Pharmacological selectivity of CTAP in a warm water tail-withdrawal antinociception assay in rats

RATIONALE

To facilitate in vivo characterization of the mu antagonist Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH(2) (CTAP), the present study characterized CTAP selectivity in vivo.

OBJECTIVES

CTAP, the classical antagonist naltrexone, the kappa-selective antagonist nor-binaltorphimine (BNI), and the delta-selective antagonist naltrindole were compared as antagonists of representative mu, kappa, and delta agonists in a warm water tail-withdrawal assay.

MATERIALS AND METHODS

Male Sprague-Dawley rats were pretreated with CTAP (0.01 to 10.0 microg, i.c.v.), naltrexone (0.1 to 10 mg/kg s.c.; 0.1 to 10 microg i.c.v.), nor-BNI (1 mg/kg s.c.), or naltrindole (0.01 to 1 microg, i.c.v.) and tested with cumulative doses of agonist in 50 or 55 degrees C tail-withdrawal assays.

RESULTS

At 55 degrees C, morphine and DAMGO produced dose-dependent antinociceptive effects that were antagonized by CTAP or naltrexone (s.c. or i.c.v.) in a surmountable, dose-dependent manner. Neither kappa agonists (bremazocine, spiradoline, U69,593; all s.c.) nor the delta agonist DPDPE (i.c.v.) produced antinociception at 55 degrees C, but all produced full antinociception at 50 degrees C. CTAP did not antagonize effects of spiradoline, U69,593, or DPDPE, whereas nor-BNI produced insurmountable antagonism of effects of kappa agonists, and naltrindole produced surmountable antagonism of effects of DPDPE. Apparent pA (2) estimates for naltrexone, CTAP, and naltrindole agreed with published estimates, although Schild slopes diverged from predictions for simple competitive antagonism.

CONCLUSIONS

CTAP produces dose-dependent antagonism selective for mu-agonist effects in a standard 55 degrees C tail withdrawal antinociceptive assay.

Die veränderte Schmerzwahrnehmung in der Depression wird nicht durch die autonome Dysfunktion verursacht

OBJECTIVE

Depression is a common comorbidity of chronic pain and chronic pain represents a common additional symptom of depressed patients. The physiological basis is unknown.

METHODS

We investigated the possible interrelation between autonomic dysfunction and altered pain perception in unmedicated patients (U1), after introduction of antidepressive therapy (U2) and after clinical remission.

RESULTS

In accordance with previous reports we found increased thermal pain thresholds in our unmedicated patients. Cardiac autonomic dysfunction was not evitable in unmedicated, depressed patients.

CONCLUSIONS

We conclude that autonomic dysfunction is unlikely to be involved in the pathophysiology of altered pain perception in depression.

Effects of baclofen on temperature perception in humans

The aim of this study was to evaluate the effect of chronic consumption of the GABAB agonist baclofen on temperature perception in humans. We investigated temperature perception thresholds to detect warm and cold stimuli in a group of 21 patients with spinal cord injury, who were chronically consuming oral baclofen at different daily doses to treat spasticity. Temperature perception thresholds were assessed above the level of the lesion, using a psychophysical approach based on the ability of the subjects to perceive precisely quantified sensory stimuli (quantitative sensory testing, QST). The data were compared with a control group of healthy subjects, not receiving baclofen. We found that chronic baclofen consumption increased temperature perception thresholds for both cold and warm stimuli in a dose-dependent manner. Temperature perception thresholds did not depend on the level of the lesion nor on the duration of baclofen treatment, suggesting that our finding represent normal GABAB-mediated modulation in spared nervous structures. We conclude that GABAB therefore plays a role in temperature perception in humans.

