UMLS:C0030193 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The effect of endogenous glucocorticoid hormones on the expression of rat B(1) receptors was examined by means of molecular and pharmacological functional approaches. 2. Rats were adrenalectomized (ADX), and 7 days after this procedure the intradermal injection of B(1) receptor agonist des-Arg(9)-BK produced a significant increase in the paw volume, while only a weak effect was observed in sham-operated animals. A similar increase in the contractile responses mediated by B(1) agonist des-Arg(9)-BK was also observed in the rat portal vein in vitro. 3. Chemical ADX performed with mitotane (a drug that reduces corticosteroid synthesis) produced essentially the same up-regulation of B(1) receptors as that observed in ADX rats. 4. The modulation of B(1) receptor expression was evaluated by ribonuclease protection assay, employing mRNA obtained from the lungs and paw of ADX rats. 5. Additionally, both paw oedema and contraction of portal vein mediated by B(1) agonist des-Arg(9)-BK in ADX rats, were markedly inhibited by treatment with dexamethasone, or COX-2 inhibitor meloxican, or with the NF-kappaB inhibitor PDTC. Interestingly, the same degree of inhibition was achieved when the animals were treated with a combination of submaximal doses of dexamethasone and PDTC. 6. The involvement of NF-kappaB pathway was further confirmed by mobility shift assay using nuclear extracts from lung, paw and heart of ADX rats. It was also confirmed that the treatment of ADX rats with dexamethasone, PDTC or dexamethasone plus PDTC completely inhibit NF-kappaB activation caused by absence of endogenous glucucorticoid. 7. Together, the results of the present study provide, for the first time, molecular and pharmacological evidence showing that B(1) kinin receptor expression can be regulated through endogenous glucocorticoids by a mechanism dependent on NF-kappaB pathway. Clinical significance of the present findings stem from evidence showing the importance of B(1) kinin receptors in the mediation of inflammatory and pain related responses.
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PMID:Molecular and pharmacological evidence for modulation of kinin B(1) receptor expression by endogenous glucocorticoids hormones in rats. 1115 7

Conventional nonsteroidal anti-inflammatory drugs (NSAIDs) are commonly used to treat pain and inflammation but are frequently associated with gastrointestinal side effects, including life-threatening bleeding or perforation of gastroduodenal ulcers. Conventional NSAIDs are nonselective inhibitors of two isoforms of cyclooxygenase (COX): COX-1 and COX-2. The inhibition of COX-1 is believed to be responsible for inducing mucosal injury primarily by impairing prostaglandin-dependent mucosal protective mechanisms. The latest development in reducing the incidence of ulcers and ulcer complications associated with conventional NSAIDs is the use of recently approved COX-2-specific inhibitors (CSIs). This article critically reviews the data on gastrointestinal toxic side effects for conventional NSAIDs without as well as with prevention therapy. In addition, we compare these data with those for the CSIs, namely, celecoxib and rofecoxib. Finally, we offer recommendations on the clinical use of these drugs, emphasizing the need to balance clinical effectiveness with the avoidance of potential gastrointestinal side effects.
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PMID:Gastrointestinal toxic side effects of nonsteroidal anti-inflammatory drugs and cyclooxygenase-2-specific inhibitors. 1117 45

Rheumatoid arthritis and osteoarthritis are prevalent and costly conditions. A large proportion of the direct costs associated with these conditions relates to management of iatrogenic side effects. The cyclooxygenase (COX)-2-specific inhibitors lead to equivalent control of pain and disability compared with traditional NSAIDs. However, the COX-2-specific inhibitors have significant potential to reduce health-care costs, principally through the reduction of side effects. These cost savings are most likely to be realized through reductions in costs associated with dyspepsia and upper gastrointestinal ulcers and bleeding. Reduced indirect costs through improved disability scores and improved health-related quality of life are also predictable with the use of COX-2-specific inhibitors. This is accomplished without the attendant increase in risk to the gastrointestinal tract associated with traditional NSAIDs.
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PMID:The economic implications of cyclooxygenase-2-specific inhibitors. 1117 51

Although paracetamol potently reduces pain and fever, its mechanism of action has so far not been satisfactorily explained. It inhibits both COX-1 and COX-2 weakly in vitro, but reduces prostaglandin synthesis markedly in vivo. In mouse macrophage J774.2 cells, COX-2 induced for 48 hr with high concentrations of NSAIDs is more sensitive to inhibition with paracetamol than endotoxin-induced COX-2. In the rat pleurisy model of inflammation, a second peak of COX-2 protein appears 48 hr after administration of the inflammatory stimulus, during the resolution phase of the inflammatory process. Inhibition of the activity of this late-appearing COX-2 with indomethacin or a selective COX-2 inhibitor, delays resolution and the inflammation is prolonged. Cultured lung fibroblasts also express COX-2 activity after stimulation with IL-1beta which is highly sensitive to inhibition with paracetamol. Thus, evidence is accumulating for the existence of a COX-2 variant or a new COX enzyme which can be inhibited with paracetamol.
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PMID:Paracetamol-inhibitable COX-2. 1119 35

