Peripheral analgesic actions of opioids

Pain, Motivation, Migraine, and the Microbiome: New Frontiers for Opioid Systems and Disease

For decades the broad role of opioids in addiction, neuropsychiatric disorders, and pain states has been somewhat well established. However, in recent years, with the rise of technological advances, not only is the existing dogma being challenged, but we are identifying new disease areas in which opioids play a critical role. This review highlights four new areas of exploration in the opioid field. The most recent addition to the opioid family, the nociceptin receptor system, shows promise as the missing link in understanding the neurocircuitry of motivation. It is well known that activation of the kappa opioid receptor system modulates negative affect and dysphoria, but recent studies now implicate the kappa opioid system in the modulation of negative affect associated with pain. Opioids are critical in pain management; however, the often-forgotten delta opioid receptor system has been identified as a novel therapeutic target for headache disorders and migraine. Lastly, changes to the gut microbiome have been shown to directly contribute to many of the symptoms of chronic opioid use and opioid related behaviors. This review summarizes the findings from each of these areas with an emphasis on identifying new therapeutic targets. SIGNIFICANCE STATEMENT: The focus of this minireview is to highlight new disease areas or new aspects of disease in which opioids have been implicated; this includes pain, motivation, migraine, and the microbiome. In some cases, this has resulted in the pursuit of a novel therapeutic target and resultant clinical trial. We believe this is very timely and will be a refreshing take on reading about opioids and disease.

Treatment of Pain in Pediatric Patients

A growing body of evidence demonstrates that untreated pain is associated with adverse consequences that can compromise clinical and developmental outcomes in children but that these adverse consequences can be prevented or attenuated by appropriate analgesic therapy. Thus, effective treatment of acute pain must be a clinical priority for children of all ages. Over the past 20 years, extensive pediatric research exploring pain assessment, developmental pharmacology of analgesics, and the clinical use of analgesics has dispelled many myths and misconceptions about pain management in pediatric patients; proven that analgesics can be used safely in neonates, infants, and children; and provided a framework for the development of pediatric pain management guidelines. This article reviews guidelines recommended for managing acute pain in pediatric patients and the treatment options for children experiencing acute pain. Contemporary issues regarding acetaminophen, nonsteroidal anti-inflammatory agents, and opioids are discussed.

NMDA Receptor Antagonists, Gabapentinoids, α-2 Agonists, and Dexamethasone and Other Non-Opioid Adjuvants: Do They Have a Role in Plastic Surgery?

BACKGROUND

Inadequate pain control and opioid-related adverse effects result in delayed patient recovery and discharge times. Adjuvants help to improve the quality of analgesia and decrease opioid consumption, consequently decreasing opioid-related effects, such as nausea and vomiting, sedation, ileus, and respiratory depression. We review the mechanisms and clinical evidence for nonopioid adjuvants.

METHODS

MEDLINE, EMBASE, and the Cochrane Register were searched for meta-analyses, systematic reviews, and randomized, controlled trials that compared the adjuvants ketamine, gabapentin, pregabalin, dexmedetomidine, clonidine, and dexamethasone with placebo. Keywords used in the search included "plastic surgery," "reconstructive surgery," "opioid," "pain," "analgesia," and the names of each adjuvant. The references of included studies were searched for additional relevant studies.

RESULTS

Ketamine was found in 6 meta-analyses to have a significant reduction in opioid requirements and may reduce the hyperalgesia associated with opioids. This seems to be most beneficial in surgeries where high postoperative pain is expected. Multiple robust trials have demonstrated that the gabapentinoids and α-2 agonists significantly improve quality of analgesia and decrease opioid consumption. Two recent meta-analyses found that a single low-dose of dexamethasone used for postoperative nausea and vomiting prophylaxis may also improve postoperative analgesia. There is also emerging evidence for the use of low-dose naloxone, adenosine, and neuraxial neostigmine and acupuncture as part of a successful multimodal pain management regimen.

CONCLUSIONS

Although there is a lack of studies specifically focused in the plastic and reconstructive surgery patient population, the existing literature provides information about when the above adjuvants are likely to have the greatest impact.

Kappa opioids and the modulation of pain

BACKGROUND AND RATIONALE

Pain is a complex sensory experience, involving cognitive factors, environment (setting, society, and culture), experience, and gender and is modulated significantly by the central nervous system (CNS). The mechanisms by which opioid analgesics work are understood, but this class of drugs is not ideal as either an analgesic or anti-hyperalgesic. Accordingly, considerable effort continues to be directed at improved understanding of nociceptor function and development of selective analgesics that do not have the unwanted effects associated with opioid analgesics.