Modulation of oral heat and cold pain by irritant chemicals

Common food irritants elicit oral heat or cool sensations via actions at thermosensitive transient receptor potential (TRP) channels. We used a half-tongue, 2-alternative forced-choice procedure coupled with bilateral pain intensity ratings to investigate irritant effects on heat and cold pain. The method was validated in a bilateral thermal difference detection task. Capsaicin, mustard oil, and cinnamaldehyde enhanced lingual heat pain elicited by a 49 degrees C stimulus. Mustard oil and cinnamaldehyde weakly enhanced lingual cold pain (9.5 degrees C), whereas capsaicin had no effect. Menthol significantly enhanced cold pain and weakly reduced heat pain. To address if capsaicin's effect was due to summation of perceptually similar thermal and chemical sensations, one-half of the tongue was desensitized by application of capsaicin. Upon reapplication, capsaicin elicited little or no irritant sensation yet still significantly enhanced heat pain on the capsaicin-treated side, ruling out summation. In a third experiment, capsaicin significantly enhanced pain ratings to graded heat stimuli (47 degrees C to 50 degrees C) resulting in an upward shift of the stimulus-response function. Menthol may induce cold hyperalgesia via enhanced thermal gating of TRPM8 in peripheral fibers. Capsaicin, mustard oil, and cinnamaldehyde may induce heat hyperalgesia via enhanced thermal gating of TRPV1 that is coexpressed with TRPA1 in peripheral nociceptors.

Changes in percutaneous oxygen tension induced by spinal anesthesia

PURPOSE

To check the level of spinal anesthesia is sometimes difficult in patients with dementia. In spinal anesthesia, peripheral oxygen tension may increase in the anesthetized area because of vasodilatation due to sympathetic block. The purpose of this study was to determine whether changes in percutaneous oxygen tension (tcPO(2)) were suitable for checking the level of spinal anesthesia.

METHODS

Thirty patients, aged 40 to 70 years, scheduled for surgery of the lower extremities under spinal anesthesia, were enrolled. Spinal anesthesia was performed at L4-5 with hyperbaric 0.5% tetracaine 10 to 12 mg, administered with the patient in the lateral position; the patients were then immediately returned to the supine position. The anesthesia level was checked by cold test 10 min after the spinal anesthesia, and it was confirmed that the upper level was between T3 and T11. Then oxygen 6 l x min(-1) was administered by mask. Six electrodes of a tcPO(2) monitor, (TCM 400) were attached before anesthesia, three electrodes at the right, center, and left side of the T3 level, and the other three at the right, center, and left at the T11 level. TcPO(2) was measured before and 10 min after spinal anesthesia, and 5 min after starting oxygen inhalation.

RESULTS

TcPO(2) increased significantly after spinal anesthesia only at T11, and was increased by oxygen administration at both T3 and T11. The increase of tcPO(2) after oxygen administration was larger at T3 than T11, without any differences in absolute values.

CONCLUSION

Measurement of TcPO(2) might be useful as one of the objective methods to distinguish anesthetized and nonanesthetized areas in spinal anesthesia.

The analgesic efficacy of two different approaches to the lumbar plexus for patient-controlled analgesia after total knee replacement

This study assessed the efficacy of a patient-controlled regional analgesia technique for either psoas compartment block or femoral nerve block after total knee replacement in 68 patients who were randomly divided into these two groups. All patients received 40 ml of 0.25% bupivacaine via femoral or psoas catheters before general anesthesia, and then, as patient-controlled regional analgesia, 10-ml boluses of 0.125% bupivacaine, with a lockout time of 60 min over 48 h. Pain scores, sensory block, supplemental analgesia, bupivacaine consumption, and side effects were recorded. All measured parameters were comparable in the two groups. Both techniques achieved a good quality of analgesia and satisfaction without any major side effect.

Heat injury-induced drop of the noxious heat threshold measured with an increasing-temperature water bath: A novel rat thermal hyperalgesia model