Lumbar disc herniation (LDH) is the disease which is the major cause of radiculopathy. In terms of the pathogenesis of disease, it is reported that prostaglandinE2 (PGE2) plays an important role to induce radiculopathy. Arachidonate cascade, which is the process of PGE2 synthesis, is mainly regulated by two kinds of enzymes, phospholipaseA2 (PLA2) and cyclooxy genase (COX). Previously, PLA2 was recognized as the rate-limiting enzyme of this cascade, and some authors reported the clinical significance of PLA2 at the site of LDH concerning the radicular pain. Recently, COX was elucidated to consist of 2 types of isoform, a constitutive form of COX-1 and an inducible form of COX-2. COX-2 has been focused as a key enzyme to regulate PGE2 synthesis and plays an important role in inflammation, because COX-2 was induced in many types of cells by the stimulation of inflammatory cytokines such as interleukin-1 beta (IL-1 beta) and tumor necrosis factor alpha (TNF alpha). However, it is not fully discussed whether or not, COX-2 is induced in lumbar disc tissue and if it plays a significant role in the pathogenesis of LDH. To clarify the role of COX-2 in the pathomechanism of radiculopathy of LDH, we have investigated the expression of COX-2, IL-1 beta and TNF alpha in herniated lumbar disc tissue. Immunohistologically, they were detected in the cytosol of chondrocytes constituting the disc tissue. RT-PCR showed that herniated lumbar disc-derived cells expressed mRNA of COX-2, IL-1 beta and TNF alpha in the presence of inflammatory cytokines in vitro. The disc-derived cells also produced much PGE2 by stimulating of inflammatory cytokines at the same time and this PGE2 production was distinctly suppressed by a selective inhibitor of COX-2, 6-methoxy-2-naphtyl acetic acids (6MNA). These results suggest that COX-2 and inflammatory cytokines might play a causative role in the radiculopathy of LDH through upregulating PGE2 synthesis.
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PMID:The role of cyclooxygenase-2 and inflammatory cytokines in pain induction of herniated lumbar intervertebral disc. 1119

The role of non-steroidal anti-inflammatory drugs (NSAIDs) in cancer pain has been well established in the treatment of mild pain and also alone or in association with opioids for the treatment of moderate to severe pain. Acutely, NSAIDs may be more than mild analgesics, and may provide additional analgesia when combined with opioids. However, NSAIDs have ceiling effects and there is no therapeutic gain from increasing dosages beyond those recommended. As there is no clearly superior NSAID, the choice should be based on experience and the toxicity profile that probably relates to the COX-1:COX-2 ratio. Among the older drugs, ibuprofen seems to have these properties.Non-steroidal anti-inflammatory drugs have been shown to have an opioid-sparing effect. Although the value of a simple narcotic-sparing effect may be questioned in cancer pain treatment, the use of NSAIDs may be useful when the increase in opioid dosage determine the occurrence of opioid toxicity. Like opioids, NSAIDs should not be considered analgesics for a specific type or cause of pain. There is a lack of evidence for any difference between different routes of NSAIDs administration. The long-term toxicity of NSAIDs in cancer pain is poorly defined due to a lack of studies. A variety of strategies have been used in an attempt to reduce the risks associated with NSAID therapy. Those NSAIDs that are weak COX-1 inhibitors may be preferred. In addition, concomitant administration of misoprostol is recommended in patients at increased risk for upper gastrointestinal complications.
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PMID:The use of anti-inflammatory drugs in cancer pain. 1123 77

The spinal cord is one of the sites where non-steroidal anti-inflammatory drugs (NSAIDs) act to produce analgesia and antinociception. Expression of cyclooxygenase(COX)-1 and COX-2 in the spinal cord and primary afferents suggests that NSAIDs act here by inhibiting the synthesis of prostaglandins (PGs). Basal release of PGD(2), PGE(2), PGF(2alpha) and PGI(2) occurs in the spinal cord and dorsal root ganglia. Prostaglandins then bind to G-protein-coupled receptors located in intrinsic spinal neurons (receptor types DP and EP2) and primary afferent neurons (EP1, EP3, EP4 and IP). Acute and chronic peripheral inflammation, interleukins and spinal cord injury increase the expression of COX-2 and release of PGE(2) and PGI(2). By activating the cAMP and protein kinase A pathway, PGs enhance tetrodotoxin-resistant sodium currents, inhibit voltage-dependent potassium currents and increase voltage-dependent calcium inflow in nociceptive afferents. This decreases firing threshold, increases firing rate and induces release of excitatory amino acids, substance P, calcitonin gene-related peptide (CGRP) and nitric oxide. Conversely, glutamate, substance P and CGRP increase PG release. Prostaglandins also facilitate membrane currents and release of substance P and CGRP induced by low pH, bradykinin and capsaicin. All this should enhance elicitation and synaptic transfer of pain signals in the spinal cord. Direct administration of PGs to the spinal cord causes hyperalgesia and allodynia, and some studies have shown an association between induction of COX-2, increased PG release and enhanced nociception. NSAIDs diminish both basal and enhanced PG release in the spinal cord. Correspondingly, spinal application of NSAIDs generally diminishes neuronal and behavioral responses to acute nociceptive stimulation, and always attenuates behavioral responses to persistent nociception. Spinal application of specific COX-2 inhibitors sometimes diminishes behavioral responses to persistent nociception.
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PMID:Prostaglandins and cyclooxygenases [correction of cycloxygenases] in the spinal cord. 1127 57