OBJECTIVE

The purpose of this paper is to provide a review of the role of KOP receptors in the modulation of pain and highlight several chemotypes currently being explored as peripherally restricted KOP ligands.

RESULTS

A growing body of literature has shown that KOP receptors are implicated in a variety of behavioral pain models. Several different classes of peripherally restricted peptidic and nonpeptidic KOP agonists have been identified and show utility in treating painful conditions.

CONCLUSION

The pharmacological profile of KOP agonists in visceral pain models suggest that peripherally restricted KOP agonists are potentially useful for a variety of peripheral pain states. Further, clinical investigation of peripherally restricted KOP agonists will help to clarify the painful conditions where KOP agonists will be most effective.

The interpersonal dimension of borderline personality disorder: toward a neuropeptide model

Borderline personality disorder is characterized by affective instability, impulsivity, identity diffusion, and interpersonal dysfunction. Perceived rejection and loss often serve as triggers to impulsive, suicidal, and self-injurious behavior, affective reactivity, and angry outbursts, suggesting that the attachment and affiliative system may be implicated in the disorder. Neuropeptides, including the opioids, oxytocin, and vasopressin, serve a crucial role in the regulation of affiliative behaviors and thus may be altered in borderline personality disorder. While clinical data are limited, the authors propose alternative neuropeptide models of borderline personality disorder and review relevant preclinical research supporting the role of altered neuropeptide function in this disorder in the hope of stimulating more basic research and the development of new treatment approaches.

Neural mechanism underlying acupuncture analgesia

Acupuncture has been accepted to effectively treat chronic pain by inserting needles into the specific "acupuncture points" (acupoints) on the patient's body. During the last decades, our understanding of how the brain processes acupuncture analgesia has undergone considerable development. Acupuncture analgesia is manifested only when the intricate feeling (soreness, numbness, heaviness and distension) of acupuncture in patients occurs following acupuncture manipulation. Manual acupuncture (MA) is the insertion of an acupuncture needle into acupoint followed by the twisting of the needle up and down by hand. In MA, all types of afferent fibers (Abeta, Adelta and C) are activated. In electrical acupuncture (EA), a stimulating current via the inserted needle is delivered to acupoints. Electrical current intense enough to excite Abeta- and part of Adelta-fibers can induce an analgesic effect. Acupuncture signals ascend mainly through the spinal ventrolateral funiculus to the brain. Many brain nuclei composing a complicated network are involved in processing acupuncture analgesia, including the nucleus raphe magnus (NRM), periaqueductal grey (PAG), locus coeruleus, arcuate nucleus (Arc), preoptic area, nucleus submedius, habenular nucleus, accumbens nucleus, caudate nucleus, septal area, amygdale, etc. Acupuncture analgesia is essentially a manifestation of integrative processes at different levels in the CNS between afferent impulses from pain regions and impulses from acupoints. In the last decade, profound studies on neural mechanisms underlying acupuncture analgesia predominately focus on cellular and molecular substrate and functional brain imaging and have developed rapidly. Diverse signal molecules contribute to mediating acupuncture analgesia, such as opioid peptides (mu-, delta- and kappa-receptors), glutamate (NMDA and AMPA/KA receptors), 5-hydroxytryptamine, and cholecystokinin octapeptide. Among these, the opioid peptides and their receptors in Arc-PAG-NRM-spinal dorsal horn pathway play a pivotal role in mediating acupuncture analgesia. The release of opioid peptides evoked by electroacupuncture is frequency-dependent. EA at 2 and 100Hz produces release of enkephalin and dynorphin in the spinal cord, respectively. CCK-8 antagonizes acupuncture analgesia. The individual differences of acupuncture analgesia are associated with inherited genetic factors and the density of CCK receptors. The brain regions associated with acupuncture analgesia identified in animal experiments were confirmed and further explored in the human brain by means of functional imaging. EA analgesia is likely associated with its counter-regulation to spinal glial activation. PTX-sesntive Gi/o protein- and MAP kinase-mediated signal pathways as well as the downstream events NF-kappaB, c-fos and c-jun play important roles in EA analgesia.

Effect of combining ultralow-dose naloxone with morphine in intravenous patient-controlled analgesia: the cut-off ratio of naloxone to morphine for antiemesis after gynecologic surgery

BACKGROUND/PURPOSE

Admixing an ultralow dose of naloxone with intravenous morphine patient-controlled analgesia (PCA) has been shown to decrease postoperative nausea. However, the cut-off ratio of the naloxone-morphine admixture for antiemetic effects has not been investigated. The purpose of this study was to investigate the cut-off ratio of naloxone-morphine admixture in PCA for antiemesis after gynecologic surgery.