Conventional thermonociceptive tests are based on measurement of the latency of nocifensive reactions evoked by constant, suprathreshold heat stimuli. In the present study, a novel, increasing-temperature water bath was developed for determination of the noxious heat threshold temperature of lightly restrained conscious rats. One of the hindpaws of a rat was immersed into the water bath whose temperature was increased from 30 degrees C at a rate of 24 degrees C/min until the animal withdrew its hindpaw from the water. The corresponding bath temperature was considered as behavioural noxious heat threshold. The heat threshold of untreated rats was 43.5+/-0.4 degrees C (n=10) and was reproducible upon repeated measurements at intervals of 10 min for 60 min. Thermal hyperalgesia was induced by mild heat injury (51 degrees C water for 20 s) which led to a 7-8 degrees C decrease of the noxious heat threshold. Thermal hyperalgesia was detected at least for 60 min after heat injury. Morphine, diclofenac, ibuprofen and paracetamol administered intraperitoneally 20 min after heat injury dose-dependently inhibited the drop of heat threshold with minimum effective doses of 0.3, 0.3, 10 and 30 mg/kg, and ED(50) values of 0.5, 3, 18 and 100 mg/kg, respectively. Thermal hyperalgesia was also decreased by intraplantar treatment with morphine (10 microg), diclofenac (10 microg) or ibuprofen (100 microg). In conclusion, the mild heat injury-induced drop of the noxious heat threshold measured with the increasing-temperature water bath is a novel thermal hyperalgesia model highly sensitive to both opioid and non-opioid analgesics upon systemic or local administration.

Alterations in kinetic and thermotropic properties of cerebral membrane-bound acetylcholineesterase during thioacetamide-induced hepatic encephalopathy: Correlation with membrane lipid changes

Acetylcholinesterase (AchE) is an important peripheral membrane-bound enzyme, crucial for cholinergic neurotransmission. Changes in AchE activity, kinetic and thermotropic properties were studied in hepatic encephalopathy (HE) associated with acute liver failure induced experimentally by the administration of the hepatotoxin thioacetamide (TAA). Activity of AchE decreased significantly following TAA administration. AchE from cerebral cortex membrane isolates of TAA-treated rats also showed a decrease in Vmax and an increase in Km. Arrhenius plots revealed considerable changes in the thermotropic behavior of AchE from membrane isolates obtained from TAA-treated rats as evident from the decreased transition temperature. A positive correlation was observed between changes in membrane cholesterol (r2=0.987), sphingomyelin (r2=0.99) levels and AchE activity, thus indicating that membrane lipid changes could underlie the observed changes in kinetic and thermotropic properties of membrane-bound AchE during TAA-induced HE.

Continuous infusion of the cannabinoid WIN 55,212-2 to the site of a peripheral nerve injury reduces mechanical and cold hypersensitivity

BACKGROUND AND PURPOSE

Cannabinoids have analgesic and anti-inflammatory properties but their use is limited by psychotropic activity at CNS receptors. Restricting cannabinoid delivery to peripheral tissues at systemically inactive doses offers a potential solution to this problem.

EXPERIMENTAL APPROACH

WIN 55,212-2 was continuously delivered to the site of a partial ligation injury to the sciatic nerve via a perineural catheter connected to a mini-osmotic pump implanted at the time of injury. Bilateral reflex limb withdrawal behaviour was measured in adult male Wistar rats in response to mechanical and cooling stimulation of the hind paw.

KEY RESULTS

Compared with vehicle treatment, WIN 55,212-2 (1.4 microg microl(-1) hr(-1)) reduced hypersensitivity to stimuli applied to the injured limb at 2, 4 and 6 days after injury. The effects of WIN 55,212-2 (0.6-2.8 microg microl(-1) hr(-1)) were dose-dependent. Estimated EC(50) values for reduction in mean responses to mechanical and cooling stimulation (day 4 post-surgery) were 1.55 (95% C.I, [1.11-2.16]) microg microl(-1) hr(-1) and 1.52 (95% C.I, [1.07-2.18]) microg microl(-1) hr(-1), respectively. When delivered to the contralateral side to injury, WIN 55,212-2 (1.4 or 2.8 microg microl(-1) hr(-1)) did not significantly affect nerve injury-associated hypersensitivity. Co-perineural application of a CB(1) receptor antagonist SR141716a and WIN 55,212-2 prevented the effects of WIN 55,212-2 on hypersensitivity. Co-application of CB(2) receptor antagonist SR144528 reversed WIN 55,212-2's effect on mechanical hypersensitivity on day 2 only.

