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)

Nonsteroidal anti-inflammatory (NSAID) drugs have been used to treat osteoarthritis ever since 1899, when the effects of aspirin were first recognized. Widespread use of these compounds continues despite their recognized potential toxicity, mostly because they are generally effective for palliation of the pain associated with osteoarthritis. The discovery of cyclooxygenase (COX)-1 and COX-2 has sparked interest in development of NSAID that specifically target COX-2, with the hope that such compounds would be associated with a lower incidence of adverse gastrointestinal effects. Other potential methods of avoiding adverse gastrointestinal effects associated with NSAID use include concurrent administration of prostaglandins and use of pure analgesics, such as acetaminophen. The role of nitric oxide in inflammation is an exciting area of research, and addition of nitric oxide-producing moieties to NSAID may prove to be another mechanism of avoiding gastrointestinal toxicity. There is likely to be considerable reward for the development of an NSAID that relieves pain associated with a wide variety of conditions, does not cause gastrointestinal toxicoses, and spares normal cartilage. Whether such a drug exists remains speculative.
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PMID:Mechanisms of action of anti-inflammatory medications used for the treatment of osteoarthritis. 930 15

Opioids and non-steroidal anti-inflammatory drugs (NSAIDs) are the commonest drugs used to treat pain. Opioids mimic the actions of endogenous opioid peptides by interacting with mu, delta or kappa opioid receptors. The opioid receptors are coupled to G1 proteins and the actions of the opioids are mainly inhibitory. They close N-type voltage-operated calcium channels and open calcium-dependent inwardly-rectifying potassium channels. This results in hyperpolarization and a reduction in neuronal excitability. They also decrease intracellular cAMP which modulates the release of nociceptive neurotransmitters (e.g. substance P). Inhibition of prostaglandin synthesis by cyclooxygenase is the principal mode of the analgesic and anti-inflammatory actions of NSAIDs. Cyclo-oxygenase is inhibited irreversibly by aspirin and reversibly by other NSAIDs. The widespread inhibition of cyclo-oxygenase is responsible for many of the adverse effects of these drugs. NSAIDs also reduce prostaglandin production within the CNS. This is the main action of paracetamol.
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PMID:Mechanisms of actions of opioids and non-steroidal anti-inflammatory drugs. 920 32

The nonsteroidal antiinflammatory drugs (NSAIDs) continue to be important therapeutic interventions for the treatment of pain and inflammation. Investigators continue to produce new information about their biologic effects, including their actions as well as their toxic effects and methods to decrease the potential side effects associated with their use. This year many papers have been published speculating about those NSAIDs that are reported to selectively inhibit the isoform of the cyclooxygenase enzyme that is induced in inflammatory conditions (Cox-2) rather than that associated with normal physiologic function (Cox-1). Reports have shown that the more Cox-2-selective NSAIDs (from three- to 10-fold more selective for Cox-2 over Cox-1) seem to have less gastrointestinal toxicity associated with their use; however, little evidence has yet emerged from phase I, II, or III studies about the clinical effects of the highly selective Cox-2 inhibitors (300-fold or more selective for Cox-2 over Cox-1). In addition, intriguing animal studies have shown the effects of knockout of the genes controlling the activities of either Cox-1 or Cox-2 in mice.
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PMID:Biologic effects of nonsteroidal anti-inflammatory drugs. 920 51