METHODS

This double-blind study enrolled 120 female patients who were scheduled for gynecologic surgery under general anesthesia. Patients were randomly allocated to one of three groups (n = 40 for each group). The concentration of naloxone and morphine respectively was 0 microg/mL and 1 mg/mL in group 1, 0.1 microg/mL and 1 mg/mL in group 2 (1:10,000), and 1 microg/mL and 1 mg/mL in group 3 (1:1000). Morphine consumption, verbal rating score of wound pain at rest and with exertion, and morphine-related side effects were investigated at 1, 2, 4 and 24 hours postoperatively.

RESULTS

A total of 112 patients completed the study (37 in group 1, 36 in group 2, 39 in group 3). The incidence of nausea during the postoperative 4-24 hours was significantly lower in group 3 than in group 1 (23.1% vs. 56.8%, p < 0.05). Furthermore, the overall incidence of severe nausea was significantly lower in group 3 than in group 1 (2.6% vs. 24.3%, p < 0.05) as was the rescue antiemetic requirements (5.1% vs. 24.3%, p < 0.05). However, there were no significant differences between groups 2 and 1. The pain scores (at rest and with exertion) and 24-hour morphine consumption were not significantly different among the three groups.

CONCLUSION

The antiemetic efficacy of ultralow-dose naloxone combined with PCA morphine is limited by a cut-off ratio of naloxone to morphine of 1:10,000.

Novel D-amino acid tetrapeptides produce potent antinociception by selectively acting at peripheral kappa-opioid receptors

Kappa-(kappa) opioid receptors are widely distributed in the periphery and activation results in antinociception; however supraspinal acting kappa-agonists result in unwanted side effects. Two novel, all d-amino acid, tetrapeptide kappa-opioid receptor agonists, FE 200665 and FE 200666, were identified and compared to brain penetrating (enadoline) and peripherally selective (asimadoline) kappa-agonists as potential analgesics lacking unwanted central nervous system (CNS) side effects. In vitro characterization was performed using radioligand binding and GTP gamma S binding. Antinociception was evaluated in both mice and rats. Rotarod tests were performed to determine motor impairment effects of the kappa-agonists. FE 200665 and FE 200666 showed high affinity for human kappa-opioid receptor 1 (Ki of 0.24 nM and 0.08 nM, respectively) and selectivity for human kappa-opioid receptor 1 (human kappa-opioid receptor 1/human mu-opioid receptor/human delta-opioid receptor selectivity ratios of 1/16,900/84,600 and 1/88,600/>1,250,000, respectively). Both compounds demonstrated agonist activity in the human kappa-opioid receptor 1 [35S]GTP gamma S binding assay (EC50 of 0.08 nM and 0.03 nM) and resulted in dose-related antinociception in the mouse writhing test (A50: 0.007 and 0.013 mg/kg, i.v., respectively). Markedly higher doses of FE 200665 and FE 200666 were required to induce centrally-mediated effects in the rotarod assay (548- and 182-fold higher doses, respectively), and antinociception determined in the mouse tail-flick assay (>1429- and 430-fold fold higher doses, respectively) after peripheral administration supporting a peripheral site of action. The potency ratios between central and peripheral activity suggest a therapeutic window significantly higher than previous kappa-agonists. Furthermore, FE 200665 has entered into clinical trials with great promise as a novel analgesic lacking unwanted side effects seen with current therapeutics.

Relative contribution of peripheral versus central opioid receptors to antinociception