CONCLUSIONS AND IMPLICATIONS

These data support a peripheral antihyperalgesic effect of WIN 55,212-2 when delivered directly to the site of a nerve injury at systemically inactive doses.

Behavioural Effects in Mice and Intoxication Symptomatology of Weak Neurotoxin from Cobra Naja kaouthia

Weak neurotoxins belong to the superfamily of three-finger toxins from snake venoms. In general, weak toxins have a low toxicity and, contrary to other three-finger toxins, their molecular targets are not well characterized: in vitro tests indicate that these may be nicotinic acetylcholine receptors. Here, we report the influence of intraperitoneal and intravenous injections of weak neurotoxin from Naja kaouthia venom on mouse behaviour. Dose-dependent suppression of orientation-exploration and locomotion activities as well as relatively weak neurotropic effects of weak neurotoxin were observed. The myorelaxation effect suggests a weak antagonistic activity against muscle-type nicotinic acetylcholine receptors. Neurotoxic effects of weak neurotoxin were related to its influence on peripheral nervous system. The symptomatology of the intoxication was shown to resemble that of muscarinic agonists. Our data suggest that, in addition to interaction with nicotinic acetylcholine receptors observed earlier in vitro, weak neurotoxin interacts in vivo with some other molecular targets. The results of behavioural experiments are in accord with the pharmacological profile of weak neurotoxin effects on haemodynamics in mice and rat indicating the involvement of both nicotinic and muscarinic acetylcholine receptors.

Quantitative Sensory Findings in Patients With Bortezomib-Induced Pain

Bortezomib (PS-341) is a newly developed proteosome inhibitor that shows extremely promising antineoplastic effects against a variety of neoplasias. Neuropathic pain is emerging as a major complication of bortezomib. Although clinical reports have appeared in the literature describing the general symptoms of bortezomib chemoneuropathy, specific quantitative sensory data that detail the sensory deficits that might yield insight to the primary afferent dysfunction contributing to this pain is lacking. In this report, it is shown that patients with bortezomib-induced neuropathic pain have significantly elevated touch detection threshold and slotted peg board time, impaired sharpness detection, and elevated thresholds for the detection of skin warming and heat pain. Patients also had increased reports of cold pain. These data indicate that bortezomib-induced neuropathy is associated with deficits in Abeta, Adelta, and C caliber primary afferent fibers.

PERSPECTIVE

This work demonstrates that pain induced by the chemotherapy drug bortezomib is accompanied by dysfunction in all fiber types in sensory nerves. Impaired Abeta and C sensory function also extends into areas of skin that are not perceived as affected by pain.

Neurosensory changes in a human model of endothelin-1 induced pain: a behavioral study

Although pain is a frequent feature in patients with cancer, its etiology is still poorly understood. In recent years, endothelin-1 (ET-1) has become a major target molecule in the etiology of cancer pain. In this randomised, double-blind study the effects of intradermal injection of ET-1 on spontaneous pain, temperature perception and sensation of punctate stimulation were evaluated. Thirty-five subjects were randomised to receive either placebo or one of four concentrations of ET-1 (ranging from 10(-10) to 10(-6)M). Besides assessment of spontaneous pain, three neurosensory testings were performed: (1) cold and warm sensation, (2) cold and heat pain, and (3) punctate stimulation using a von Frey monofilament. ET-1 produced a dose-dependent flare zone that was absent after placebo injection. Subjects reported a short-lasting spontaneous pain upon administration of the highest concentrations of ET-1. Injection of ET-1 induced a long-lasting and dose-dependent punctate hyperalgesia in an area around the injection site (secondary hyperalgesia). Thermal testing revealed a short period of hypoesthesia to non-noxious warm and cold stimuli after some doses of ET-1. In addition to the mechanical hyperalgesia, intradermal injection of ET-1 almost instantaneously induced a state of cold hyperalgesia outlasting the study period (120 min). No development of heat hyperalgesia was observed. The observed psychophysical characteristics of this new model of ET-1 induced nociception indicate its potential as a human experimental model for cancer pain.