Nonsteroidal antiinflammatory drugs (NSAIDs) exert their actions by inhibiting cyclooxygenase (COX). It has recently been postulated that NSAIDs' antiinflammatory efficacy arises from inhibition of the COX-2 isoform of cyclooxygenase, whereas inhibition of the COX-1 isoform produces the troublesome and sometimes serious gastric and renal side effects of NSAIDs. A relatively selective COX-2 inhibitor, such as meloxicam, may combine antiinflammatory efficacy with improved tolerability. In volunteers, indomethacin 75 mg, but not meloxicam 7.5 mg, inhibited renal prostaglandin E2 excretion and platelet aggregation (COX-1 mediated effects). Double-blind, randomized trials in osteoarthritis and rheumatoid arthritis patients have shown equivalent antiinflammatory efficacy among meloxicam 7.5 mg or 15 mg and diclofenac 100 mg, naproxen 750 mg, and piroxicam 20 mg. In a double-blind, placebo-controlled trial, meloxicam (7.5 or 15 mg) caused less endoscopically detected gastrointestinal (GI) damage (Lanza scale) than piroxicam 20 mg. The MELISSA study, a double-blind, randomized, 28-day trial in over 9,000 patients showed that meloxicam 7.5 mg caused statistically less total GI toxicity, dyspepsia, abdominal pain, nausea and vomiting, and diarrhea than diclofenac 100 mg, despite equivalent reductions in pain on movement for each treatment. A global safety analysis of clinical trials, representing over 5,600 patients and comprising 170 and 1,100 patient-years of exposure for meloxicam 7.5 mg and 15 mg, respectively, showed that meloxicam caused less GI toxicity and fewer peptic ulcers and GI bleeds than naproxen, diclofenac, or piroxicam. The renal safety profile and incidence of liver function abnormalities with meloxicam is equivalent to other NSAIDs available for clinical use. In conclusion, relatively selective COX-2 inhibition exemplified by meloxicam may offer effective symptom relief with an improved GI tolerability profile.
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PMID:Meloxicam: selective COX-2 inhibition in clinical practice. 921 16

Prostaglandins and thromboxanes are products of arachidonic acid metabolism via the cyclooxygenase (CO) enzyme and are responsible for the pain and swelling common to sites of inflammation. Non-steroidal anti-inflammatory drugs (NSAIDs) inhibit the production of these substances and are used in the treatment of inflammatory diseases such as arthritis. However, one of the major side-effects of NSAID therapy is gastric ulceration. It is possible that inhibition of prostaglandin production and a related increase in the formation of leukotrienes via the 5-lipoxygenase (5-LO) enzymatic pathway are responsible for attracting inflammatory cells, causing local sites of inflammation and producing ulceration. To determine the effects of 5-LO inhibition on this hypothesis, studies were performed in rats to evaluate the effects of tepoxalin, a dual CO/LO inhibitor on leukotriene B4 levels in gastric mucosa and neutrophil adhesion in mesenteric venules. In rats, chronic oral administration of an NSAID, indomethacin (2 mg/kg daily over 4 days), resulted in 40% mortality, accompanied by intestinal adhesions and perforations when evaluated 24 h after the fourth dose of drug. Additionally, neutrophil adhesion was increased in the mesenteric venules and cell infiltration was evident in the mesenteric interstitium. These gastrointestinal side-effects were inhibited in a separate group of rats administered tepoxalin (20 mg/kg, p.o) 30 min prior to each daily indomethacin treatment. Further studies were performed to determine tepoxalin's effects on early events associated with NSAID-induced gastrointestinal inflammation, including neutrophil adhesion, lipid peroxide generation and LTB4 production. Indomethacin (100 mg/kg, p.o.) produced elevated levels of LTB4 in rat gastric mucosa 90 min after administration. Additionally, neutrophil adhesion in mesenteric venules was increased at this dose and with the administration of another NSAID, naproxen. No generation of lipid peroxides was evident in the gastric mucosa at this timepoint. Tepoxalin (up to 400 mg/kg, p.o.) did not have an effects on gastric mucosal LTB4 generation and lipid peroxide levels. A decrease in neutrophil adhesion was observed at the highest dose. In another study, pretreatment with tepoxalin (ED50=7.5 mg/kg, p.o.) or the selective 5-LO inhibitor zileuton (100 mg/kg, p.o.) prevented the increases in gastric mucosal LTB4 levels and neutrophil adhesion induced by indomethacin (100 mg/kg, p.o.). These data suggest that LO inhibition may play a vital role in the prevention of NSAID-induced gastric inflammation, providing insight into the lack of ulcerogenicity with tepoxalin and new approaches to anti-inflammatory therapy which may prevent gastric side effects.
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PMID:Effects of tepoxalin, a dual inhibitor of cyclooxygenase/5-lipoxygenase, on events associated with NSAID-induced gastrointestinal inflammation. 922 51

