Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0162473 (Frey)
2,599 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present study examined distribution and duration of muscle hyperalgesia to pressure stimuli after intramuscular bolus-infusions of serotonin (5-HT, 20 nmol) and bradykinin (BKN, 10 nmol) in 10 volunteers. Infusions were given into the tibialis anterior (TA) muscle over 20 s with an inter-infusions interval of 3 min. Infusions of isotonic saline (NaCl, 0.9%) were given as control. Pain intensity was continuously scored on a visual analogue scale (VAS), and subjects drew the distribution of the pain areas on an anatomical map. Pressure pain thresholds (PPTs) were assessed with an electronic algometer at the injection site (10 cm below the patella), 2, 5, and 10 cm distal from the injection site, and at the ankle. Control assessments of PPTs were done at the contralateral TA and ankle. Skin sensibility was assessed with a Von Frey hair at the same sites. All measurements were done before and 5, 20, 40, and 60 min after infusions. The VAS-peak after BKN was significantly higher (P<0.05) compared with 5-HT and the second infusion of NaCl. The duration of the increase in VAS after 5-HT+BKN was significantly longer (P<0.05) compared with the infusions of NaCl. The local pain area after infusion of BKN was significantly larger (P<0.05) compared with 5-HT and control infusions. Cutaneous sensibility to tactile stimuli was not affected by any of the combinations. PPTs at the injection site and 2 cm (5, 20, and 40 min) were significantly decreased (P<0.05) after 5-HT+BKN compared with baseline and isotonic saline. In addition, PPTs were significantly decreased (P<0.05) after 5-HT+BKN at 5 cm (5 and 20 min) and 10 cm (5 min). Serotonin may enhance the effect of bradykinin in producing experimental muscle pain and muscle hyperalgesia to mechanical stimuli. The combination of serotonin and bradykinin can produce muscle hyperalgesia, lasted for up to 40 min and located within the muscle. No widespread hyperalgesia to the ankle and other leg (tested at 10 cm below the patella and ankle) was observed suggesting a predominant peripheral origin of the experimentally induced hyperalgesic stage.
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PMID:Duration and distribution of experimental muscle hyperalgesia in humans following combined infusions of serotonin and bradykinin. 1064 Jun 24

1. Using an in vitro single unit recording technique we studied the changes in mechanical and chemical sensitivity of vagal afferent fibres in acute oesophagitis, with particular attention to inflammatory products such as purines. 2. Histologically verified oesophagitis was induced by oesophageal perfusion of 1 mg ml-1 pepsin in 150 mM HCl in anaesthetized ferrets for 30 min on two consecutive days. Controls were infused with 154 mM NaCl. 3. The number of action potentials evoked in oesophageal mucosal afferents by mucosal stroking with calibrated von Frey hairs (10-1000 mg) was stimulus dependent. In oesophagitis responsiveness was reduced across the range of stimuli compared with controls. 4. Topical application of the P2X purinoceptor agonist alphabeta-methylene ATP had no direct excitatory effect on afferents. In oesophagitis, but not in controls, there was a significant increase in responses to stroking with von Frey hairs during superfusion with alphabeta-methylene ATP (1 microM). 5. Mucosal afferents responded directly to one or more chemical stimuli: 26 % (5/19 afferents) responded in controls, and 47 % (7/15 afferents) in oesophagitis. There were no differences in responsiveness to bradykinin (1 microM), prostaglandin E2 (100 microM), 5-hydroxytryptamine (100 microM), capsaicin (1 mM) or hydrochloric acid (150 mM) between control and oesophagitis groups. 6. We conclude that a sensitizing effect of a P2X purinoceptor agonist on mechanosensory function is induced in oesophagitis. This effect is offset by a decrease in basal mechanosensitivity.
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PMID:P2X purinoceptor-induced sensitization of ferret vagal mechanoreceptors in oesophageal inflammation. 1069 84