TRPV1b overexpression negatively regulates TRPV1 responsiveness to capsaicin, heat and low pH in HEK293 cells

Transient receptor potential channel type V (TRPV) 1 is a non-selective cation channel that can be activated by capsaicin, endogenous vanilloids, heat and protons. The human TRPV1 splice variant, TRPV1b, lacking exon 7, was cloned from human dorsal root ganglia (DRG) RNA. The expression profile and relative abundance of TRPV1b and TRPV1 in 35 different human tissues were determined by quantitative RT-PCR using isoform-specific probes. TRPV1b was most abundant in fetal brain, adult cerebellum and DRG. Functional studies using electrophysiological techniques showed that recombinant TRPV1b was not activated by capsaicin (1 microM), protons (pH 5.0) or heat (50 degrees C). However, recombinant TRPV1b did form multimeric complexes and was detected on the plasma membrane of cells, demonstrating that the lack of channel function was not due to defects in complex formation or cell surface expression. These results demonstrate that exon 7, which encodes the third ankyrin domain and 44 amino acids thereafter, is required for normal channel function of human TRPV1. Moreover, when co-expressed with TRPV1, TRPV1b formed complexes with TRPV1, and inhibited TRPV1 channel function in response to capsaicin, acidic pH, heat and endogenous vanilloids, dose-dependently. Taken together, these data support the hypothesis that TRPV1b is a naturally existing inhibitory modulator of TRPV1.

Spatial and temporal assessment of orofacial somatosensory sensitivity: a methodological study

AIMS

To evaluate the sensitivity and reproducibility of a multimodal psychophysical technique for the assessment of both spatial and temporal changes in somatosensory function after an infraorbital nerve block.

METHODS

Sixteen healthy volunteers with a mean (+/- SD) age of 22.5 +/- 3.4 years participated in 2 identical experimental sessions separated by 2 weeks. The subjects rated the perceived intensity of standardized nonpainful tactile, painful pinprick, warm, and cold stimuli applied to 25 points in 5 x 5 matrices in the infraorbital region of each side. The reproducibility of single points was tested, and a mean difference of 1.4 +/- 0.5 was found. A 0-50-100 numerical rating scale (NRS) with 50 denoting "just barely painful" was used. A modified ice hockey mask with adjustable settings was developed as a template to allow stimulation of the same points in the 2 sessions. Assessment of somatosensory function was carried out before the injection (baseline) and after 30 and 60 minutes on both the anesthetized and contralateral (control) side. In addition, the applicability of the psychophysical techniques was tested in pilot experiments in 2 patients before maxillary osteotomy and 3 months afterward.

RESULTS

The overall analysis of mean NRS scores, number of points, and center-of-gravity coordinates for all stimulus modalities showed no significant main effects of session. Post-hoc tests for all stimulus modalities demonstrated significantly lower mean NRS scores and significantly more points (hyposensitivity) at 30 and 60 minutes postinjection compared to baseline values on the injection side (Tukey tests: P < .002). In the 2 maxillary osteotomy patients, the psychophysical techniques could successfully be applied, and bilateral hyposensitivity to all stimulus modalities was demonstrated at the 3-month follow-up.

CONCLUSION

The present findings indicate that the psychophysical method is sufficiently reproducible, with no major differences between sessions in healthy subjects. All stimulus modalities demonstrated adequate sensitivity. Furthermore, measurement of points in 5 x 5 matrices allowed a spatial description of somatosensory sensitivity. This method may be valuable for studies on changes in somatosensory sensitivity following trauma or orthognathic surgery on the maxilla.

