UMLS:C0016053 - FACTA Search

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Query: UMLS:C0016053 (fibromyalgia)
4,687 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pain related to fibromyalgia may consist of a complex interaction of nociceptive, neuropathic, dysregulatory central nervous system and psychosomatic mechanisms. Nociceptor pain is based on the excitation of nervous sensors specialized to signal potentially harmful stimuli, i.e., the nociceptors. Metabolic deficiencies in muscle and neurogenic inflammation induced by the release of substance P and other neuropeptides from the peripheral nerve endings may result in chemical sensitization of nociceptors and an ensuing hyperalgesia particularly present in tender points. Neuropathic pain is due to pathological mechanisms within nerve cells and fibers in the peripheral and central nervous system. Pathophysiology may be related to compression (such as in the carpal tunnel syndrome or a vertebral disk herniation) or regeneration of nerves, resulting in ectopic impulse discharges and disturbances of axonal transport. The ensuing neuronal hyperexcitability and trophic changes induced by a disturbed axonal transport system may be major factors of pain in fibromyalgia. Dysregulatory pain denotes pain maintained by dysfunction of efferent control loops. Thus, if spinal motoneuron output results in excessive tension of postural muscle, nociceptors in muscles, tendons and joints might become more excited. Persistent abnormal spinal reflex transmission due to, e.g., peripheral trauma or inappropriate postural habits may result in a vicious circle between muscle hypertension and pain. Similarly, a defective sympathetic control may result in disturbed microcirculation and nociceptor excitation (e.g., in sympathetic algodystrophy). Many symptoms of pain in fibromyalgia (trigger points, pain referral, pain associated with muscle spasm or neurogenic joint immobilization) can be attributed to abnormal control mechanisms in a complex cybernetic system.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pathophysiological mechanisms of fibromyalgia. 181 May 27

Cells of the immune system synthesize prolactin and express mRNA and receptors for that hormone. Interleukin 1, interleukin 6, gamma interferon, tumor necrosis factor, platelet activator factor, and substance P participate in the release of prolactin. This hormone is involved in the pathogenesis of adjuvant arthritis and restores immunocompetence in experimental models. In vitro studies suggest that lymphocytes are an important target tissue for circulating prolactin. Prolactin antibodies inhibit lymphocyte proliferation. Prolactin is comitogenic with concanavalin A and induces interleukin 2 receptors on the surface of lymphocytes. Prolactin stimulates ornithine decarboxylase and activates protein kinase C, which are pivotal enzymes in the differentiation, proliferation, and function of lymphocytes. Cyclosporine A interferes with prolactin binding to its receptors on lymphocytes. Hyperprolactinemia has been found in patients with systemic lupus erythematosus. Fibromyalgia, rheumatoid arthritis, and low back pain patients present a hyperprolactinemic response to thyrotropin-releasing hormone. Experimental autoimmune uveitis, as well as patients with uveitis whether or not associated with spondyloarthropathies, and patients with psoriatic arthritis may respond to bromocriptine treatment. Suppression of circulating prolactin by bromocriptine appears to improve the immunosuppressive effect of cyclosporine A with significantly less toxicity. Prolactin may also be a new marker of rejection in heart-transplant patients. This body of evidence may have an impact in the study of rheumatic disorders, especially connective tissue diseases. A role for prolactin in autoimmune diseases remains to be demonstrated.
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PMID:Prolactin, immunoregulation, and autoimmune diseases. 206 74

In 30 patients with diagnosed fibromyalgia, the CSF level of immunoreactive substance P (SP) was investigated. Compared to normal values (9.6 +/- 3.2 fmol/ml), all the patients had elevated CSF levels of SP (36.1 +/- 2.7 fmol/ml, range 16.5-79.1 fmol/ml). Anamnestic information from the patients revealed that 53.3% had Raynaud/Raynaud-like phenomenon localized in the fingers, the toes or both. Although SP levels did not differ significantly in patients with or without the Raynaud phenomenon, elevated activity may be present in the peripheral branches of SP neurons which could be responsible for the last (rubor) phase of the triphasic Raynaud's phenomenon. SP levels were significantly higher in patients who were smokers (40.1 +/- 2.7 fmol/ml, range 25.3-64.1 fmol/ml), compared to patients who were non-smokers (29.2 +/- 5.0 fmol/ml, range 16.5-79.1 fmol/ml). We propose elevated CSF levels of SP and the Raynaud phenomenon as characteristic features for fibromyalgia with potential as diagnostic markers of the disease and further that smoking might be an aggravating factor for its pathogenesis or development.
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PMID:Elevated CSF levels of substance P and high incidence of Raynaud phenomenon in patients with fibromyalgia: new features for diagnosis. 244 29

The mechanism of pain in the fibrositis syndrome is unknown. We measured plasma levels of substance P in 32 patients with fibrositis and 26 sex and age matched controls using a radioimmunoassay. The mean plasma level of substance P in the patients with fibrositis was 371 +/- 91 pg/ml and in controls 397 +/- 84 pg/ml (p = NS). We conclude that determination of plasma levels of substance P in fibrositis is of no diagnostic value. This does not exclude the possible role of substance P as a neurotransmitter in the fibrositis syndrome.
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PMID:Plasma substance P levels in fibrositis. 246 19