After intramuscular (m. tibialis anterior) injection of three different algogenic substances, the pain intensity was continuously scored on a visual analogue scale (VAS) in eight volunteers. The subject drew the distribution of the local and referred pain areas on a map. Four times within the first hour after injection, the pressure pain-thresholds (PPTs) and supra pressure-pain thresholds were assessed at the injection point, 2 cm distal from the injection site, at the arm, and at the contralateral leg. Measurements were done before and after injection of 0.5 ml of the algogenic substance [bradykinin (BKN), serotonin (5-HT), substance P (SP)], and isotonic saline as control. Cutaneous sensitivity to mechanical stimuli was assessed with a Von Frey hair at the same location as PPT determinations.The pain intensity (VAS-peak) after BKN (2, 4, and 10 nmol) and 5-HT (2, 4, and 20 nmol) was significantly higher (p< 0.05) than after SP (0.2, 0.4, and 0.8 nmol) and isotonic saline. The VAS-peak after infusions of hypertonic saline was significantly higher (p< 0.05) compared with VAS-peaks after all other substances. A significantly larger (p< 0.05) local pain area was found after BKN compared with isotonic saline. After injections of hypertonic saline, the offsets of evoked pain were significantly longer (p< 0.05) and the local and referred pain areas were significantly larger (p< 0.05) compared with all other substances. There was no dose-response relation between the pain intensity and the different doses of BKN, 5-HT, and SP. PPTs and skin sensitivity were not affected by any of the injections.We conclude that under the present experimental conditions, BKN and 5-HT can produce low levels of muscle pain after intramuscular injection. In the used concentrations, however, BKN, 5-HT, and SP did not generate cutaneous or muscular hyperalgesia. Copyright 1999 European Federation of Chapters of the International Association for the Study of Pain.
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PMID:Experimental human muscle pain induced by intramuscular injections of bradykinin, serotonin, and substance P. 1070 Mar 39

The response of neuroma nerve endings to different stimuli was studied in a saphenous nerve neuroma preparation in vitro. Electrical activity was recorded from 141 single fibres dissected of saphenous nerve. One-third (27 %) displayed spontaneous activity. Based on their response to mechanical and chemical stimuli, neuroma nerve fibres were classified as mechanosensory fibres (47.5 %), mechanically insensitive chemosensory fibres (17.0 %), polymodal nociceptor fibres (28.4 %) and unresponsive fibres (7.1 %). Mechanosensory and polymodal neuroma endings responded to von Frey hair stimulation either with a few impulses (phasic units) or a sustained discharge (tonic units). Polymodal units were additionally activated by at least one of the following stimuli: acidic solutions; a combination of bradykinin, prostaglandin E2, serotonin, substance P and histamine (all at 1 microM) plus 7 mM KCl (inflammatory soup); 600 mM NaCl and capsaicin. Low pH solutions increased the firing discharge of polymodal endings proportionally to the proton concentration. The 'inflammatory soup' evoked a firing response characterized by the absence of tachyphylaxis, which appeared when its components were applied separately. Both stimuli sensitized polymodal fibres to mechanical stimulation. Hypertonic NaCl (600 mM) and capsaicin (3.3 mM) induced a prolonged discharge that outlasted the stimulus duration. Mechanically insensitive chemosensory neuroma fibres exhibited responses to chemical stimuli analogous to polymodal fibres. They became mechanically sensitive after chemical stimulation. These findings show that neuroma nerve endings in the rat saphenous nerve neuroma in vitro are functionally heterogeneous and exhibit properties reminiscent of those in intact mechanosensory, polymodal and 'silent' nociceptor sensory afferents, including their sensitization by algesic chemicals.
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PMID:Responses of nerve fibres of the rat saphenous nerve neuroma to mechanical and chemical stimulation: an in vitro study. 1097 Apr 31

Recent studies have indicated that nociceptors can be classified into various types according to their physiological properties. These studies have clarified that the frequency distribution of various nociceptor types is different among body sites and animal species. In the present study, we investigated the physiological properties of rat's periodontal nociceptors in an in vitro jaw-nerve preparation. Responses were recorded from functional single filaments in the inferior alveolar nerve. To determine the nociceptor type, calibrated von Frey filaments, heat, and bradykinin (BK) stimuli were used. We found five subtypes of nociceptors in the periodontal ligaments of the lower incisor: Adelta-high threshold mechanonociceptors (Adelta-HTM, n=28), Adelta-mechanoheat nociceptors (Adelta-MH, n=6), Adelta-polymodal nociceptors (Adelta-POLY, n=26), C-high threshold mechanonociceptors (C-HTM, n=3) and C-polymodal nociceptors (C-POLY, n=4). Most nociceptors were Adelta-innervated, while only a small number of C-innervated nociceptors were found. The present results suggest that periodontal nociceptors transmit mainly fast pain, and may thus play a role in rapid detection of injure-related stimuli during mastication.
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PMID:Characteristics of nociceptors in the periodontium--an in vitro study in rats. 1470 49