Subcutaneous (s.c.) injection of formalin induces a rapid and prolonged hyperalgesia across widespread areas of the body. This hyperalgesic state involves a brain-to-spinal cord pathway, likely arising from the nucleus raphe magnus. The present study examined whether subsequent activation of spinal cord glia may be critical for the hyperalgesic state to be observed in rats. Glia were considered candidates as they can, upon activation, release a variety of substances known to be critical for the mediation of subcutaneous formalin-induced hyperalgesia including glutamate, aspartate, nitric oxide, arachidonic acid and cyclooxygenase products such as prostaglandins. This series of experiments demonstrate that formalin-induced hyperalgesia in rats can be blocked by intrathecal administration of agents that: (a) disrupt glial function (using either 1 nmol fluorocitrate which is a glial metabolic inhibitor, or 9 microg CNI-1493 which disrupts synthesis of nitric oxide and cytokines in monocyte-derived cells; ANOVA revealed reliable group effects for each drug with P < 0.0005); or (b) disrupt the action of glial products (using 10, 50, or 100 microg of a human recombinant interleukin-1 receptor antagonist or 10 microl antibody directed against nerve growth factor; ANOVA revealed reliable group effects for each drug with P < 0.001). Disruption appeared to be selective, as blockade of only select glial products was effective. That is, up to 120 microg of a functional antagonist of tumor necrosis factor-alpha (TNF binding protein) and 5 microl of an antibody against complement-3 produced no statistically reliable reduction in formalin-induced hyperalgesia. Taken together, the present series of experiments suggest an important role for spinal glial cells in the cascade of events that are initiated by descending signals following s.c. administration of formalin.
Pain 1997 Jul
PMID:Evidence for the involvement of spinal cord glia in subcutaneous formalin induced hyperalgesia in the rat. 923 65

Anti-inflammatory medications have long been prescribed for relief of the pain and discomfort associated with OA. This occurs despite the recognized side effects associated with use of NSAIDs and corticosteroids. Available evidence suggests that NSAIDs provide this relief through a combination of central and peripheral actions. Recent discovery of two isoforms of cyclooxygenase has increased our understanding of NSAID activity and may result in identification of drugs that potentially will have fewer side effects. A review of NSAIDs used in veterinary medicine indicates that relatively little is known regarding their role in treating OA, although controlled studies involving carprofen and etodolac have increased our knowledge of the efficacy of specific NSAIDs used for this purpose.
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PMID:Nonsteroidal anti-inflammatory drugs and corticosteroids for the management of canine osteoarthritis. 924 84

The interactions of caffeine (CAS 58-08-2) with acetylsalicylic acid (CAS 50-78-2, ASA) and paracetamol (CAS 103-90-2) were investigated with regard to the analgesic, antiphlogistic, antipyretic and other properties. The inhibitory effect of paracetamol and ASA on the prostaglandin biosynthesis in a cyclooxygenase preparation from bovine brain in vitro was not affected by the addition of caffeine. Caffeine additively increases the antinociceptive effect of paracetamol with regard to the heat-induced pain in the mouse, as does aminophenazone. The antinociceptive effect of aminophenazone on the mechanically induced pain in the mouse is also additively increased by caffeine. In contrast to the effect of aminophenazone on the inflammatory pain in the rat, the effect of ASA is not increased by caffeine and that of paracetamol only negligibly. The antipyretic effect of paracetamol is additively increased by caffeine in the normothermic rat. The antipyretic effect of ASA and paracetamol on the yeast-induced pyrexia of the rat is not affected by caffeine. Caffeine additively increases the acute antiexudative effect of ASA and aminophenazone on the carageenin-induced oedema of the hind paw of the rat. The increase in locomotor activity caused by caffeine in mouse and rat is neutralised or diminished when the caffeine is given in combination with paracetamol. This effect is maintained even if the rats are pretreated with the combination of active ingredients for 3 weeks. The ulcerogenic effect of ASA in the stomach of the rat is not increased by caffeine. The protective effect of ASA against the hepatotoxic effect of paracetamol in the mouse is not influenced by the addition of caffeine. The plasma levels after the oral administration of 20 mg/caffeine/ kg and 80 mg paracetamol/kg in the rat are not significantly changed when the substances are given in combination. The toxicological advantages resulting from combining ASA and paracetamol with caffeine are discussed.
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PMID:Role of caffeine in combined analgesic drugs from the point of view of experimental pharmacology. 929 78