The cerebrospinal fluid (CSF) levels of calcitonin gene related peptide (CGRP) were 0.94 +/- 0.06 fmol/ml (mean +/- SEM), of substance P, 35.1 +/- 3.2 fmol/ml and of substance P (1-7), 10.8 +/- 1.2 fmol/ml, as measured by radioimmunoassay in 26 female patients with fibromyalgia. No correlation was found between the levels of CGRP and the substance P and substance P (1-7) levels (r = 0.316, p = 0.14). Our results show that the anatomical coexistence of pain related neuropeptides in neurons is not necessarily reflected by the levels of these peptides measured in the CSF. The presence of CGRP in the CSF could be important since it can enhance the nociceptive activity of tachykinins. This may be of importance in the pathogenesis of pain in fibromyalgia.
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PMID:Modulation of pain in fibromyalgia (fibrositis syndrome): cerebrospinal fluid (CSF) investigation of pain related neuropeptides with special reference to calcitonin gene related peptide (CGRP). 248 42

Chronic diffuse myalgia, localized areas of tenderness, fatigue, and unrefreshing sleep are related to a physiologic arousal disorder within sleep, that is, the alpha EEG NREM sleep anomaly. This sleep physiologic disorder, nonrestorative sleep, and symptoms of fibrositis syndrome are shown to occur with psychologic, environmental, and physiologic distress conditions. Pathogenic mechanisms that link nonrestorative sleep physiology to pain and fatigue may involve metabolic dysfunction of the brain with sleep-related alteration in immunologic and neurotransmitter functions (serotonin, substance P, endorphins). These sleep-related mechanisms have important implications for the understanding and treatment of fibrositis/fibromyalgia syndrome.
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PMID:Sleep and fibrositis syndrome. 264 81

Substance pertains to a group of linear molecules of 10-30 amino-acid residues produced by nervous fibers and called neuropeptides. It is a mediator of pain transmission, and modulates or stimulates the activity of several cell types, i.e. lymphocytes and mast cells. The concept of neurogenic inflammation is based on the release of substance P and related peptides by an axon eflex mechanism. In rheumatic diseases, substance P may enhance inflammatory joint reactions. In rheumatoid arthritis, high SP levels were demonstrated in synovial fluid by our group and others. Results in fibromyalgia are contradictory. Algoneurodystrophia may be modulated by substance P release. Topical use or capsaicin and development of peripheral inhibitory drugs offer novel treatments based on this concept.
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PMID:[Substance P and rheumatic diseases]. 752 32

Neurogenic switching is proposed as a hypothesis for a mechanism by which a stimulus at one site can lead to inflammation at a distant site. Neurogenic inflammation occurs when substance P and other neuropeptides released from sensory neurons produce an inflammatory response, whereas immunogenic inflammation results from the binding of antigen to antibody or leukocyte receptors. There is a crossover mechanism between these two forms of inflammation. Neurogenic switching is proposed to result when a sensory impulse from a site of activation is rerouted via the central nervous system to a distant location to produce neurogenic inflammation at the second location. Neurogenic switching is a possible explanation for systemic anaphylaxis, in which inoculation of the skin or gut with antigen produces systemic symptoms involving the respiratory and circulatory systems, and an experimental model of anaphylaxis is consistent with this hypothesis. Food-allergy-iducing asthma, urticaria, arthritis, and fibromyalgia are other possible examples of neurogenic switching. Neurogenic switching provides a mechanism to explain how allergens, infectious agents, irritants, and possibly emotional stress can exacerbate conditions such as migraine, asthma, and arthritis. Because neurogenic inflammation is known to be triggered by chemical exposures, it may play a role in the sick building syndrome and the multiple chemical sensitivity syndrome. Thus neurogenic switching would explain how the respiratory irritants lead to symptoms at other sites in these disorders.
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PMID:Neurogenic switching: a hypothesis for a mechanism for shifting the site of inflammation in allergy and chemical sensitivity. 762 26

Different changes in neurotransmitters were observed in patients with fibromyalgia. The aim of the study was to confirm the diagnosis fibromyalgia by determination of several of these substances. In 60 patients, who met the ACR classification criteria for fibromyalgia and in 20 sex and age matched controls the following estimations were made: serotonin (EIA), somatomedin C (RIA), calcitonin (RIA), prostaglandin E2 (EIA), oxytocin (RIA), ACTH (RIA), substance P (EIA), TSH (LIA), prolactin (LIA). In comparison to healthy controls, patients with fibromyalgia revealed significantly decreased levels of serotonin, somatomedin C, calcitonin, prostaglandin E2 and a significantly increased level of prolactin. No significant differences were found in the levels of ACTH, substance P and TSH. These results suggest that the diagnosis of fibromyalgia can be confirmed by various biochemical parameters, but further investigations must be carried out to value the diagnostic relevance of these findings.
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PMID:[Biochemical changes in fibromyalgia]. 876 46

The neurophysiologic term allodynia has been applied to fibromyalgia because people with that disorder experience pain from pressure stimuli which are not normally painful. The nociceptive neurotransmitters of animal studies are now relevant to this human model of chronic, widespread pain. Evidence is presented to implicate several chemical pain mediators (including serotonin, substance P, nerve growth factor, and dynorphin A) in the pathogenesis of fibromyalgia. This perception is hopeful because it offers many new options for the development of innovative therapy.
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PMID:Advances in fibromyalgia: possible role for central neurochemicals. 963 94

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