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)

The diagnosis of arteriosclerosis obliterans of the lower extremities can be made by the history alone or by the physical examination alone in the most patients. It is very important to evaluate the hemodynamic study in determination of indication for operation and operative procedures. The two major symptoms, each of which diagnostic, are intermittent claudication and ischemic rest pain. Intermittent claudication is pain or fatigue that occurs in a muscle or muscle group on repititive use. The anatomical level of claudication is significant. When aorto-iliac artery is obstructed, pain may occur first in the hip or thighs. Pain occurs in the calf in the occlusion of the femoral artery and foot pain indicates the occlusion of distal popliteal artery. Ischemic rest pain indicates an advanced stage of the disease. Fontaine classification is usually used as the stage of ischemia on the extremity. There are many laboratory evaluations of circulatory insufficiency in the diagnosis of arteriosclerotic obliterans. Measurement of segmental blood pressure is most valuable and useful among various measurements. We can get critical informations of circulatory insufficiency in the leg using segmental blood pressure. In order to differentiate from arteriosclerotic obliterans there are thromboanyitis obliterans aortitis syndrome, popliteal arterial entrapment syndrome, spinal canal stenosis, and diabetic arterial occlusive disease.
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PMID:[Clinical diagnosis of arteriosclerosis obliterans]. 880 11

A 69-year-old Japanese man suffered from bronchial asthma, atrial fibrillation, general fatigue, high fever, and weight loss of about 5 kg within a month. He also had intermittent claudication, a tingling feeling in his fingers and toes, and an ulcer on his toe. His laboratory data revealed leukocytosis with absolute eosinophilia. The patient was treated with predonisolone 30 mg daily. Although the ulcers healed once, the lesions recurred with tapering predonisolone. The patient visited us because of the ulcer on his toe. Physical examination showed a 2 cm ulcer surrounded by slight erythema on his right fourth toe. Magnetic resonance angiography detected tapering stenosis of the medium-sized arteries in both legs. A biopsy from his myocardium showed the infiltration of eosinophils into the myocardium. The neuron conduction rate of his lower leg was slower than that of the normal control, demonstrating mononeuritis. From these findings, we diagnosed this patient as Churg-Strauss syndrome.
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PMID:Churg-Strauss syndrome involving medium-sized arteries. 1134 69

Intermittent claudication (IC) is leg muscle pain, cramping and fatigue brought on by exercise and is the primary symptom of peripheral arterial disease. The goals of pharmacotherapy for IC are to increase the walking capacity/quality of life and to decrease rates of amputation. In 1988, pentoxifylline was the only drug that had reasonable supportive clinical trial evidence for being beneficial in IC. Since then a number of drugs have shown benefit or potential in IC. Cilostazol, a specific inhibitor of phosphodiesterase 3 and activator of lipoprotein lipase, clearly increases pain-free and absolute walking distances in claudicants. However, cilostazol does cause minor side effects including headache, diarrhoea, loose stools and flatulence. Naftidrofuryl, a serotonin (5-HT2) receptor antagonist and antiplatelet drug, is beneficial in claudicants. Inhibitors of platelet aggregation (including nitric oxide from L -arginine or glyceryl trinitrate) and anticoagulants (low molecular weight heparin, defibrotide) probably have both short and long-term benefits in IC. In addition, intravenous infusions of prostaglandins (PGs) PGE1 and PGI2 have an established role in severe peripheral arterial disease and the recent introduction of longer lasting and/or oral forms of the PGs makes them more likely to be useful in the IC associated with less severe forms of the disease. There are some exciting new approaches to the treatment of IC, including propionyl-L-carnitine and basic fibroblast growth factor (bFGF).
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PMID:Pharmacotherapy of intermittent claudication. 1182 12

Intermittent claudication (IC) comprises the most common presenting symptoms of peripheral arterial disease (PAD), which itself is a manifestation of systemic atherosclerosis. Typical symptoms of IC are aching pain, numbness, and fatigue in the lower extremities. Symptoms are induced by walking or exercise and usually resolve with rest. The cornerstone of treating IC is risk-factor reduction and a supervised exercise regimen. Pharmacotherapy specifically indicated for the treatment of IC includes a new drug, cilostazol, and the traditional drug, pentoxifylline. Cilostazol also has antiplatelet, antithrombotic, and vasodilatory activity, as well as a positive effect on serum lipids. Eight multicenter clinical trials, seven in the U.S. and one in the U.K., used objective and subjective clinical endpoints to assess the treatment efficacy of cilostazol. Objective endpoints included maximal and pain-free walking distance (MWD and PFWD, respectively), the ankle-brachial index, peripheral hemodynamic measurements, and serum lipid levels. Subjective endpoints, assessed by patient questionnaires, included perceived functional status and health-related quality of life. Cilostazol treatment showed statistically significant increases in MWD and PFWD within 4 weeks, as well as improvements in physical functional status at 24 weeks, compared with placebo and pentoxifylline. Increases in high-density lipoprotein cholesterol and decreases in plasma triglycerides were also noted. Subjective assessments appeared to match objective parameters.
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PMID:Measuring treatment effects of cilostazol on clinical trial endpoints in patients with intermittent claudication. 1189 86