Opioid effects are mediated by central and peripheral opioid receptors. Here we examine the relative contribution of each receptor population to antinociception elicited by systemically administered centrally penetrating opioids, and by loperamide (a peripherally restricted opioid). Nociception (abdominal writhes) was induced by intraperitoneally (i.p.) injected 0.6% acetic acid in mice. We analyzed opioid receptor expression in peritoneum by immunohistochemistry, antinociception after i.p. injected agonists at mu (morphine, loperamide)-, delta (SNC80)- and kappa (U50488)-receptors, and its reversibility by subcutaneously (s.c.) administered centrally penetrating antagonists beta-funaltrexamine (mu), naltrindole (delta) and nor-binaltorphimine (kappa), and by the peripherally restricted antagonist naloxone methiodide (NLXM). NLXM was also injected intracerebroventricularly (i.c.v.) before i.p. loperamide. Mu-, kappa- and, to a lesser degree, delta-receptors were expressed on peripheral nerve terminals in the peritoneum. The anatomical distribution of the opioid receptor staining was very similar to the staining for calcitonin gene-related peptide, a marker of sensory neurons. Morphine, U50488 and, to a lesser degree, SNC80 blocked acetic and acid induced writhes. These effects were reversed by beta-funaltrexamine, nor-binaltorphimine and naltrindole, respectively. NLXM (s.c.) reversed antinociceptive effects of morphine, SNC80 and U50488 by 57%, 80% and 47%, respectively. Loperamide (0.05 mg/kg)-induced antinociception was reversed by s.c. beta-funaltrexamine and NLXM. Loperamide (0.1 mg/kg)-induced antinociception was completely blocked by s.c. beta-funaltrexamine but was only attenuated (by 50%) by s.c. or i.c.v. NLXM. In conclusion, systemically administered centrally penetrating mu-, delta- and kappa-agonists produced a substantial part of antinociception through peripheral opioid receptors. Higher dose loperamide-induced antinociception involved also central opioid receptors.

Efficacy of periarticular multimodal drug injection in total knee arthroplasty. A randomized trial

BACKGROUND

Postoperative analgesia with the use of parenteral opioids or epidural analgesia can be associated with troublesome side effects. Good perioperative analgesia facilitates rehabilitation, improves patient satisfaction, and may reduce the hospital stay. We investigated the analgesic effect of locally injected drugs around a total knee prosthesis.

METHODS

Sixty-four patients undergoing total knee arthroplasty were randomized either to receive a periarticular intraoperative injection containing ropivacaine, ketorolac, epimorphine, and epinephrine or to receive no injection. The perioperative analgesic regimen was standardized. All patients in both groups received patient-controlled analgesia for twenty-four hours after the surgery, and this was followed by standard analgesia. Visual analog scores for pain, during activity and at rest, and for patient satisfaction were recorded preoperatively and postoperatively and at the six-week follow-up examination. The consumption of patient-controlled analgesia at specific postoperative time-points and the overall analgesic requirement were measured.

RESULTS

The patients who had received the injection used significantly less patient-controlled analgesia at six hours, at twelve hours, and over the first twenty-four hours after the surgery. In addition, they had higher visual analog scores for patient satisfaction and lower visual analog scores for pain during activity in the post-anesthetic-care unit and four hours after the operation. No cardiac or central nervous system toxicity was observed.

CONCLUSIONS

Intraoperative periarticular injection with multimodal drugs can significantly reduce the requirements for patient-controlled analgesia and improve patient satisfaction, with no apparent risks, following total knee arthroplasty.

A novel molecule with peripheral opioid properties: the effects on hypercarbic and hypoxic ventilation at steady-state compared with morphine and placebo

Frakefamide (FF), is a new peripherally acting mu-opioid receptor agonist. The aim of this double-blind, randomized, double-dummy, four-way, crossover study was to investigate FF effects on hypercarbic and hypoxic ventilation at steady-state after a 6-h infusion. We compared the effect with 2 clinical doses of morphine (M-small and M-large) and placebo in 12 healthy men. The subjects received 1.22 mg/kg of FF, 0.44 mg/kg of M-large, and 0.11 mg/kg of M-small. Sodium chloride 9 mg/mL was used as placebo. Ventilation was studied by pneumotachography and in-line capnography. There were no ventilatory effects caused by FF or placebo. As expected, large doses of morphine influenced both hypercarbic and hypoxic ventilatory responses. We conclude that there were no signs of central respiratory depression caused by FF after 6 h of constant infusion, which supports a peripheral action of the compound. However, morphine caused a dose-dependent central depression during the hypercarbic ventilatory response and a mild depression of hypoxic ventilatory response.

Detection of kappa and delta opioid receptors in skin--outside the nervous system

Opioid receptors (OR) are widely expressed in the central nervous system (CNS). Opioid antinociception might be initiated by activation of OR outside the CNS, indicating targeting of peripheral OR could be useful in the treatment of chronic pain. This study was designed to detect OR in skin tissues of healthy volunteers at both mRNA and protein levels. Skin samples from 10 healthy individuals were investigated. Total isolated RNAs were reverse transcribed, amplified and quantified by real-time PCR. Tissue and skin fibroblast OR protein was detected by immunohistochemistry, Western blot, and immunofluorescence. All skin tissue samples expressed delta- (DOR) and kappa-OR (KOR) mRNAs. Using immunohistochemistry, DOR and KOR were localized in skin fibroblast-like and mononuclear cells. Skin fibroblasts in culture expressed DOR and KOR mRNA. Using immunofluorescence, both DOR and KOR proteins were expressed predominantly on the cell membrane with minor staining in the cytoplasm. We suggest that enhanced expression of DOR and KOR in skin justifies the exploration of selective novel delta and kappa agonists for local pain treatment.

