Synergism of polysaccharide polymers in antihistamine eye drops: Influence on physicochemical properties and in vivo efficacy.

The incorporation of polymers into drug delivery vehicles has been shown to be a useful approach to prolong the residence time of drugs in the precorneal tear film and to improve penetration into biological membranes. The main objective of this research was to formulate novel viscous eye drops with ketotifen as the active ingredient, containing the polysaccharides: chitosan (MCH), hydroxypropyl guar gum (HPG) and hyaluronic acid (SH) alone and in combination as functional polymers. DSC and FT-IR techniques showed the compatibility between ketotifen and polymers. Physicochemical and rheological analysis at ambient and simulated physiological conditions, as well as the evaluation of mucoadhesive properties showed that vehicles containing combinations of polymers have suitable physicochemical and functional properties with demonstrated synergism between combined polymers (MCH and HPG i.e. SH and HPG). The drug permeability was successfully estimated in vitro using HCE-T cell-based models. MTT cytotoxicity assay demonstrates that the tested formulations were non-toxic and well tolerated. In vivo preclinical study on mice revealed that both vehicles containing mixed polymers enhanced and prolonged the antipruritic/analgesic-like effect of ophthalmic ketotifen. Based on these results, both combinations of polysaccharide polymers, especially SH-HPG, could be considered as potential new carriers for ketotifen for ophthalmic use.

The antidepressant drugs vortioxetine and duloxetine differentially and sex-dependently affect animal well-being, cognitive performance, cardiac redox status and histology in a model of osteoarthritis.

Osteoarthritis represents a leading cause of disability with limited treatment options. Furthermore, it is frequently accompanied by cardiovascular and cognitive disorders, which can be exacerbated by osteoarthritis or drugs used for its treatment. Here, we examined the behavioral and cardiac effects of the novel antidepressant vortioxetine in an osteoarthritis model, and compared them to duloxetine (an established osteoarthritis treatment). Osteoarthritis was induced in male and female rats with an intraarticular sodium-monoiodoacetate injection. Antidepressants were orally administered for 28 days following induction. During this period the acetone, burrowing and novel-object-recognition tests (NORT) were used to assess the effects of antidepressants on pain hypersensitivity (cold allodynia), animal well-being and cognitive performance, respectively. Following behavioral experiments, heart muscles were collected for assessment of redox status/histology. Antidepressant treatment dose-dependently reduced cold allodynia in rats with osteoarthritis. Duloxetine (but not vortioxetine) depressed burrowing behavior in osteoarthritic rats in a dose-related manner. Osteoarthritis induction reduced cognitive performance in NORT, which was dose-dependently alleviated by vortioxetine (duloxetine improved performance only in female rats). Furthermore, duloxetine (but not vortioxetine) increased oxidative stress parameters in the heart muscles of female (but not male) rats and induced histological changes in cardiomyocytes indicative of oxidative damage. Vortioxetine displayed comparable efficacy to duloxetine in reducing pain hypersensitivity. Furthermore, vortioxetine (unlike duloxetine) dose-dependently improved cognitive performance and had no adverse effect on burrowing behavior (animal surrogate of well-being) and cardiac redox status/histology. Our results indicate that vortioxetine could be a potential osteoarthritis treatment (with better characteristics compared to duloxetine).

Synergism between metformin and analgesics/vitamin B12 in a model of painful diabetic neuropathy.