Contribution of TRPM8 channels to cold transduction in primary sensory neurons and peripheral nerve terminals

Transient receptor potential melastatin 8 (TRPM8) is the best molecular candidate for innocuous cold detection by peripheral thermoreceptor terminals. To dissect out the contribution of this cold- and menthol-gated, nonselective cation channel to cold transduction, we identified BCTC [N-(4-tert-butylphenyl)-4-(3-chloropyridin-2-yl)piperazine-1-carboxamide] as a potent and full blocker of recombinant TRPM8 channels. In cold-sensitive trigeminal ganglion neurons of mice and guinea pig, responses to menthol were abolished by BCTC. In contrast, the effect of BCTC on cold-evoked responses was variable but showed a good correlation with the presence or lack of menthol sensitivity in the same neuron, suggesting a specific blocking action of BCTC on TRPM8 channels. The biophysical properties of native cold-gated currents (I(cold)), and the currents blocked by BCTC were nearly identical, consistent with a role of this channel in cold sensing at the soma. The temperature activation threshold of native TRPM8 channels was significantly warmer than those reported in previous expression studies. The effect of BCTC on native I(cold) was characterized by a dose-dependent shift in the temperature threshold of activation. The role of TRPM8 in transduction was further investigated in the guinea pig cornea, a peripheral territory densely innervated with cold thermoreceptors. All cold-sensitive terminals were activated by menthol, suggesting the functional expression of TRPM8 channels in their membrane. However, the spontaneous activity and firing pattern characteristic of cold thermoreceptors was totally immune to TRPM8 channel blockade with BCTC or SKF96365 (1-[2-(4-methoxyphenyl)-2-[3-(4-methoxyphenyl)propoxy]ethyl-1H-imidazole hydrochloride). Cold-evoked responses in corneal terminals were also essentially unaffected by these drugs, whereas responses to menthol were completely abolished. The minor impairment in the ability to transduce cold stimuli by peripheral corneal thermoreceptors during TRPM8 blockade unveils an overlapping functional role for various thermosensitive mechanisms in these nerve terminals.

Stimulation of mu and delta opioid receptors induces hyperalgesia while stimulation of kappa receptors induces antinociception in the hot plate test in the naked mole-rat (Heterocephalus glaber)

The antinociceptive effects of highly selective mu (DAMGO), delta (DPDPE) and kappa (U-50488 and U-69593) opioid agonists were evaluated following intraperitoneal (i.p.) administration in the naked mole-rat. A hot plate test set at 60 degrees C was used as a nociceptive test and the latency to the stamping of the right hind paw (response latency) was used as the end-point. DAMGO (5-10 mg/kg) and DPDPE (2.5-5 mg/kg) caused a naloxone-reversible significant decrease in the mean response latency. Subcutaneous injection of naloxonazine (20 mg/kg) 24h prior to the administration of DAMGO (5 mg/kg) also blocked the reduction in the response latency observed when DAMGO was injected alone. On the contrary, U-50488 (2.5-5 mg/kg) or U-69593 (0.08 or 0.1 mg/kg) caused a naloxone-reversible significant increase in the mean response latency. These results showed that activation of mu or delta receptors caused hyperalgesia, whereas activation of kappa receptors caused antinociception in the hot plate test in naked mole-rat. This suggests that mu and delta receptors modulate thermal pain in a different way than kappa receptors in the naked mole-rat. It is not possible at the moment to point out how they modulate thermal pain as little is known about the neuropharmacology of the naked mole-rat.

Thermal and nociceptive sensations from menthol and their suppression by dynamic contact

It was recently found that cooling the skin to temperatures as mild as 25-30 degrees C can induce nociceptive sensations (burning, stinging or pricking) that are strongly suppressed by dynamic contact between the thermode and skin (contact suppression). Here we investigated whether nociceptive sensations produced by menthol can be similarly suppressed. In the first experiment subjects rated the intensity of cold and burning/stinging/pricking sensations before and after application of 10% l-menthol to the forearm. Ratings were compared at resting skin temperature ( approximately 33 degrees C) and at 28, 24, or 20 degrees C during static or dynamic contact cooling via a Peltier thermode. At resting skin temperature, menthol produced cold and nociceptive sensations, both of which were suppressed by dynamic contact. When the skin was cooled during static contact, menthol increased nociceptive sensations but not cold sensations; when the skin was cooled during dynamic contact, cold sensations were again unchanged while nociceptive sensations were suppressed. A second experiment tested whether contact suppression of menthol's cold and nociceptive sensations at resting skin temperature was caused by slight deviations of thermode temperature above skin temperature. The results showed that suppression occurred even when the thermode was slightly cooler (-0.5 degrees C) than the skin. These findings support other evidence that the menthol-sensitive channel, TRPM8, plays a role in cold nociception, and raise new questions about how dynamic tactile stimulation may modify perception of nonpainful cold stimulation.