Rheumatological pain is the most frequent pain doctors have to deal with. Faced with a patient experiencing pain, the clinician must work towards global management of the patient, including the prescription of analgesics. The results of a European survey amongst 722 general practitioners, rheumatologists, orthopaedic surgeons and internal specialists showed that about half of all patients treated for moderate-to-severe pain suffered from musculoskeletal pain. Despite this high treatment frequency, the management of rheumatological pain was generally perceived as problematic by the respondents. The drugs prescribed to treat rheumatological pain differed from country to country, but NSAIDs were generally the most-prescribed substances. Important reasons given for selecting analgesics included efficacy and tolerability, but also tolerance and addiction potential. NSAIDs are common first-line drugs, but their adverse reactions and interactions have led to paracetamol being recommended more often in this role. However, it has been recently demonstrated that the efficacy of paracetamol is often inadequate. On the other hand, the reduced risk of GI toxicity of the new COX-2 selective inhibitors could assure them a major role in mild-to-moderate rheumatological pain treatment. When any of these drugs are no longer effective, or when a patient cannot tolerate their adverse reactions, weak opioids should be considered. Tramadol is one such drug, which is gaining popularity for the treatment of moderate-to-severe rheumatological pain. Finally, strong opioids should be used in selected patients when all other options have been exhausted.
Eur J Pain 2000
PMID:Current use of analgesics for rheumatological pain. 1131 Apr 81

Prostaglandins are formed from arachidonic acid by the action of cyclooxygenase and subsequent downstream synthetases. Two closely related forms of the cyclooxygenase have been identified which are now known as COX-1 and COX-2. Both isoenzymes transform arachidonic acid to prostaglandins, but differ in their distribution and their physiological roles. Meanwhile, the responsible genes and their regulation have been clarified. COX-1, the pre-dominantly constitutive form of the enzyme, is expressed throughout the body and performs a number of homeostatic functions such as maintaining normal gastric mucosa and influencing renal blood flow and platelet aggregation. In contrast, the inducible form is expressed in response to inflammatory and other physiological stimuli and growth factors, and is involved in the production of the prostaglandins that mediate pain and support the inflammatory process. All the classic NSAIDs inhibit both COX-1 and COX-2 at standard anti-inflammatory doses. The beneficial anti-inflammatory and analgesic effects are based on the inhibition of COX-2, but the gastrointestinal toxicity and the mild bleeding diathesis are a result of the concurrent inhibition of COX-1. Agents that inhibit COX-2 while sparing COX-1 represent a new attractive therapeutic development and could represent a major advance in the treatment of rheumatoid arthritis and osteoarthritis. Apart from its involvement in inflammatory processes, COX-2 seems to play a role in angiogenesis, colon cancer and Alzheimer's disease, based on the fact that it is expressed during these diseases. The benefits of specific and selective COX-2 inhibitors are currently under discussion and offer a new perspective for a further use of COX-2 inhibitors.
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PMID:Cyclooxygenase inhibitors--current status and future prospects. 1131 43

Celecoxib is a cyclooxygenase- (COX)-1-sparing inhibitor of COX-2 that is indicated for the treatment of osteoarthritis and rheumatoid arthritis. Many agents used for treating these diseases, both symptom-modifying and disease-modifying, are associated with the potential for hepatotoxicity. This article presents an analysis of the hepatic effects of celecoxib in 14 controlled studies of patients with arthritis (2 to 24 weeks' duration), in a long-term, open-label safety study (as long as 2 years), in 11 studies of patients receiving treatment for pain after oral or orthopedic surgery (up to 5 days' duration), and in five pharmacology studies. The overall incidence of hepatic adverse events in arthritis patients receiving celecoxib was similar to that for placebo but significantly lower than in the combined group of patients receiving nonsteroidal anti-inflammatory drugs (NSAIDs). The most commonly reported hepatic adverse events were elevations in liver transaminase levels, most of which occurred in patients receiving diclofenac. Similarly, clinically significant elevations of transaminase levels occurred more frequently with NSAIDs than with celecoxib. A pharmacology study performed in patients with mild or moderate hepatic impairment showed that celecoxib did not produce any clinically relevant changes from baseline in creatinine clearance, alanine aminotransferase, or bilirubin values in these settings. In the four interaction studies performed with drugs metabolized in the liver, none of the adverse events was hepatic in nature, and no clinically relevant liver function test abnormalities occurred. In conclusion, this analysis suggests that celecoxib has a very low potential for hepatic toxicity, even after exposures of as long as 2 years at therapeutic doses.
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PMID:The hepatic safety and tolerability of the novel cyclooxygenase-2 inhibitor celecoxib. 1131 63

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