Metformin (a widely used antidiabetic drug) has demonstrated efficacy in models of painful diabetic neuropathy (PDN), as well as certain clinical efficacy in relieving/preventing PDN. This study aimed to determine the type of interaction between metformin and duloxetine/oxycodone/eslicarbazepine acetate [ESL]/vitamin B12 in relieving diabetic pain hypersensitivity. Antihyperalgesic efficacy was determined using a Von Frey apparatus in mice with streptozotocin-induced PDN. We examined metformin's efficacy following oral (acute and prolonged 7-day treatment) and local (spinal and peripheral) application. The examined analgesics were administered in a single oral dose, whereas vitamin B12 was intraperitoneally administered for 7 days. In combination experiments, metformin (prolonged treatment) and analgesics/vitamin B12 were co-administered in fixed-dose fractions of their ED50 values and the type of interaction was determined using isobolographic analysis. Metformin produced dose-dependent antihyperalgesic effects in diabetic mice after oral (acute and prolonged 7-day treatment) and local spinal/peripheral application. Two-drug metformin combinations with analgesics/vitamin B12 also dose-dependently reduced mechanical hyperalgesia. The isobolographic analysis revealed that metformin synergises with analgesics/vitamin B12, with a 6-7 fold dose reduction of both drugs in the examined combinations. In conclusion, metformin reduces hyperalgesia in diabetic animals, most likely by acting at the spinal and peripheral level. Additionally, it synergizes with duloxetine/oxycodone/ESL/vitamin B12 in reducing hyperalgesia. Metformin co-treatment may increase analgesic efficacy and enable the use of lower (and potentially safer) analgesic doses for treating PDN. Combined metformin-vitamin B12 use may provide more effective pain relief and mitigate metformin-induced vitamin B12 deficiency.

Vortioxetine as an analgesic in preclinical inflammatory pain models: Mechanism of action.

Vortioxetine is a novel atypical antidepressant with multimodal activity that has recently demonstrated efficacy against neuropathic pain. There is no published data about its analgesic properties in models characterized by peripheral inflammation and consequent pain pathway sensitization, nor data on its mechanism of antinociceptive action. This study aimed to investigate vortioxetine's antinociceptive/antihyperalgesic effects in trigeminal, visceral, and somatic inflammatory pain models, and provide evidence on its mechanism of action in the modulation of trigeminal nociception. Vortioxetine's effects on the nociceptive behavior in orofacial formalin test (OFT) and acetic acid-writhing test in mice and on mechanical hyperalgesia in carrageenan-induced paw inflammation in rats were examined following peroral single administration. The involvement of serotonergic/adrenergic/cholinergic/cannabinoid/adenosine receptors was evaluated in OFT by intraperitoneally treating mice with an appropriate antagonist immediately after vortioxetine application. We used antagonists of 5-HT1B/1D serotonergic (GR 127935), α1 -adrenergic (prazosin), α2 -adrenergic (yohimbine), ß1 -adrenergic (metoprolol), muscarinic (atropine), α7 nicotinic (methyllycaconitine), CB1 /CB2 cannabinoid (AM251 and AM630), and adenosine A1 (DPCPX) receptors. Vortioxetine dose-dependently reduced pain behavior in OFT and acetic acid writhing test, as well as inflammatory hyperalgesia in paw pressure test. All examined antagonists except prazosin dose-dependently inhibited vortioxetine's antinociceptive effects. In conclusion, vortioxetine exerted analgesic efficacy in trigeminal, visceral, and somatic inflammatory pain. The effect is at least in part mediated by 5-HT1B/1D serotonergic, α2 /ß1 -adrenergic, muscarinic and nicotinic cholinergic, CB1 /CB2 cannabinoid, and adenosine A1 receptors. These findings contribute to better understanding of the analgesic effect of vortioxetine and suggest its potential usefulness for inflammatory pain treatment.

Percutaneous delivery of levetiracetam as an alternative to topical nonsteroidal anti-inflammatory drugs: formulation development, in vitro and in vivo characterization.