A Novel Molecule (Frakefamide) with Peripheral Opioid Properties: The Effects on Resting Ventilation Compared with Morphine and Placebo

In animal models frakefamide (FF) is a potent analgesic that acts as a peripheral active mu-selective receptor agonist. In this double-blind, randomized, double dummy four-way crossover study in 12 healthy male subjects, we investigated the effects on resting ventilation of FF and 2 dose levels of morphine compared with placebo. Each drug was infused for 6 h. The subjects received 1.22 mg/kg FF, 0.43 mg/kg morphine (M-large), and 0.11 mg/kg morphine (M-small). Sodium chloride 9 mg/mL was used as placebo. Ventilation was measured by pneumotachography and inline capnography. Blood was collected and plasma concentrations of FF and morphine and its metabolites were analyzed. Within 15 min after administration of FF all subjects complained of a transient myalgia, which disappeared within 30 min. At target measurement (335 min), there were no differences in tidal volume among the groups. Respiratory rates were, however, slower in the two M-groups (P < 0.05 in M-small and P < 0.001 in M-large) compared with FF and placebo. Minute volume was significantly less in the M-large group compared with the FF (P < 0.01) and placebo (P < 0.01) groups. This difference was reflected by an elevated ETco(2) in the M-large group (P < 0.01). We conclude that, during resting ventilation, FF, unlike morphine, did not cause central respiratory depression. This suggests that FF has only peripheral mu-opioid agonist activity in humans.

The kappa-opioid agonist, asimadoline, alters cytokine gene expression in adjuvant arthritis

OBJECTIVE

We have previously found that the kappa-opioid agonist, asimadoline, attenuates adjuvant arthritis in a dose-dependent, antagonist-reversible manner. To elucidate possible mechanisms, we investigated the effects of asimadoline (5 mg/kg/day i.p.) or vehicle on in vivo cytokine expression and T-cell recruitment in adjuvant arthritis.

METHODS

Arthritis severity was assessed every 3-4 days for 21 days. Rats were killed on days 0, 13 and 21 post-induction and synovial membrane and inguinal lymph nodes were removed for mRNA extraction. Changes in cytokine mRNA expression were measured using reverse transcription-polymerase chain reaction (RT-PCR) and densitometry. T cells in joints were quantified by immunohistochemistry.

RESULTS

Asimadoline significantly decreased arthritis severity at day 13, with a concomitant decrease in synovial membrane expression of cytokines interleukin-17 and transforming growth factor-beta (TGF-beta) mRNA at day 13, and no change in T cell numbers in the joints of arthritic rats. By contrast, in the inguinal lymph nodes, expression of tumour necrosis factor was increased at day 13 and TGF-beta mRNA was increased throughout.

CONCLUSION

An altered balance, therefore, in the pro- and anti-inflammatory effects of TGF-beta by asimadoline might explain its striking anti-arthritic actions.

Involvement of nitric oxide in peripheral antinociception mediated by kappa- and delta-opioid receptors

Nitric oxide (NO) has been reported to enhance the analgesic effect of the peripherally administered mu-opioid receptor agonists, but the role of NO on the analgesic effect of the peripherally administered kappa and delta opioid receptor agonists is still unclear. We examined the effects of peripherally applied kappa- and delta-opioid receptor agonists and of their interactions with the NO-releasing drug, FK409, on the behavioral response to intraplantar injection of formalin in rats (the formalin test). The formalin injection results in a biphasic appearance of agitation behavior, consisting of the early (Phase 1; 0-9 min) and late (Phase 2; 10-60 min) responses. The active enantiomer of kappa-opioid receptor agonist, (-)U50,488H, dose-dependently suppressed the agitation response in both phases of the formalin test when applied peripherally. A peripheral delta-opioid receptor agonist, [D-Pen(2,5)] enkephalin (DPDPE), suppressed only Phase 2 of the formalin test. Local application of FK409 after the administration of a subthreshold dose of each opioid resulted in a dose-dependent decrease in the Phase 1, but not Phase 2, response to the formalin test for both agonists. Interactions between peripheral opioids and FK409 were reversed with both naloxone and carboxy-PTIO (NO scavenger). Systemic injections of either a kappa- or delta-agonist had no interaction with peripherally applied FK409. Peripheral FK409 alone did not have any significant effect on the formalin test. These data indicate that the antinociceptive effects of peripherally applied kappa- and delta-opioid agonists on the formalin test are potentiated by the local action of NO.

