UMLS:C0015672 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0015672 (fatigue)
51,768 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many drugs are applied in local treatment for skin malignant tumors. These drugs are living-BCG, OK-432, MY-1, WPG, interferon preparation (alpha, beta and gamma), TNF, IL-2, peplomycin, bleomycin and others. Some of them already have completed clinical trials and others are under clinical observation. In local administration of these drugs, skin lesions (malignant melanoma, CTL-mainly mycosis fungoides, carcinoma in situ and others) show good improvement. The effects were more observed in the tumors with diameters of 1 cm or less and appeared 3 to 10 injections in most cases. As complications, there are fever, general fatigue, vomiting, anorexia, leucopenia and others. Among them, the fever was most observed immediately after injections without any more severe complications. It may be concluded that treatment by intratumoral administration is useful for skin malignant tumors.
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PMID:[Clinical effects induced by intratumoral administration of anti-cancerous drugs in skin malignant tumors]. 246 39

Combinations of tumor necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) demonstrate synergistic antiproliferative activity in vitro. Therefore, we initiated a clinical study of recombinant TNF-alpha (rTNF-alpha) and rIFN-gamma combination therapy in humans. Twenty-five patients with metastatic cancer received both rTNF-alpha and rIFN-gamma by intramuscular injection for 5 consecutive days every 2 weeks for a total of 4 weeks. The dose levels were 5/5, 10/5, 10/10, 25/10, 25/25, 50/25, 50/50, 75/50, and 75/75 micrograms/m2 per day of rTNF-alpha/rIFN-gamma. A minimum of 2 patients were entered sequentially at each dose level. If the first 2-week cycle of therapy was well tolerated, the dose was increased to the next highest dose level during the second 2-week cycle. Fever, chills, and fatigue were observed at all doses. Severity of symptoms corresponded to increasing dose levels. Although TNF is identical to a molecule known as "cachectin," the vast majority of our patients did not lose weight while on study. However, alterations in lipid metabolism occurred and were manifested by a median change in triglyceride values of +40 mg/dl (range, -130 to +318 mg/dl), and in cholesterol values of -30 mg/dl (range, -103 to +2 mg/dl). The maximum tolerated dose was 75 micrograms/m2 of rTNF-alpha combined with 50 micrograms/m2 of rIFN-gamma, with dose-limiting side effects being mainly constitutional symptoms. A dose-related suppression in granulocyte and platelet counts was observed. Hematologic parameters returned to baseline within 72 h after therapy was discontinued, and neither infection nor bleeding occurred. Ten of 22 evaluable patients had stable disease for a median of 8 weeks (range, 4-21 weeks); 12 patients showed progressive disease. This study will form the framework for phase II trials of rTNF-alpha and rIFN-gamma combination therapy.
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PMID:Phase I study of a combination of recombinant tumor necrosis factor-alpha and recombinant interferon-gamma in cancer patients. 250 84

rTNF was administered to 28 patients with advanced metastatic cancers by continuous intravenous infusion for 5 consecutive days every 2 weeks. The dose levels were 30, 40, 70, 110, 180 and 290 micrograms/M2/day. Groups of 3 patients were started at each successive dose level and then on subsequent courses treated with the next dose level through 4 escalations as tolerated. Tumor types were: colon cancer 14; adenocarcinoma of unknown primary, 2; renal cancer, 2; leiomyosarcoma, 2; lung cancer, 1; prostate cancer, 1; thymona, 1; bladder cancer; 1; parotid, 1; Kaposi's sarcoma 2; ovarian 1. Toxicities included fever and chills (usually within the first 8 hours of infusion), fatigue, headache, decreased performance status, hypotension and CNS. All patients experienced leukopenia and thrombocytopenia within 24 hours or less after start of infusion with return of baseline by 72 hours after rTNF was stopped. The fall in these counts averaged 50% and was not dose related. No major changes in liver or renal function, coagulation or blood lipids were seen. Major dose limiting toxicities were fatigue, confusion, thrombocytopenia, seizures, hypotension and decreased performance status. NK cell activity measured against K562 target cells was augmented from about 30% target cell lysis to about 70% target cell lysis over the first 7 days of treatment. Two patients, both with metastatic colon cancer showed transient, objective tumor regression which did not qualify as a partial response. One patient with ovarian cancer had a stable partial response but progressed after 13 courses of treatment. Continuous infusion of TNF can be safely administered to patients with a maximum tolerated dose of only between 30 and 40 micrograms/M2/day.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A phase I trial of recombinant tumor necrosis factor (rTNF) administered by continuous intravenous infusion in patients with disseminated malignancy. 264 24

