukocytopenia, anemia, thrombocytopenia) also were decreased significantly. The overall survival rate and locoregional control of both groups were comparable after 12 months. In a controlled intensification trial (1997 through 1999), the authors included 76 consecutive patients (69 men, 7 women) with pharyngeal cancer (oropharynx, n = 33; hypopharynx, n = 43). The tumors were characterized as unresectable and locally advanced without distant metastasis. All patients received a conventional radiotherapy (2-Gy single dose, daily fractionation) up to doses of 60 Gy and an additional 10 Gy as a boost in the tumor-infiltrated region. A dose of carboplatin, 70 mg/m(2), was given to a group of 45 patients on days 1 through 5 and 29 through 33 of radiotherapy (RCT arm). The resulting cumulative dose was 700 mg/m(2). A group of 31 patients (RCTintens arm) received the same dose of carboplatin on days 1 through 5, 22 through 26, and 43 through 47 or 1 through 5, 15 through 19, 29 through 33, and 43 through 47 of radiotherapy (cumulative dose 1.05 to 1.40 mg/m(2)). All patients received 500 mg of amifostine before each carboplatin administration. If the tumor volume was less than 20 cm(3), we observed an increased 1-year overall survival rate (91% v 71%) and time to progression (17 months v 10 months). If the tumor volume was greater than 20 cm(3), we observed comparable treatment results in both groups (1-year survival rate, 60% v 61%; time to progression, 13 months v 12 months). In a long-term follow-up investigation (1999 through 2000), 531 patients (89 women, 442 men) were analyzed according to their toxicities during regular follow-up investigations at our outpatient facility. All patients were treated by surgery or radio(chemo)therapy because of an advanced head and neck cancer. A total of 218 of 531 patients received the antineoplastic therapy without cytoprotection. An additional 313 patients received their RCT combined with amifostine administration before administration of the radiosensitizer. A significant influence of cytoprotection was registered in the following toxicities: xerostomia, fibrosis, loss of taste, and dysphagia. No impact was seen on the development of interstitial lymph edema and esophageal stenosis. Amifostine could be integrated in simultaneous radiochemotherapy of advanced head and neck cancer patients. The authors favor the administration of amifostine before chemotherapeutics alone. Selective cytoprotection could decrease the main acute toxicities (mucositis, xerostomia, dysphagia) as well as late side effects (xerostomia, loss of taste, fibrosis) of this form of combined treatment. The enhanced therapeutic index may be changed into a prognostic benefit for selected patients with unresectable tumors, if the volume is smaller than 20 cm(3).
...
PMID:Amifostine in simultaneous radiochemotherapy of advanced head and neck cancer. 1191 77

This phase II trial was designed to verify that subcutaneous (SC) administration of Amifostine (Ethyol) protects against radiation therapy (RT)-induced xerostomia and ameliorates amifostine-related side effects (including nausea, vomiting, and hypotension). Patients receiving amifostine SC plus RT had a 56% incidence of acute xerostomia, comparable with previous phase III data with intravenous administration of amifostine. There was good tolerability, with cutaneous toxicity as the most significant side effect. These data suggest that amifostine SC provided comparable protection against RT-induced acute xerostomia as amifostine intravenously.
...
PMID:A phase II trial of subcutaneous amifostine and radiation therapy in patients with head and neck cancer. 1191 79

The degree of xerostomia has been reported to depend on the radiation dose and the salivary gland volume irradiated. Sparing salivary function can be achieved by reducing radiation dose to the salivary glands or using a radiation protector, such as amifostine (Ethyol). In this report, the author reviews clinical experiences in intensity-modulated radiation therapy (IMRT) for head and neck cancer. In experiences, the dosimetric advantage of IMRT did translate into significant reduction of late salivary toxicity in patients with oropharyngeal carcinoma. The author has found no adverse impact on tumor control and disease-free survival in patients treated with IMRT. Further, when studying the dose response of parotid gland after irradiation, it was found that the stimulated saliva flow 6 months after IMRT treatment reduced at approximately 4% per Gy exponentially of the mean parotid dose. The authors also review existing clinical data on the combination of amifostine and radiation and the potential therapeutic gain in combining IMRT with amifostine.
...
PMID:Protection of salivary function by intensity-modulated radiation therapy in patients with head and neck cancer. 1191 80

Amifostine (Ethyol) has been evaluated clinically as a radioprotective agent for the prevention of xerostomia and mucositis for patients receiving radiotherapy (RT). Currently, amifostine is approved for the prevention of xerostomia in head and neck cancer patients receiving RT when administered intravenously (IV) before RT. For the clinician, there would be several advantages to administering the drug subcutaneously and to being able to show its protective effects on mucositis. The authors have developed a rat RT model to examine the protective effects of amifostine after IV and subcutaneous (SC) administration in a mucositis model. Rats (5 per group) were given 200 mg/kg (human dose equivalent of approximately 1,300 mg/m(2)) of amifostine either IV or SC, and their head and neck regions were exposed to 15.3 Gy of gamma radiation 0.5, 2, 4, and 8 hours after amifostine administration. For 10 days after treatment, the oral cavities of the rats were examined for signs of mucositis. Mucosal erythema and mucosal edema were scored according to 0 through 5 and 0 through 2 scales, respectively, with the scores added to indicate overall mucositis. The average mucositis score for the untreated animals was 3.5. Rats were protected from mucositis up to 4 hours when given amifostine either IV or SC. Rats that received amifostine SC, but not IV, were protected from mucositis 8 hours after administration. Preliminary pharmacokinetic data have revealed slightly higher active metabolite (WR-1065) levels in the parotid gland and small intestine in the rats given amifostine SC compared with IV and equivalent levels in the plasma and kidney. The data showed that SC administration of amifostine gave radioprotection comparable to IV administration up to 4 hours before RT and may be more effective than IV administration at longer pretreatment intervals.
...
PMID:Preclinical modeling of improved amifostine (Ethyol) use in radiation therapy. 1191 93

