UMLS:C0030193 - FACTA Search

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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In lightly-anesthetized dogs, ionic or non-ionic RCM (Iotalamato and iohexol, respectively) when injected by intracarotid route (i.c.), elicit a pain response comparable to that caused by bradykinin (BK) or capsaicin (CAP). This response, which is characterized by vocalization, hyperpnea, bradycardia and neck muscle contraction, was dose dependent and related to the osmolarity of the RCM. In the present study we observed that indomethacin did not interfere with CAP and RCM-induced pain at dose (2 mg/kg i.c.) that reduced BK-elicited responses. In contrast, Ruthenium Red (RR), in dose (1 mg/kg i.c.) that reduced CAP and/or RCM-induced effects did not affect BK-induced phenomena. We also verified that L-NAME (50 mg/kg i.c.) reduced the BK-, but not the CAP- and/or RCM-induced pain responses which suggests that an L-arginine-derived NO or related compound is involved in BK activation of perivascular nociceptors. Indeed, we found that i.c. injection of 20 mg of S-nitrosocysteine, a putative EDRF, caused BK-like responses. On the other hand, RCM and CAP appear to activate the same RR sensitive ionic channels of primary afferent endings. Therefore, RR-analogues could constitute a novel approach to minimizing or eventually abolishing the RCM side effects.
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PMID:Mechanism of pain induced by radiocontrast media. 128 41

1. L-NG-nitro arginine methyl ester (L-NAME) administered i.p. produces anti-nociception in the mouse assessed by the formalin-induced paw licking and acetic acid-induced abdominal constriction models. The non-steroidal anti-inflammatory drug (NSAID), flurbiprofen, was similarly anti-nociceptive in both models. 2. Combination of a sub-threshold dose of L-NAME (10 mg kg-1) with increasing doses of flurbiprofen (25- 75 mg kg-1) or a sub-threshold dose of flurbiprofen (50 mg kg-1) with increasing doses of L-NAME (10- 100 mg kg-1) resulted in potentiated anti-nociception in the formalin model. Combined therapy with sub-threshold doses of L-NAME (10 mg kg-1) and indomethacin (10 mg kg-1) also resulted in significant anti-nociception. In addition, combining sub-threshold doses of L-NAME (12.5 mg kg-1) and flurbiprofen (2 mg kg-1) significantly reduced acetic acid-induced abdominal constriction. 3. L-NAME (10 mg kg-1) administered i.p. caused a significant (approximately 35%) increase in MAP in the urethane-anaesthetized mouse. Flurbiprofen (50 mg kg-1) was inactive. Combination treatment with L-NAME (10 mg kg-1) and flurbiprofen (50 mg kg-1) failed to elevate MAP above that observed with L-NAME alone. Neither L-NAME (10 mg kg-1) nor flurbiprofen (50 mg kg-1) either alone or in combination significantly altered mouse locomotor activity. 4. These results suggest that L-NAME and flurbiprofen/indomethacin act synergistically in their anti-nociceptive action in the mouse. Combination therapy with L-NAME and flurbiprofen and a similar NSAID may provide an alternative to the clinical control of pain in man.
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PMID:Synergistic anti-nociceptive effect of L-NG-nitro arginine methyl ester (L-NAME) and flurbiprofen in the mouse. 139 74

Since nitric oxide (NO) has been implicated in nociceptive processing, the present study examined whether NO synthase inhibition with either Nw-nitro-L-arginine (L-NA) or its methyl ester (L-NAME) would alter antinociception elicited by either continuous (CCWS) or intermittent cold-water swims (ICWS) on the tail-flick and jump tests. Whereas CCWS antinociception on both tests was significantly potentiated by a dose range of L-NA (0.1-4 mg/kg IP) and L-NAME (1 mg/kg IP), ICWS antinociception was largely unaffected by these manipulations. In contrast, administration of the less active D isomer (D-NAME) failed to alter CCWS antinociception and reduced ICWS antinociception. The ability of NO synthase inhibition to potentiate CCWS antinociception could not be explained by changes in CCWS hypothermia. Since ICWS antinociception is mediated by mu-opioid manipulations and CCWS antinociception is sensitive to delta-opioid and nonopioid manipulations, this indicates that NO synthase inhibition may be acting upon a selective form of pain inhibition.
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PMID:Nitric oxide synthase inhibition selectively potentiates swim stress antinociception in rats. 751 79