Bradykinin, an endogenous nonapeptide and an important mediator of inflammation, is also implicated in the initiation and maintenance of pain. Both des-Arg(8), Leu(8)-bradykinin (dALBK) and HOE-140, the prototypic bradykinin B1 and B2 receptor antagonists, respectively, have been shown to reduce pain behaviors and inflammation in animal models of persistent nociception. We studied them for activity against incision-induced pain behaviors in a rat model for postoperative pain. A 1-cm plantar incision was made in the hind paw of halothane-anesthetized rats and closed with 5-0 nylon. Withdrawal responses to punctate and nonpunctate mechanical stimuli were tested with von Frey filaments and a plastic disk attached to a von Frey filament, respectively. Withdrawal latency to radiant heat was also tested. Rats were tested 1 day before the incision, 1 h after the incision, and 0.5, 1, 1.5, and 2.5 h after the injection of the drug. They were then retested at the same times before and after the injection of the drug on each of the first 2 postoperative days. The rats received the saline vehicle dALBK (0.1, 0.3, 1.0, or 3.0 mg/kg) or HOE-140 (0.1, 0.3, 1.0, or 3.0 mg/kg) IV. Another group of rats had the drug injected 1 h before incision and tested as above. Statistical significance (P < 0.05) was determined with Kruskal-Wallis test and a two-way analysis of variance. None of the doses of either dALBK or HOE-140 affected the responses to punctate or blunt mechanical stimulation or heat, either as a pretreatment or as a posttreatment. These data support the unique mechanisms for incision-induced pain relative to inflammation-related pain. Although inflammation may represent a component of incisional pain, the etiology of inflammation and its role seem different than in other models.
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PMID:Bradykinin antagonists have no analgesic effect on incisional pain. 1538 70

It is reported that cardiac afferent information is transmitted through at least three different pathways to the CNS: sympathetic, parasympathetic, and somatic; however, there are few studies concerning the role of afferent fibers of vagus nerves for eliciting cardiac sensation including pain. Especially, receptive field properties innervated by single vagal nerve fiber and mechanical threshold of nociceptors on the cardiac surface are not yet quantitatively studied. Therefore, in this study, we systematically investigated characteristics of vagal units innervating cardiac nociceptors in rats. Using anesthetized and artificially ventilated rats, 37 single unit recordings were made from fine nerve filaments of the left vagal nerve. For quantitative mechanical stimulation, the cardiac surface was stimulated by a von Frey type device. In addition, bradykinin was used for checking the chemical sensitivity of the nociceptor. Electrical stimulation was used to estimate the conduction velocity of the recorded nerve fiber. All units recorded from the vagal nerve were either Adelta- or C-polymodal nociceptors. About 70% of the afferents had conduction velocities in the C-fiber range. In 60% of the units, the peripheral receptive field covered spot-like areas, but we also found larger and continuous receptive fields. Our results show that a majority of nociceptors innervated by vagal afferents are the C-polymodal type with spot-like receptive fields. We consider it to relate to the ambiguous and dull pain of angina pectoris.
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PMID:Cardiac nociceptors innervated by vagal afferents in rats. 1656 29

The kinin system can contribute distinctly to the sensory changes associated with different models of nerve injury-induced neuropathic pain. This study examines the roles of kinin B(1) and B(2) receptor-operated mechanisms in alterations in nociceptive responses of rats submitted to unilateral L5/L6 spinal nerve ligation (SNL) injury. Behavioural responses to ipsilateral hind paw stimulation with acetone (evaporation-evoked cooling), radiant heat (Hargreaves method) or von Frey hairs revealed that SNL rats developed long-lasting cold allodynia (from Days 3 to 40 post-surgery, peak on Day 6), heat hyperalgesia (stable peak from Days 9 to 36) and tactile allodynia (stable peak from Days 3 to 51). SNL rats manifested nocifensive responses to intraplantar injections on Day 12 of the selective B(1) receptor agonist des-Arg(9)-bradykinin (DABK) and augmented responses to the selective B(2) receptor agonist bradykinin (BK; each at 0.01-1nmol/paw). Systemic treatment of SNL rats with des-Arg(9)-Leu(8)-BK or HOE 140 (peptidic B(1) and B(2) receptor antagonists, respectively; 0.1-1mumol/kg, i.p.) selectively blocked responses triggered by DABK and BK (1nmol/paw) and alleviated partially and transiently established cold allodynia, heat hyperalgesia and (to a lesser extent) tactile allodynia. Western blot analysis revealed enhanced expression of kinin B(1) and B(2) receptor protein in ipsilateral L4-L6 spinal nerve and hind paw skin samples collected on Day 12 after SNL surgery. These results indicate that peripheral pronociceptive kinin B(1) and B(2) receptor-operated mechanisms contribute significantly to the maintenance of hind paw cold and mechanical allodynia and heat hyperalgesia induced by L5/L6 SNL in rats.
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PMID:Peripheral kinin B(1) and B(2) receptor-operated mechanisms are implicated in neuropathic nociception induced by spinal nerve ligation in rats. 1755 75