Effects of capsaicin and menthol on oral thermal sensory thresholds

OBJECTIVE

To determine the long-term effect of capsaicin and short-term effect of menthol on oral thermal thresholds.

DESIGN

The thresholds for cold detection (CDT), warm detection (WDT), cold pain (CPT) and warm pain (WPT) were determined in 11 regular chilli-eaters (capsaicin group) and 11 control subjects that were closely matched for age, gender and ethnicity. The effect of menthol was determined by asking all 22 participants to suck a lozenge containing 0.52% menthol for 5min.

RESULTS

An ANOVA revealed a significant difference between the capsaicin and control groups (P=0.014), with the greatest difference in the WDT (capsaicin group 4.7+/-2.7[S.D.] degrees C; control group 2.3+/-2.2 degrees C). Immediately after sucking a menthol lozenge there was a significant rise in the CDT (2.2+/-1.1 degrees C to 5.9+/-6.2 degrees C; P<0.01) and WDT (3.6+/-2.7 degrees C to 7.6+/-4.4 degrees C; P<0.001).

CONCLUSIONS

The consumption of foods containing capsaicin and menthol significantly alters thermal sensory thresholds in the oral cavity. Dietary habits should therefore be taken into account when intra-oral thermal thresholds are determined.

PROSTAGLANDINS, CAPSAICIN-SENSITIVE SENSORY NERVES AND NEUTROPHIL INFILTRATION, BUT NOT NITRIC OXIDE, CONTRIBUTE TO COLD RESTRAINT STRESS-INDUCED GASTRIC ADAPTATION IN RATS

The aim of the present study was to determine the role of prostaglandins (PG), nitric oxide (NO) and capsaicin-sensitive sensory nerves in neutrophil infiltration in gastric adaptation to cold restraint stress in rats. Wistar rats were exposed to single or repeated cold restraint stress for 3.5 h every other day for up to 4 days. Prior to repeated stress, rats were pretreated with NG-nitro-L-arginine methyl ester (L-NAME; 10 mg/kg, s.c.), indomethacin (10 mg/kg, s.c.) or capsaicin (125 mg/kg, s.c.). The extent of gastric mucosal lesions was evaluated histologically and myeloproxidase (MPO) activity, PGE2, NO and calcitonin gene-related peptide (CGRP) levels were measured in gastric tissue. Cold restraint stress produced haemorrhagic lesions and reduced PGE2 and CGRP levels in the stomach, with an increase in MPO activity and NO levels. Repeated stress insults reduced stress-induced gastric damage, NO production and MPO activity, with an increase in PGE2 and CGRP levels compared with rats exposed to single cold restraint stress. Adaptation to cold restraint stress was prevented by indomethacin and capsaicin pretreatment, but not by L-NAME. We conclude that the stomach has the ability to adapt to repeated exposure to cold restraint stress and that the adaptation, via inhibition of neutrophil infiltration, is mediated, at least in part, by endogenous PG and CGRP.

Desensitization of cold- and menthol-sensitive rat dorsal root ganglion neurones by inflammatory mediators

The interaction between cold sensitivity and inflammation in mammals is not entirely understood. We have used adult rat dorsal root ganglion neurones in primary culture together with calcium microfluorimetry to assess the effects of selected inflammatory mediators on cold responses of cold- and menthol-sensitive (most likely TRPM8-expressing) neurones. We observed a high degree of functional co-expression of TRPM8, the receptors for the inflammatory agents bradykinin, prostaglandin E2 and histamine, and TRPA1 in cultured sensory neurones. Treatment with either bradykinin or prostaglandin E2 led to a reduction in the amplitude of the response to cooling and shifted the threshold temperature to colder values, and we provide evidence for a role of protein kinases C and A, respectively, in mediating these effects. In both cases the effects were mainly restricted to the subgroups of cold- and menthol-sensitive cells which had responded to the application of the inflammatory agents at basal temperature. This desensitization of cold-sensitive neurones may enhance inflammatory pain by removing the analgesic effects of gentle cooling.