IMPLICATIONS

The analgesic effects of peripherally applied kappa- and delta-opioid receptor agonists during inflammation induced by formalin injection in the rat are, at least partly, mediated by the NO-cGMP pathway.

Effect of the peripherally selective kappa-opioid agonist, asimadoline, on adjuvant arthritis

1. Opioids, though widely used as analgesics, have not been seriously considered as therapy for rheumatoid arthritis. The present study evaluated the dose-effect and time-dependence relationships of a new peripherally selective kappa agonist, asimadoline, in rats with adjuvant arthritis. 2. The arthritis was assessed by a pooled severity index combining the comprehensive criteria of oedema, radiography and histological changes, in the hind limbs. Asimadoline was extremely effective in attenuating joint damage (by up to 80%) when administered parenterally (0.5 to 10 mg kg(-1) day(-1), i.p.) throughout the disease or during its early phase; treatment was less successful if confined to the latter stages. Ten fold higher doses were effective orally. 3. Equimolar doses of a peripherally-selective antagonist, naloxone methiodide, and the kappa-selective antagonist, MR2266, fully reversed the peripheral anti-arthritic effects of asimadoline (5 mg kg(-1) day(-1)), indicating that asimadoline acts through peripheral kappa-opioid receptors. However, an equivalent dose of MR2266 did not fully reverse the anti-arthritic effects of the highest dose of asimadoline (40 mg kg(-1) day(-1)), suggesting a loss of kappa-selectivity at this dose. 4. Asimadoline also exhibited analgesic effects (mechanical nociceptive thresholds) in arthritic but not non-arthritic rats, indicating that inflammation is necessary for asimadoline-induced analgesia. 5. These data confirm our previous findings that kappa-opioids possess anti-arthritic properties and that these effects are mediated via peripheral kappa-receptors. The present results are new in showing that the peripherally acting kappa-opioid agonist, asimadoline, is a potent anti-arthritic agent. Such novel drugs, essentially lacking central side effects, herald new treatments for rheumatoid arthritis.

Coexistence of enkephalin- and tyrosine hydroxylase-like immunoreactivities in nerve fibers of the temporomandibular joint capsule of the guinea pig

BACKGROUND

The innervation of joints has been suggested to play an important role for their normal function as well as for the pathogenesis of chronic arthritic conditions. It is therefore important to elucidate the functional anatomy of this innervation.

METHODS

The expression of methionine enkephalin-like immunoreactivity (ENK-LI) and tyrosine hydroxylase (TH)-LI as well as their possible colocalization were examined in the temporomandibular joint of the guinea pig:

RESULTS

Nerve fibers with ENK-LI were demonstrated in the synovium of the guinea pig temporomandibular joint capsule with the use of indirect immunofluorescence. The ENK+ fibers were found close to the surface of the synovial membrane, deeper in the synovium, and at the walls of blood vessels. Coexistence of ENK- and TH-LI was observed frequently in the synovial nerve fibers. After removal of the superior cervical ganglion (SCG), the ENK-containing nerve fibers were reduced substantially in number on the operated side or were completely absent if the cervical sympathetic trunk was also excised.

CONCLUSIONS

The findings indicate that the majority of fibers with ENK-LI derive from the SCG ENK may act as a neuromodulator on the catecholaminergic nerves and may also have an analgesic effect in the joint.

Different mechanisms mediate development and expression of tolerance and dependence for peripheral mu-opioid antinociception in rat