Experiments were designed to address whether diphenyl diselenide (PhSe)(2) has antiallodynic and antihyperalgesic properties. The neuropathic pain was caused by a partial tying (2/3) of sciatic nerve and the inflammatory pain was induced by an intraplantar (i.pl.) injection of 20 microl of Freund's Complete Adjuvant (CFA) in mice. Seven days after sciatic nerve constriction and 24 h after CFA intraplantar (i.pl.) injection, mouse pain threshold was evaluated through tactile allodynia, using Von Frey Hair (VHF) filaments. The acute thermal hyperalgesia was induced by intrathecal (i.t.) injection of glutamate, N-methyl-d-aspartate (NMDA), bradykinin (BK) and prostaglandin E(2) (PGE(2)), and the nociceptive response was assessed using hot-plate test. (PhSe)(2) administered by oral route (p.o.) (10 mg/kg) decreased the paw withdrawal response on the ipsilateral side of the partial sciatic nerve ligation 30 min after drug administration (64+/-7%) and this effect was kept for 1 h after treatment. (PhSe)(2) (10 mg/kg, p.o.) produced a reduction in mechanical allodynia induced by CFA started 30 min after (PhSe)(2) administration (71+/-5%) and this effect was maintained for up 4 h. (PhSe)(2) (0.1-50 mg/kg, p.o.) caused a significant inhibition of glutamate-, NMDA- and BK-(PGE(2))-induced acute thermal hyperalgesia in mice. Together, the present results indicate that (PhSe)(2) produces systemic antiallodynic action when assessed in mechanical stimulus (VHF) in the hindpaw and also attenuates acute thermal hyperalgesia. Thus, this compound might be potentially interesting in the development of new clinically relevant drugs for the management of pain.
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PMID:Diphenyl diselenide attenuates acute thermal hyperalgesia and persistent inflammatory and neuropathic pain behavior in mice. 1788 16

The effects of trinitrobenzene sulfonic acid (TNBS)-induced inflammation on specialized, low-threshold, slowly adapting rectal mechanoreceptors were investigated in the guinea pig. Under isoflurane anesthesia, 300 microl saline or TNBS (15 mg/ml) in 30% ethanol was instilled 7 cm from the anal sphincter. Six or 30 days later, single unit extracellular recordings were made from rectal nerve trunks in flat-sheet in vitro preparations attached to a mechanical tissue stretcher. TNBS treatment caused macroscopic ulceration of the rectal mucosa at 6 days, which fully resolved by 30 days. Muscle contractility was unaffected by TNBS treatment. At 6 days posttreatment, responses of low-threshold rectal mechanoreceptors to circumferential stretch were increased, and the proportion of afferents responding with von Frey hair thresholds <or=0.1 mN and mechanoreceptor excitability in response to electrical stimulation were increased in TNBS-treated tissue, suggesting increased sensitivity of the mechanotransducer. Mechanoreceptor function at 30 days posttreatment was in most cases unchanged. The inflammatory mediator prostaglandin E(2) (1 microM) activated mechanoreceptors (6 days) in conjunction with contractile activity, but capsaicin (1 microM) failed to activate mechanoreceptors. Bradykinin (1 microM) activated mechanoreceptors independently of contractile activity and responses to stretch were increased in the presence of bradykinin. Both capsaicin and bradykinin activated unidentified stretch-insensitive afferents independently of contractile activity. Mechanoreceptor function is modulated at 6 days posttreatment but not at 30 days, suggesting a moderate increase in mechanoreceptor sensitivity in inflamed tissue but not after recovery. Other unclassified stretch-insensitive afferents are responsive to inflammatory mediators and capsaicin and may be involved in aspects of visceral sensation.
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PMID:TNBS-induced inflammation modulates the function of one class of low-threshold rectal mechanoreceptors in the guinea pig. 1875 10


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