Fifteen patients with advanced metastatic adenocarcinomas were treated in a phase-I study with continuous intravenous 24 h infusion of recombinant tumor necrosis factor alpha (TNF-alpha) in order to determine the maximum tolerated dose (MTD) and associated side-effects. Patients received 40-400 micrograms/m2 TNF-alpha once (arm A) or twice (arm B) weekly for a scheduled treatment period of 2 months. The observed systemic side-effects resembled those reported for interferons and included fever, chills, fatigue, headaches, myalgias, thrombocytopenia, prostration, and malaise. Dose-limiting toxicities, resulting in a median MTD of 200 micrograms/m2 for 24 h, were fever, chills, fatigue, myalgias, and thrombocytopenia. Out of 15 patients, 11 showed tumor progression, and 3 sustained in no change for over 2 months of treatment. A minor response was seen in 1 patient with a colorectal carcinoma and liver metastases. To reduce side-effects, patients were treated either with paracetamol or indomethacin. Higher MTDs were observed in patients treated with indomethacin. No detectable plasma TNF-alpha levels or TNF antibodies were measured under therapy (plasma TNF-alpha less than 20 pg/ml). We conclude that TNF-alpha appears to have some antineoplastic activity in patients with adenocarcinomas since 4 patients remained in no change or showed a minor response.
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PMID:Phase-I trial of intravenous continuous infusion of tumor necrosis factor in advanced metastatic carcinomas. 265 35

A Phase I study of rHu-TNF (PT-050) was conducted in patients with various malignant tumors refractory to conventional therapy. rHu-TNF was administered by 30-min intravenous (i.v.) infusion or intratumor (i.t.) injection. The starting dose of 1 X 10(5) U/body was increased to 5 X 10(6) U/body in the i.v. group and to 2 X 10(6) U/body in the i.t. group. rHu-TNF was evaluated in 41 patients among the enrolled 43 patients of the i.v. group, and in 9 out of 10 in the i.t. group. In the i.v. group, fever (68.3%), chills (75.6%), hypotension (46.3%), general fatigue (34.1%), nausea/vomiting (22.0%/22.0%), pain in the extremities (17.1%), etc. were observed as adverse reactions (ADRs), and elevation of GOT/GPT (46.3%/43.9%), elevation of ALP(26.8%)and decrease in platelets (12.2%), etc. were observed as abnormal laboratory findings. Among these, hypotension was recognized as the dose-limiting factor and the maximum tolerated dose was considered to be 1 X 10(6) U/body. Plasma levels of rHu-TNF after 30-min i.v. administration were dose-related, and decreased with half-lives of 0.5-2.4 hours. In the i.t. group, ADRs occurred with a lower incidence than in the i.v. group except for fever, chills and general fatigue. Plasma levels after i.t. administration were all within the assay limit. Evident tissue necrosis was observed in the region where rHu-TNF was administered in the i.t. group.
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PMID:[A phase I study of recombinant human tumor necrosis factor (rHu-TNF: PT-050). The PT-050 Study Group]. 302 81

Recombinant human tumor necrosis factor (rH-TNF) is a cytotoxic monokine with pleiotropic effects. A phase I trial of rH-TNF was initiated using a five-day continuous intravenous (IV) infusion repeated every 28 days. Thirty-eight courses of therapy were administered to 19 patients. The starting dose was 5 X 10(4) U/m2/d, with escalations to 1.0 X 10(5), 2.0 X 10(5), 2.4 X 10(5), and 3.0 X 10(5) U/m2/d. Systemic side effects, including fever, chills, hypotension, fatigue, anorexia, and headaches, were mild and self-limiting. At the maximum tolerated dose of 3.0 X 10(5) U/m2/d, dose-limiting hematologic toxicity was manifested by transient thrombocytopenia and leukopenia. Elevated bilirubin levels were also seen at the higher dose levels. Lipoprotein analysis demonstrated that the five-day treatment with rH-TNF was associated with decreases in high-density lipoproteins, as well as increases in triglycerides and very-low-density lipoproteins. Pharmacokinetic studies using an enzyme-linked immunosorbent assay (ELISA) test indicated plasma rH-TNF levels less than 0.2 U/mL. The recommended phase II dose of rH-TNF administered as a five-day continuous infusion is 2.4 X 10(5) U/m2/d.
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PMID:Recombinant human tumor necrosis factor administered as a five-day continuous infusion in cancer patients: phase I toxicity and effects on lipid metabolism. 333 98

Recombinant human tumor necrosis factor (rH-TNF) is a cytokine with direct antitumor properties. In a phase I trial we continuously infused rH-TNF for 24 hours. We gave a total of 115 courses of therapy to 50 patients. Doses ranged from 4.5 to 645 micrograms of rH-TNF/m2. Systemic toxicity, including fever, chills, fatigue, and hypotension, increased with the dose of rH-TNF administered. Doses greater than 454 micrograms/m2 frequently caused severe lethargy and fatigue, which precluded hospital discharge of the patient at the completion of therapy. The dose-limiting toxicity was hypotension, and five patients treated at the two highest dose levels required dopamine treatment. Other organ-specific toxicity was modest and spontaneously resolved after 48 hours. The 24-hour infusions of rH-TNF were associated with significant decreases in serum cholesterol and high-density lipoprotein levels. Pharmacokinetic studies using an enzyme-linked immunosorbent assay demonstrated peak plasma rH-TNF levels of 90-900 pg/mL. Despite continuous infusion of rH-TNF, no steady-state level was achieved. The recommended phase II dose for rH-TNF as a 24-hour continuous infusion is 545 micrograms/m2.
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PMID:Recombinant human tumor necrosis factor administered as a 24-hour intravenous infusion. A phase I and pharmacologic study. 341 18