Peripheral vascular disease (PVD) is generally accepted to result in the failure of skeletal muscle blood flow to increase adequately at the onset of muscular work. There are currently no routine pharmacological interventions towards the treatment of PVD, however, recent Phase III trials in the USA have demonstrated the clinical potential of the phosphodiesterase III inhibitor Cilostazol for pain-free and maximal walking distances in patients with intermittent claudication. PVD is characterized by a marked reliance on oxygen-independent routes of ATP regeneration (phosphocreatine hydrolysis and glycolysis) in skeletal muscle during contraction and the rapid onset of muscular pain and fatigue. The accumulation of metabolic by-products of oxygen-independent ATP production (hydrogen and lactate ions and inorganic phosphate) has long been associated with an inhibition in contractile function in both healthy volunteers and PVD patients. Therefore, any strategy that could reduce the reliance upon ATP re-synthesis from oxygen-independent routes, and increase the contribution of oxygen-dependent (mitochondrial) ATP re-synthesis, particularly at the onset of exercise, might be expected to improve functional capacity and be of considerable therapeutic value. Historically, the increased contribution of oxygen-independent ATP re-synthesis to total ATP generation at the onset of exercise has been attributed to a lag in muscle blood flow limiting oxygen delivery during this period. However, recent evidence suggests that limited inertia is present at the level of oxygen delivery, whilst considerable inertia exists at the level of mitochondrial enzyme activation and substrate supply. In support of this latter hypothesis, we have reported on a number of occasions that activation of the pyruvate dehydrogenase complex, using pharmacological interventions, can markedly reduce the dependence on ATP re-synthesis from oxygen-independent routes at the onset of muscle contraction. This review will focus on these findings and will highlight the pyruvate dehydrogenase complex as a novel therapeutic target towards the treatment of peripheral vascular disease, or any other disease state where premature muscular fatigue is prevalent due to metabolite accumulation.
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PMID:Metabolic inertia in contracting skeletal muscle: a novel approach for pharmacological intervention in peripheral vascular disease. 1499 19

Intermittent claudication (IC) is defined by leg muscle pain, cramping and fatigue brought on by ambulation/exercise; relieved on rest; and caused by inadequate blood supply and is the primary symptom of peripheral arterial disease (PAD). PAD has a detrimental effect on the quality of life. PAD is a debilitating atherosclerotic disease of the lower limbs and is associated with an increased risk of cardiovascular morbidity and mortality. IC is an extremely important marker of atheroma. Up to 60% patients with IC have significant underlying coronary and/or carotid disease and 40% of all patients suffering from IC die or suffer a stroke within 5 years of presentation. The therapeutic intervention of IC essentially aims at providing symptomatic relief and reducing the systemic cardiovascular complications. Although exercise therapy is one of the most efficacious conservative treatments for claudication, the pharmacotherapeutic goals can be best achieved through an increase in the walking capacity to improve quality of life and a decrease in rates of amputation. In the development of treatment for IC, an aggressive non-pharmacological intervention and pharmacological treatment of the risk factors associated with IC are considered. In the next 2 years, the results of major trials of drugs that stabilize and regress atherosclerosis such as statins and angiotensin converting enzyme inhibitors, and anti-platelet agents, recombinant growth factors and immune modulators will be available for IC. Levocarnitine (l-carnitine) and a derivative, propionyl levocarnitine, are emerging agents that increase the pain-free walking and improve the quality of life in IC patients by working at the metabolism and exercise performance of ischemic muscles. This article provides a comprehensive review of the pathophysiology involved, diagnosis of IC and existing and emerging pharmacotherapies with rationale for their use in its treatment.
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PMID:Intermittent claudication: an overview. 1638 60

The majority of patients in pain clinics are treated for muscle pain yet methods to study it in animals are relatively weak compared to methods to study skin pain. Here we describe an in vitro muscle-nerve preparation and model of muscle ischemia and contractile fatigue in mice. Timed muscle contraction is electrically evoked, while single unit activity of muscle sensory neurons and muscle contractile force are simultaneously recorded. The muscle is placed in a small (<1 mL) chamber where oxygen levels can be manipulated, drugs can be applied, and the extracellular milieu can be highly controlled. We demonstrate that we can record from sensory afferents that have the properties expected of ischemic nociceptors. This method serves for studying the neuronal and molecular mechanisms underlying ischemic pains such as angina, intermittent claudication, and sickle cell crisis.
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PMID:A novel mouse skeletal muscle-nerve preparation and in vitro model of ischemia. 1695 26