We recently reported that intrathecal (i.t.) administration of prostaglandin (PG) E2 or PGF2 alpha in conscious mice induced allodynia through a pathway that includes the glutamate receptor system. Allodynia induced by PGE2 and PGF2 alpha was blocked by antagonists for NMDA and metabotropic glutamate receptor subtypes, respectively. In the present study, we examined the possibility for the involvement of nitric oxide (NO) in the PG-evoked allodynia. Allodynia was assessed once every 5 min by light stroking of the flank of mice with a paintbrush. Intrathecal administration of L-arginine, a substrate of nitric oxide synthase (NOS), in conscious mice resulted in allodynia. Dose dependency of L-arginine for allodynia showed a bell-shaped pattern (1-10 micrograms/mouse). The maximal allodynic effect was observed with 5.0 micrograms at 10-15 min after i.t. injection, similar in time course and magnitude to that induced by L-glutamate. L-Arginine-induced allodynia was dose-dependently reduced by the NOS inhibitor N omega-nitro-L-arginine methyl ester (L-NAME) and the soluble guanylate cyclase inhibitor methylene blue with IC50 values of 7.68 and 8.70 pg/mouse, respectively. PGE2-induced allodynia was also dose-dependently inhibited by L-NAME and methylene blue with IC50 values of 94.7 and 74.9 pg/mouse. PGF2 alpha-induced allodynia was inhibited by methylene blue with an IC50 value of 40.6 pg/mouse, but not by L-NAME at doses up to 1.0 ng.(ABSTRACT TRUNCATED AT 250 WORDS)
Pain 1995 May
PMID:Nitric oxide mediates allodynia induced by intrathecal administration of prostaglandin E2 or prostaglandin F2 alpha in conscious mice. 765 39

This study compared the antinociceptive properties of systemic administration of selective, non-peptidergic antagonists at neurokinin (NK1 and NK2) receptors to those of other classes of antinociceptive agent. (All doses are in mg/kg.) In mice, the NK1 antagonist, CP 99,994, preferentially (inhibitory dose50 (ID50) = 4.4) inhibited the late phase (LP) as compared to the early phase (EP) (16.1) of formalin-induced licking (FIL). A high dose (17.6) elicited ataxia in the rotarod test. Acetic acid-induced writhing was reduced at intermediate doses (10.0) whereas the tail-flick (TF) response to thermal and mechanical stimuli was inhibited only at high doses (22.7 and 17.7, respectively). Modulation of stimulus intensity did not modify the influence of CP 99,994 upon the response to heat. A similar pattern of data was acquired with RP 67,580, although this NK1 antagonist more potently inhibited writhing (2.8). In contrast, RP 68,651, the inactive isomer of RP 67,580, neither reduced the LP of FIL nor modified writhing indicating that these actions of RP 67,580 were stereospecific. Three further NK1 antagonists, SR 140,333, WIN 51,708 and WIN 62,577, likewise inhibited the LP of FIL and failed to modify the TF response at non-ataxic doses. Further, SR 140,333 (0.5) and WIN 51,708 (1.4) were potent ligands in the writhing procedure. The NK2 antagonist, SR 48,966, mimicked NK1 antagonists in preferentially inhibiting the LP (7.7) as compared to the EP (26.9) of FIL. Further, only at doses higher than those evoking ataxia (20.9) did SR 48,968 modify the TF response (36.5 and 32.0 for heat and pressure, respectively). However, it differed to NK1 antagonists in being inactive in the writhing test (> 40.0). In comparison to these NK1 and NK2 antagonists, the mu-opioid agonists (morphine and fentanyl) and kappa-opioid agonists (enadoline and U 69,593) equipotently inhibited all nociceptive responses at doses not provoking ataxia. While the glycine B receptor partial agonist, (+)-HA 966, selectively blocked the LP of FIL and did not evoke ataxia, the NMDA receptor channel blocker, (+)-MK 801, elicited antinociception only at doses close to those provoking ataxia. Finally, the NSAIDs, indomethacin and ibuprofen, the BK2 antagonist, Hoe 140 and the nitric oxide synthase (NOS) inhibitors, L-NAME and 7 nitroindazole, inhibited the LP (but not the EP) of FIL and (except for L-NAME) also reduced writhing: in contrast, they did not evoke ataxia and were inactive in the TF procedures.(ABSTRACT TRUNCATED AT 400 WORDS)
Pain 1995 May
PMID:Antinociceptive profiles of non-peptidergic neurokinin1 and neurokinin2 receptor antagonists: a comparison to other classes of antinociceptive agent. 765 44