Amifostine (Ethyol), an inorganic thiophosphate, is a selective broad-spectrum cytoprotector of normal tissues that provides cytoprotection against ionizing radiation and chemotherapeutic agents, thus preserving the efficacy of radiotherapy and chemotherapy. This review summarizes the preclinical data and clinical experience with amifostine, and provides insight into future clinical directions. Amifostine, an inactive pro-drug, is transformed to an active thiol after dephosphorylation by alkaline phosphatase found in the normal endothelium. The absence of alkaline phosphatase in the tumoral endothelium and stromal components, and the hypovascularity and acidity of the tumor environment, may explain its cytoprotective selectivity. The cytoprotective mechanism of amifostine is complicated, involving free radical scavenging, DNA protection and repair acceleration, and induction of cellular hypoxia. Intravenous administration of amifostine 740-900 mg/m(2) before chemotherapy and 250-350 mg/m(2) before each radiotherapy fraction are widely used regimens. The US Food and Drug Administration has approved the use of amifostine as a cytoprotector for cisplatin chemotherapy and for radiation-induced xerostomia. Ongoing trials are being conducted to determine the efficacy of amifostine in reducing radiation-induced mucositis and other toxicities. Novel schedules and routes of administration are under investigation, and may further simplify the use of amifostine and considerably broaden its applications.
...
PMID:Amifostine in clinical oncology: current use and future applications. 1198 63

Dermatomyositis is associated with malignancy in approximately 20-25% of cases. The most common associated cancers are ovarian, lung, pancreatic, stomach, colon and non-Hodgkin's lymphoma. Nasopharyngeal cancer is not common in the Caucasian population; however, there is a much higher incidence in Asian patients. Radiotherapy is the mainstay of treatment for early nasopharyngeal cancer, but combination chemoradiotherapy is becoming more common for patients with advanced disease since the Intergroup trial 0099 demonstrated improved progression-free survival and overall survival for chemoradiotherapy. Increasingly, the cytotoxic agent amifostine is being used prior to radiotherapy in an attempt to decrease associated morbidities. Amifostine has been found to significantly decrease acute and chronic xerostomia but not mucositis. It appears to be selectively protective to salivary glands and kidneys without being tumor protective. The most common side effects associated with amifostine are nausea, vomiting, hypotension, hypocalcemia and allergic reactions. We describe the case of a man with dermatomyositis and stage IV nasopharyngeal cancer treated with chemoradiotherapy and s.c. amifostine. The patient suffered a life-threatening anaphylactoid reaction to amifostine.
...
PMID:Life-threatening anaphylactoid reaction to amifostine used with concurrent chemoradiotherapy for nasopharyngeal cancer in a patient with dermatomyositis: a case report with literature review. 1198 77

PURPOSE: the study of the effect of Amifostine in reducing acute mucositis, xerostomia and late xerostomia emerging in the course of locally advanced head and neck cancer radio-chemotherapy. METHODS: Starting in 1999 we have conducted radio-chemotherapy treatment on 7 patients with or without Amifostine protection, each receiving 60 Gy (2 Gy a day/5 fractions a week) loco-regional irradiation. From the first to the fifth day and from the twenty-first to the twenty-fifth day prior to irradiation they were given a 70 mg/m(2) Carboplatin treatment. In the Amifostine group, on days 1-5 and 21-25 300 mg/m(2) and on days 6-20 and 26-30 200 mg/m(2) Amifostine therapy was given prior to the radio- and chemotherapy. RESULTS: In the course of the trial we did not find any haematologic side effects, or side effects directly connected to the Amifostine, which would have required suspension of the therapy. In the active phase, mucositis of Grade 1-2 was detected 1-2 weeks later than in the control group, in contrast to the mucositis of Grade 2-3 in the other arm. Global oral discomfort associated with acute xerostomia was of Grade 4-6 on a linear scale of ten, compared with Grade 7-8 on the active line. We had similar results when testing the symptoms directly connected with late xerostomia. Unstimulated and stimulated saliva production doubled following the Amifostine treatment. CONCLUSION: Despite the small pool of patients we have the impression that Amifostine can effectively reduce the severity of acute mucositis, xerostomia and late xerostomia.
...
PMID:[Radio-chemotherapy of locally advanced head and neck cancer, providing tissue and organ protection] 1205 Jun 95


1 2 3 Next >>

---