Individual differences in oral thermosensation

Although oral thermosensation is critical to the perception of food and drinks, little information is available on the organization of individual differences in these abilities. We examined the relationship between measures of cooling and warming on the tongue and lip and the association of these measures to taste sensitivity in a sample of 76 healthy subjects. Thermal abilities were assessed with a computer-controlled, 1.5 cm2 peltier plate that was placed on the anterior dorsal surface of the tongue or the lower lip. Thermal testing consisted of both cooling and warming threshold detection, and intensity ratings of warm and cool suprathreshold temperatures. Intensity ratings of different temperatures were highly correlated, especially for temperatures in the same class. Similarly, warming and cooling thresholds were highly correlated. In contrast, thermal detection abilities were largely dissociable from suprathreshold intensity ratings, especially in the cooling direction. Suprathreshold ratings of cooling on the tongue were also modestly associated with ratings of the taste intensity of 6-n-propylthiouracil (PROP). However, a similar association was observed for the lower lip, indicating that the effect does not reflect an isolated characteristic of lingual physiology. Unexpectedly, two subjects with no history of oral trauma demonstrated abnormally deficient (4 S.D. below the mean) cool threshold detection abilities for the tongue, suggesting that there may exist subjects in the population who have profoundly poor lingual temperature processing.

Dancing hot on Ecstasy: physical activity and thermal comfort ratings are associated with the memory and other psychobiological problems reported by recreational MDMA users

BACKGROUND

Non-drug factors such as ambient temperature can heighten the adverse effects of MDMA (3,4-methylendioxymethamphetamine) in animals. We assessed whether dancing and feeling hot on Ecstasy would be associated with more psychobiological problems in recreational users.

METHODS

In an internet study, 206 unpaid participants (modal age 16-24) reported that they had used recreational Ecstasy/MDMA. They completed a drug use questionnaire, the Prospective Memory Questionnaire (PMQ), questions about dancing and feeling hot when on Ecstasy, and psychobiological problems afterwards.

RESULTS

Those who danced 'all the time' when on Ecstasy, reported significantly more PMQ memory problems than the less intensive dancers. Prolonged dancing was also associated with more complaints of depression, memory problems, concentration and organizational difficulties afterwards. Feeling hot when on Ecstasy was associated with poor concentration in the comedown period, and with mood fluctuation and impulsivity off-drug. PMQ long-term problems demonstrated a significant curvilinear relationship with thermal self-ratings; more memory problems were noted by those who felt very hot, and by those who did not feel hot when on Ecstasy.

CONCLUSIONS

Non-drug factors such as dancing and feeling hot are associated with the incidence of psychobiological problems reported by recreational Ecstasy/MDMA users.

Influence of antipsychotic medication on pain perception in schizophrenia

A number of clinical observations indicate that pain processing might be disturbed in psychotic disorders such as schizophrenia. Only a few studies have investigated pain perception in schizophrenia. The main objective of this study was the investigation of thresholds of warmth perception (WP), thermal pain onset (TPO) and thermal pain tolerance (TPT) in acute schizophrenic patients and the influence of antipsychotic medication on the patients' responses. We investigated 23 schizophrenic subjects who had been not received antipsychotic treatment for 8 weeks, and we then reassessed them 3 days later after the introduction of neuroleptics. Acute symptoms of schizophrenia were measured using the Scales for the Assessment of Positive and Negative Symptoms. Thresholds were determined by a contact thermode on both volar wrists. Schizophrenic patients showed significantly increased thresholds of WP and TPO relative to healthy controls. Antipsychotics did not alter pain thresholds. We found no correlation between pain perception and psychometric scales. Our findings demonstrate altered warmth and heat pain perception in acute schizophrenia. We believe that our findings can be attributed to information-processing abnormalities of the disorder and that they are not specific to pain processing, per se, since both WP and TPO were significantly different. Future studies should evaluate attentional deficits in schizophrenia in relation to pain perception.