L-NG-nitro arginine p-nitroanilide (L-NAPNA), L-NG nitro arginine methyl ester (L-NAME) and L-NG-monomethyl arginine (L-NMMA) inhibit rat cerebellar nitric oxide synthase (NOS) with IC50s of 1.4 +/- 0.1 microM, 0.81 +/- 0.16 microM and 5.1 +/- 0.07 microM respectively. L-NAPNA inhibits the late phase of formalin-induced hindpaw licking (ED50, 57.2 mg kg-1) and acetic acid induced abdominal constrictions (ED50, 25 mg kg-1) in the mouse. L-NAPNA is approximately 65 times less active than L-NAME as an inhibitor of endothelium-dependent relaxation in the rabbit aorta and about 10 fold less potent as a vasopressor in the anaesthetized mouse. LNAPNA shows some degree of selectivity for the central NOS isoform and may be of clinical interest for the treatment of pain.
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PMID:L-NG-nitro arginine p-nitroanilide (L-NAPNA) is anti-nociceptive in the mouse. 768 56

The involvement of spinal cord nitric oxide (NO) in the development of autotomy, a proposed behavioral model of denervation pain, was studied in sciatic and saphenous nerves transected rats injected intrathecally, 10-15 min prior to neurectomies, with NG-nitro-L-arginine methyl ester (L-NAME, 20-500 nmol), NG-nitro-D-arginine methyl ester (D-NAME, 500 nmol), L- or D-arginine (5 mumol), and 8-bromoguanosine 3':5'-cyclic monophosphate sodium salt (8-Br-cGMP, 100 and 200 nmol). Self-inflicted lesions were scored daily for 8 weeks. The main effects on autotomy were: (1) a significant suppression in rats injected with L-NAME (500 nmol), but not with D-NAME; (2) a significant potentiation after L-arginine, but not D-arginine; and (3) a significant potentiation with 8-Br-cGMP, which was blocked by co-administration of L-NAME. These findings indicate that autotomy in rats can be modulated by blocking or enhancing nitroxidergic transmission at lumbosacral level, and suggest new therapeutic approaches for the prevention of certain pain syndromes, such as phantom limb pain.
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PMID:Nitric oxide mediates neuropathic pain behavior in peripherally denervated rats. 778 79

Previous work has demonstrated that pain facilitation can occur following injection of subcutaneous irritants, such as formalin. Such studies have focused on apparent pain facilitation induced at the site of irritant injection. Changes in processing of incoming pain information have typically been assumed to result from activation of neurocircuitry intrinsic to the spinal cord. The present series of studies have examined hyperalgesia exhibited at a site distant from the site of irritant injection and have begun to define the neurocircuitry and neuropharmacology underlying this pain enhancement. This work demonstrates that s.c. formalin injected into the dorsum of one hindpaw in rats produces prolonged hyperalgesia as measured by the tailflick test. Hyperalgesia is not mediated solely by circuitry intrinsic to the spinal cord, but rather involves activation of centrifugal pathways originating within the brain and descending to the spinal cord via pathway(s) outside of the dorsolateral funiculus. At the level of the spinal cord, this hyperalgesic state is mediated by an NMDA-nitric oxide cascade, since hyperalgesia can be abolished by administration of either an NMDA antagonist (APV) or a nitric oxide synthesis inhibitor (L-NAME).
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PMID:Subcutaneous formalin produces centrifugal hyperalgesia at a non-injected site via the NMDA-nitric oxide cascade. 795 32