Dysfunction of vascular smooth muscle (VSM) is at the center of occlusive disorders of the cardiovascular system such as hypertension, atherosclerosis, coronary artery disease and hypoxia. In addition to circulating biogenic amines and various neurotransmitters originating from the central nervous system and endocrine system, various autocoids of arachidonic acid metabolism in the blood as well as in the endothelium play an important regulatory role in the maintenance of the tone and the contractile function of VSM. A monolayer of endothelial cells lining the heart and large blood vessels is responsible for producing and releasing both endocrine and paracrine substances such as endothelins, nitric oxide, prostaglandins and prostacyclins. Aspirin, (acetylsalicylic acid/ASA) an ancient remedy against fever and pain, is emerging as an effective drug not only against occlusive disorders but also against various cancers and the AIDs virus. During pregnancy induced hypertension (PIH) and in occlusive disorders, aspirin provides relief through inhibition of cyclooxygenase, an enzyme required for the metabolism of arachidonic acid to produce prostaglandins and prostacyclins in platelets and in endothelial cells. Because of its unique molecular constitution, synergistic ability and solubility in the lipidic environment, various mechanisms of aspirin's actions are being currently investigated. In this review, the effect of aspirin on the regulation of VSM in the presence and absence of endothelium are discussed.
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PMID:Vascular smooth muscle, endothelial regulation and effects of aspirin in hypertension. 955 99

The new class of antiinflammatory and analgesic drugs, the selective cyclooxygenase (COX-2) inhibitors, which promise to be devoid of the types of toxicity associated with nonsteroidal antiinflammatory drugs (NSAID), especially adverse gastrointestinal effects, are under clinical trial but are not yet available for use. All NSAID, including those most recently introduced, exhibit nonselectivity of action, producing therapeutic blood levels that inhibit constitutive COX-1 and deplete tissue protective prostaglandins. Among NSAID, the diclofenac/misoprostol combination (Arthrotec) is unique in possessing an active component, misoprostol, to help prevent NSAID induced gastrointestinal damage. Ulcer damage and associated serious complications probably represent only the tip of the iceberg in relation to clinically significant side effects associated with the use of NSAID. In this context, metaanalysis of 8 large multicenter studies reported here has shown that patients taking NSAID show a mean decrease in hemoglobin over 4 - 12 weeks' assessment, with some 10-20% of patients exhibiting clinically significant decreases (> or = 1 g/dl) early in treatment. Patients taking diclofenac/misoprostol showed significantly less of a decline in hemoglobin and up to 50% fewer clinically significant decreases than patients receiving diclofenac alone. The misoprostol component of diclofenac/misoprostol may also help to restore homeostasis in tissues other than the gut. Inhibition of the activity or release of various tissue damaging agents and inflammatory cytokines, e.g., thromboxane and interleukin 1, are described, as are in vivo animal studies that have revealed synergistic or potentiating analgesic and antiinflammatory activities between misoprostol and NSAID, particularly diclofenac. Clinical studies in postsurgical dental pain in more than 500 patients have now shown enhanced analgesia, with greater relief over a longer period, for the diclofenac/misoprostol combination compared with diclofenac alone. The relevance of these findings to pain and inflammation control in arthritis is discussed. Enhanced control of morning stiffness provided by diclofenac/misoprostol, possibly also the result of misoprostol/diclofenac synergy, is also reported, and the development of an objective system that measures 24 hour ambulatory activity is described. Using this Numact recorder, improved mobility in patients receiving diclofenac 75 mg/misoprostol 200 microg was observed compared with patients treated with diclofenac 75 mg slow release. Further studies are being performed employing magnetic resonance imaging both to assess antiinflammatory effects in joint soft tissue architecture and to assess whether the synergistic stimulatory effects of diclofenac and misoprostol on human osteoarthritic cartilage that have been reported in vitro are clinically evident. A growing body of evidence supports the view that the diclofenac/misoprostol combination provides an improved therapeutic ratio over diclofenac alone, not only by improving gastrointestinal safety but also by enhancing analgesic/antiinflammatory effects.
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PMID:Diclofenac/misoprostol: novel findings and their clinical potential. 959 52


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