Peripheral artery disease, defined as atherosclerosis in the lower extremities, affects nearly 8.5 million people in the United States. Due to the frequent asymptomatic manifestation of peripheral artery disease, diagnosis may be delayed and its true incidence underestimated. However, some patients may experience aching pain, numbness, weakness, or fatigue, a condition termed intermittent claudication. Peripheral atherosclerosis is associated with cardiovascular risk and physical impairment; therefore, treatment goals are aimed at decreasing cardiovascular risk, as well as improving quality of life. Little debate exists regarding the management of cardiovascular risk reduction, which consists of both antiplatelet therapy and risk factor modification. Despite recently published guidelines, the treatment of intermittent claudication is less well established and the management remains controversial and uncertain. Exercise remains the first-line therapy for intermittent claudication; however, pharmacologic treatment is often necessary. Although only two prescription drugs have been approved by the U.S. Food and Drug Administration for the treatment of intermittent claudication, several supplements and investigational agents have been evaluated. Therapeutic optimization should balance the anticipated improvements in quality of life with the potential safety risks.
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PMID:Pharmacologic therapy for intermittent claudication. 1939 62

Intermittent claudication (IC) is one of the most frequent forms of lower extremity peripheral arterial disease (PAD) and is most commonly caused by arterial atherosclerosis. Its clinical manifestation includes fatigue, discomfort, or pain occurring in limb muscles due to exercise-induced ischemia, thus limiting the ability of IC patients to walk and exercise. In addition to lifestyle changes (diet, exercise, and smoking cessation), pharmacological treatments are needed. Pathologically, atherosclerotic lesions cause a mismatch in oxygen supply and metabolic demand in the leg muscles during walking/exercise. This subjects the muscles to repeated ischemia and reperfusion injury that can alter structure and oxidative metabolism, resulting in insufficient utilization of oxygen supply. Despite extensive research efforts, cilostazol and pentoxifylline are the only drugs indicated for relieving the symptoms of IC, with cilostazol demonstrating significant improvement in walking distance and quality of life in these patients. Originally developed as a PDE3 inhibitor, cilostazol was later found to have several other pharmacological actions, and its success has been attributed to its multifactorial actions on platelets, endothelium, smooth muscle, and lipid profiles. Using cilostazol as an example, we discuss the rationales and pitfalls of targeting PDEs in IC, and potential strategies for the development of new and more effective pharmacological treatments.
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PMID:Phosphodiesterases as targets for intermittent claudication. 2169 42

Peripheral artery disease is a progressive disease. Primary ischemic leg symptoms are muscle fatigue, discomfort or pain during ambulation, known as intermittent claudication. The most severe manifestation of peripheral artery disease is critical limb ischemia (CLI). The long-term safety of gene therapy in peripheral artery disease remains unclear. This four center peripheral artery disease registry was designed to evaluate the long-term safety of the intramuscular non-viral fibroblast growth factor-1 (NV1FGF), a plasmid-based angiogenic gene for local expression of fibroblast growth factor-1 versus placebo in patients with peripheral artery disease who had been included in five different phase I and II trials. Here we report a 3-year follow-up in patients suffering from CLI or intermittent claudication. There were 93 evaluable patients, 72 of them in Fontaine stage IV (47 NV1FGF versus 25 placebo) and 21 patients in Fontaine stage IIb peripheral artery disease (15 NV1FGF versus 6 placebo). Safety parameters included rates of non-fatal myocardial infarction (MI), stroke, death, cancer, retinopathy and renal dysfunction. At 3 years, in 93 patients included this registry, there was no increase in retinopathy or renal dysfunction associated with delivery of this angiogenic factor. There was also no difference in the number of strokes, MI or deaths, respectively, for NV1FGF versus placebo. In the CLI group, new cancer occurred in two patients in the NV1FGF group. Conclusions that can be drawn from this relatively small patient group are limited because of the number of patients followed and can only be restricted to safety. Yet, data presented may be valuable concerning rates in cancer, retinopathy, MI or strokes following angiogenesis gene therapy in the absence of any long-term data in angiogenesis gene therapy. It may take several years until data from larger patient populations will become available.
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PMID:Long-term safety of intramuscular gene transfer of non-viral FGF1 for peripheral artery disease. 2171 3


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