Activation of the N-methyl-D-aspartate (NMDA) receptor has been reported to be involved in the mechanisms that underlie thermal hyperalgesia produced by the intraplantar injection of carrageenan. As NMDA-mediated thermal hyperalgesia produced in models of acute and persistent pain have been reported to involve production of nitric oxide, we examined the role of nitric oxide in both the development and maintenance of the thermal hyperalgesia produced by the intraplantar injection of carrageenan. In addition, we examined the role of nitric oxide in the maintenance of the mechanical hyperalgesia produced by intraplantar injection of carrageenan. Prior to the intraplantar injection of carrageenan (2 mg in 100 microliters) there was no significant difference in thermal withdrawal latencies or mechanical withdrawal thresholds between the left and right hindpaws. Three hours after injection of carrageenan into the left hindpaw, rats showed evidence of a significantly faster thermal withdrawal latency and lower mechanical withdrawal threshold of the left hindpaw compared to the right hindpaw. In addition, the left hindpaw was significantly increased in size (diameter) compared with the right hindpaw. In these same rats, the intrathecal administration of saline, NG-nitro-L-arginine methyl ester (L-NAME; 2-200 nmol) or the inactive enantiomer, NG-nitro-D-arginine methyl ester (D-NAME; 200 nmol) did not produce any significant change in thermal nociceptive withdrawal latencies in the non-injected paw. However, administration of L-NAME (2-20 nmol), but not saline or D-NAME produced a dose dependent and reversible block of the thermal hyperalgesia for a period of up to 3 h.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The role of nitric oxide in the development and maintenance of the hyperalgesia produced by intraplantar injection of carrageenan in the rat. 807 88

To assess the possible role of spinal nitric oxide (NO) synthesis in nociceptive processing, we examined the effect of intrathecal (i.t.) injection of arginine analogs that act as alternate substrates for NO synthase and thus inhibit NO production. NG-nitro-L-arginine ester (r-NAME) and NG-monomethyl-L-arginine (L-NMMA) produced a dose-dependent, stereospecific inhibition of the second phase (10-60 min; ED50, 135 and 246 nmol) of the formalin test with minimal effect on the first phase (0-9 min; ED50 > 1.1 mumol). The inhibitory action of L-NAME was dose-dependently reversed by i.t. L-arginine (ID50, 4.9 mumol) but not by D-arginine (ID50 > 14 mumol). The suppression of the second-phase formalin response by L-NAME was similar whether administered before or after formalin injection into the rat paw. Spinal administration of L-NAME (370 nmol), but not D-NAME (3.7 mumol), also blocked thermal hyperalgesia induced by i.t. injection of N-methyl-D-aspartate (NMDA; 6.8 nmol). The effect of L-NAME was reversed by L-arginine (4.7 mumol) but not with D-arginine (14 mumol). None of the compounds, L-NAME, D-NAME or L-arginine, when injected alone, had any effect on normal thermal response latencies or on the 52.5 degrees C hot plate. These studies indicate that modulation of spinal NO synthesis can diminish the facilitated processing of afferent activity which is induced by a continued afferent barrage (second phase of the formalin test). This hyperalgesic component appears initiated by the activation of a spinal NMDA receptor that, through the generation of NO, leads to the observed augmented processing of afferent input and the associated hyperalgesic component of the subsequent pain behavior.
Pain 1993 Sep
PMID:Spinal nitric oxide synthesis inhibition blocks NMDA-induced thermal hyperalgesia and produces antinociception in the formalin test in rats. 823 43

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