The mu-opioid [D-Ala2,N-Me-Phe4,Gly-ol5]-enkephalin (DAMGO) exerts a peripheral antinociceptive effect against prostaglandin E2 (PGE2)-induced mechanical hyperalgesia in the hindpaw of the rat. Tolerance and dependence develop to this effect. We have shown previously that tolerance and dependence can be dissociated and are mediated by different second messenger systems. In the present study, we evaluated whether the same or different second messenger systems mediate the development of this peripheral opioid tolerance or dependence compared with the expression of the loss of antinociceptive effect or rebound opioid antagonist hyperalgesia (i. e., expression of tolerance and dependence). DAMGO-induced tolerance was prevented by pretreatment with the nitric oxide synthase inhibitor NG-methyl-L-arginine (NMLA) but not by the protein kinase C (PKC) inhibitor chelerythrine, the adenylyl cyclase inhibitor 2',5'-dideoxyadenosine (ddA), or the calcium chelators 3,4,5-trimethoxybenzoic acid 8-(diethylamino)-octyl ester (TMB-8) and 2-[(2-bis-[carboxymethyl]amino-5-methylphenoxy)-methyl]-6-methoxy-8-bis [carboxymethyl]aminoquinoline (Quin-2). Once established, however, expression of DAMGO tolerance was acutely reversed by TMB-8 or Quin-2 but not by chelerythrine or NMLA. In contrast, naloxone-precipitated hyperalgesia in DAMGO-tolerant paws, a measure of dependence, was blocked by pretreatment with chelerythrine but not by NMLA, ddA, TMB-8, or Quin-2. Naloxone-precipitated hyperalgesia in DAMGO-tolerant paws was acutely reversed by chelerythrine, ddA, TMB-8, or Quin-2 but not by NMLA. Taken together, these results provide the first evidence that different mechanisms mediate the development and expression of both tolerance and dependence to the peripheral antinociceptive effect of DAMGO. However, although the development of tolerance and dependence are entirely separable, the expression of tolerance and dependence shares common calcium-dependent mechanisms.

Dissociation of tolerance and dependence for opioid peripheral antinociception in rats

Repeated peripheral administration of the micro-opioid agonist [D-Ala2,N-Me-Phe4,gly5-ol] enkephalin (DAMGO) produces acute tolerance and dependence on its peripheral antinociceptive effect against prostaglandin E2 (PGE2)-induced mechanical hyperalgesia. In this study we evaluated the roles of protein kinase C (PKC) and nitric oxide (NO) in the development of this tolerance and dependence. Repeated administration of PKC inhibitors chelerythrine and 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride with DAMGO did not alter the tolerance to DAMGO; however, dependence (defined as naloxone-induced withdrawal hyperalgesia) was blocked. Repeated administration of N-(n-heptyl)-5-chloro-1-naphthalenesulfonamide, a PKC activator, which alone did not produce tolerance, mimicked the dependence produced by DAMGO. Repeated administration of the NO synthase inhibitor NG-methyl-L-arginine with DAMGO blocked the development of tolerance to DAMGO but had no effect on the development of dependence. Repeated administration of L-arginine, a NO precursor, mimicked tolerance produced by repeated administration of DAMGO (i.e. , the antinociceptive effect of DAMGO was lost); however, L-arginine did not mimic dependence. These findings suggest that the development of acute tolerance and dependence on the peripheral antinociceptive effects of DAMGO have different, dissociable mechanisms. Specifically, PKC is involved in development of mu-opioid dependence, whereas the NO signaling system is involved in the development of mu-opioid tolerance.

The site of anti-arthritic action of the kappa-opioid, U-50, 488H, in adjuvant arthritis: importance of local administration

1. Currently available pharmacological therapies treat arthritis inadequately. We have previously found that the kappa (kappa)-opioid, U-50,488H (trans-(+/-)- 3,4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl) cyclohexyl]- benzene-acetamide methane sulphonate), possesses anti-arthritic effects. In light of the finding that opioid receptors in the periphery are upregulated during inflammation, kappa-opioids may represent a novel therapy for arthritis. The primary aim and unique feature of the present study is to investigate whether opioids exert their anti-arthritic effects in the periphery. Thus, the dose-effect relationship of a kappa-opioid agonist, U-50,488H was compared after both local and distant administration. Further, we tested whether the anti-arthritic effects of this drug are stereospecific and receptor-mediated by use of opioid antagonists. 2. Using an adjuvant model of arthritis in male Lewis rats, arthritis was judged by oedema, radiography and histological changes in the contralateral ankle of the hind limb. Treatment with (+/-)-U-50,488H for 3 days during disease onset and 3 days during established disease significantly attenuated arthritis, but the effects of (+/-)-U-50,488H on radiology and histology varied according to treatment time. Administration of (+/-)-U-50,488H during disease onset had a more marked effect on radiography, suggesting that treatment with that drug should be started early to prevent progressive joint destruction. Further, it was found that (+/-)-U-50,488H, administered for 3 days during the disease onset, either by direct subcutaneous injection into the inflamed paw or at a more distant site into the back of the neck, dose-dependently attenuated arthritic damage as measured by an index which pooled all three variables. More importantly however, (+/-)-U-50,488H was approximately fourfold more potent as an 'anti-arthritic' agent after local compared to distant subcutaneous injection (ED50; local vs distant: 5.8 +/- 1.6 vs 19.5 +/- 0.8 mg kg-1). 3. Equivalent doses of the (-)-enantiomer (20 mg kg-1day-1) and the racemate (+/-) of U-50,488H (40 mg kg-1day-1), elicited a similar attenuation of arthritic parameters while the (+/-)-enantiomer exacerbated arthritis, suggesting that the anti-arthritic activity lies solely with the (-)-enantiomer. 4. Both the peripherally selective antagonist, naloxone methiodide, and the kappa-selective antagonist, MR2266 ((-)-5,9 alpha-diethyl-2-(3-furylmethyl)-2'-hydroxy-6,7-benzomorphan), were able to reverse fully the peripheral anti-arthritic effects of U-50,488H, indicating that it exerts its effects through peripheral kappa-opioid receptors. 5. Taken together, these results not only confirm our previous findings that demonstrate anti-arthritic effects of U-50,488H but they indicate that the opioid attenuation of experimental arthritis is mediated via peripheral kappa-receptors in the arthritic joint. Peripherally acting kappa-opioid agonists should lead to new therapies for arthritis.