Progressive weight loss and anorexia are frequent phenomena in cancer patients. Although cachexia is an expected occurrence in the terminal stages of nearly all malignancies, it may be a presenting sign when the tumor burden is quite small. Lipid depletion occurs out of proportion to the protein loss and accounts for most of the weight loss in cancer. Lipids, more specifically fatty acids, are the major source of fuel in mammals and may also be used in the synthesis of new cell products. Lipolysis and lipogenesis are under the influence of several important enzymes and peptide hormones that may be modulated by a variety of exogenous factors. There is evidence that cancer patients have lost the normal homeostatic responses to decreased energy intake or starvation that allow a decrease in oxygen consumption and protein sparing. An increase in Cori cycle activity or futile recycling of metabolic products occurs with a net energy expenditure rather than energy production. Clinical studies have shown that the body lipid depletion accompanying tumor progression is not solely secondary to decreased food intake and may be reproduced by the transplantation of certain noninvasive tumors to normal hosts. Elevated basal lipolysis has occasionally been seen early in tumor growth. Such findings suggest the presence of a tumor-associated factor responsible for this increase in lipid mobilization. Some of the potential mechanisms for the altered lipid metabolism seen in cancer have been discussed. Metabolic substrates may be remodeled and directed away from fuel-efficient into energy-requiring pathways. An increased energy expenditure may occur as a result of the energy costs of tumor synthesis, an uncoupling of oxidative phosphorylation, or energy-requiring futile cycling. An overall depletion of lipid may be the final outcome of the inhibition of lipid deposition. TNF/cachectin has recently been found to suppress the activity and synthesis of several key lipogenic enzymes, including lipoprotein lipase. Abnormalities in insulin secretion or sensitivity may be involved in the decrease of fat storage in malignancy. Insulin also exerts a significant antilipolytic effect by its antagonism of hormone-sensitive lipase. Mediators of lipolysis and abnormal lipid metabolism may occur in a number of clinical conditions and include ectopic hormone production, growth factors, and tumor-associated lipolytic factors (lipid mobilizing factor, toxohormone).
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PMID:Fat metabolism and cancer. 353 75

Fifteen patients with advanced solid tumors of various types were treated by the intratumoral administration of recombinant human tumor necrosis factor (rH-TNF). The treatment appeared to benefit the 4 cases of superficial tumors: there were 1 complete response, 1 partial response and 2 minor responses. In all 11 patients with deep-seated tumors, including 6 cases of pancreatic cancer, 4 of liver cell cancer and 1 of metastatic liver tumor, no tumor regression was observed, but progression stopped in all these tumors. Seven of the 11 with deep-seated tumors showed a decrease in tumor markers and/or the development of tumor necrosis. Fever, hypotension and fatigue were the main clinical side effects. No significant changes were found in hematologic, renal or liver parameters. These results suggest that administration of rH-TNF to the tumor site has the potential for controlling local tumor growth.
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PMID:Recombinant human tumor necrosis factor causes regression in patients with advanced malignancies. 820 22

In the literature the separation between RS and RLS is confusing and makes it difficult to plan an appropriate preventive action or to develop new therapeutic approaches. We suggest that the generalized damage and encephalopathy seen in both RS and RLS may be due to a wide variety of causative agents that contribute to a common derangement, principally involving mitochondrial oxidative pathway. Fasting status and infections increase the catabolism and the subsequent flux of metabolites from peripheral tissues to the liver (FA and amino acids); cytokines (TNF, IL-1, and IL-6), in particular, mediate this effect during infection and experimental endotoxemia. Some drugs and other toxic compounds induce functional and morphological liver mitochondrial derangement. Oxidative metabolism is impaired, with subsequent stimulation of alternative pathways of oxidation, following production of unusual toxic acyl CoAs and dicarboxylic acids. Toxic compounds accumulate in the liver, deranging its functions and causing energy depletion, and are also released in the circulation from which they reach other tissues, including the brain. Neurons and astrocytes in the brain may be affected differently: Neurons suffer from the lack of energy and the effect of toxic compounds arriving from the bloodstream, and astrocytes may be directly affected by the beta-oxidation derangement. Very important may be genetic predisposition, which, by making the patient more sensitive to a particular causative agent, may facilitate the onset of RS and RLS. The therapeutic approach is, presently, mainly symptomatic, directed as it is to counteracting each alteration shown, depending by the clinical gravity. Other pharmacological approaches are only studied experimentally, like carnitine supplementation and PGE2 administration, or theoretically envisaged, like monoclonal antibody therapy directed at LPS or at pro-inflammatory cytokines or treatment with interferon-alpha.
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PMID:Reye's and Reye-like syndromes, drug-related diseases? (causative agents, etiology, pathogenesis, and therapeutic approaches). 852 53

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