Continuous brachial plexus neural blockade in a child with intractable cancer pain

A 6-year-old boy presented with a large, rapidly growing osteosarcoma of the upper humerus and severe neuropathic arm pain. Despite large doses of morphine (100 micrograms/kg/hr), which resulted in intermittent somnolence and respiratory depression, his pain was poorly controlled. An interscalene brachial plexus catheter was inserted, and bupivacaine was injected on ten occasions over 5 days, with markedly improved analgesia and decreased opioid requirement. Cancer pain in children can be controlled by opioids in 95% of cases; however, circumstances such as intractable neuropathic pain may require specific regional anesthetic techniques.

The efficacy of locally applied morphine in post-operative pain after bilateral third molar surgery

1. Recent evidence has hinted at a peripheral site of action of morphine analgesic efficacy. 2. Previous studies by the same authors have developed a model for testing local analgesic efficacy by placing drugs into tooth sockets after third molar surgery. 3. The present studies test the hypothesis of local morphine activity at two dosage concentrations, 100 ng ml-1 and 100 micrograms ml-1 after third molar surgery. 4. No significant analgesic efficacy was found at either dose when compared with placebo.

Opioids suppress spontaneous activity of polymodal nociceptors in rat paw skin induced by ultraviolet irradiation

Changes in chemical sensitivity of peripheral nociceptors following injury or inflammation have been studied in in vitro preparation of the saphenous nerve-hind paw skin from adult rats. Heat hyperalgesia in the hind paw was induced by a prior ultraviolet irradiation and the skin from these animals was investigated five days later. Polymodal nociceptors were quiescent in normal skin but were spontaneously active in the majority of fibres after ultraviolet exposure. Capsaicin-induced activation of fine fibres was enhanced after ultraviolet pretreatment. Direct administration of morphine, DAGOL (mu-receptor agonist) and U-69593 (kappa-receptor agonist), but not DPDPE (delta-receptor agonist) to the receptive field produced a concentration-related and naloxone-reversible suppression of spontaneous firing in polymodal nociceptors of ultraviolet-treated skin. Morphine did not reduce the activity of fibres in normal skin when these were driven by KCl depolarization. These data show that polymodal nociceptors change their activity and sensitivity to exogenous chemicals following the induction of peripheral hyperalgesia by ultraviolet irradiation. Specifically, evidence is provided for the expression of opioid sensitivity and inhibition of polymodal nociceptor activity through mu- and kappa-opioid receptors. These observations may account for peripheral antinociceptive actions of opioids during specific states of peripheral hyperalgesia.

Bradykinin and inflammatory pain

There is compelling evidence linking bradykinin (BK) with the pathophysiological processes that accompany tissue damage and inflammation, especially the production of pain and hyperalgesia. Several mechanisms have been proposed to account for hyperalgesia including the direct activation of nociceptors as well as sensitization of nociceptors through the production of prostanoids or the release of other mediators. In keeping with this, antagonists of the BK B2 receptor are efficacious analgesic and anti-inflammatory agents in acute inflammatory pain. More recently it has been suggested that when inflammation is prolonged, BK B1 receptors, which are not expressed in healthy tissues to a significant degree, also play an important role in the maintenance of hyperalgesia. This may be one of a number of adaptive mechanisms that occur peripherally and centrally following the prolonged activation of nociceptors during inflammation or injury.