The study focused on formulation of carmellose sodium hydrogels and nonionic microemulsions with 5% and 10% of levetiracetam and investigation of drug concentration influence on their physicochemical characteristics and in-use stability as well as influence of drug concentration and carrier type on in vitro drug release and in vivo antihyperalgesic/antiedematous activity in a rat model of localized (intraplantar) carrageenan-induced inflammation. Hydrogels were pseudoplastic semisolids with thixotropy and pH 7.37-7.58. Microemulsions were low viscous Newtonian nanodispersions of oil droplets (13.11-15.11 nm) in water, with pH 4.01-4.64. Physical stability of the investigated systems was preserved over the 3-month storage under ambient conditions. Levetiracetam release followed zero order and Korsmeyer-Peppas models (R2 ≥ 0.99) reflecting the combined effects of drug concentration and carrier viscosity. All levetiracetam-loaded formulations produced significant reduction of hyperalgesia and paw swelling induced by carrageenan (p < 0.001). Their efficacy in exerting antihyperalgesic activity was significantly higher than that observed with the reference 5% ibuprofen hydrogel preparation (up to 6 h) (p < 0.001), while antiedematous activity was comparable with the reference product. No erythema and visible blood vessels were observed in a rat ear test. The study demonstrated percutaneous delivery of levetiracetam as useful and safe therapeutic option for localized inflammatory pain with potential to overcome the insufficient efficacy of topically applied nonsteroidal anti-inflammatory drugs in the form of a hydrogel. Graphical abstract.

Investigation of antihyperalgesic and antiedematous activities of three Hieracium species.

Present study investigated triterpene profile, antihyperalgesic and antiedematous activities of Hieracium scheppigianum flowering aerial parts dichloromethane extract (SCH), and antihyperalgesic and antiedematous activities of previously chemically characterised polyphenol-rich H. glabratum and H. calophyllum flowering aerial parts methanol extracts (GLA and CAL, respectively). α- and ß-Amyrin and their acetates, and lupeol acetate were identified and quantified in SCH by GC-FID and GC-MS. In carrageenan-induced localised inflammation model in rats, SCH and GLA (50-200 mg/kg, p.o.) produced significant and dose-dependent antihyperalgesic effect of 26.9%-56.2% (ED50=163.0 ± 26.5 mg/kg) and 25.3%-51.6% (ED50=211.6 ± 70.6 mg/kg), respectively, and CAL (200 mg/kg, p.o.) exhibited effect of 38.1%. Extracts did not significantly reduce paw edema. SCH and GLA, which demonstrated higher (over 50%) antihyperalgesic efficacy, were tested in a rotarod test (200 mg/kg, p.o.) and no alteration of motor coordination was observed. Also, acute administration of SCH and GLA in mice (2000 mg/kg, p.o.) caused neither mortality nor toxicity.

Vortioxetine reduces pain hypersensitivity and associated depression-like behavior in mice with oxaliplatin-induced neuropathy.

Chronic pain and depression commonly occur together so dual-acting agents might be particularly useful. The population of patients with chemotherapy-induced neuropathy is increasing in parallel with the increase of population of cancer survivors and there is a compelling need for satisfactory treatment of symptoms of neuropathy and concomitant depression. We examined the effects of vortioxetine, a novel antidepressant with unique mechanism of action, on pain hypersensitivity and depression-like behavior in oxaliplatin-induced neuropathy model in mice (OIPN). Vortioxetine (1-10 mg/kg, p.o.) significantly and dose-dependently reduced mechanical allodynia in von Frey test and cold allodynia in acetone test in OIPN mice, in both repeated prophylactic and acute therapeutic treatment regimens. It also reduced depression-like behavior in the forced swimming test in OIPN mice, in both treatment paradigms. Its antiallodynic and antidepressive-like effects were comparable to those exerted by duloxetine (1-15 mg/kg, p.o.). The antiallodynic and antidepressive-like effects of repeatedly administered vortioxetine might be related to the increased content of 5-hydroxytryptamine (5-HT) and noradrenaline (NA), detected in the brainstem of treated OIPN mice. These results indicate that vortioxetine could be potentially useful in prevention and treatment of chemotherapy-induced neuropathy, for the relief of pain and concomitant depressive symptoms. It should be further tested to this regard in clinical settings.

Eslicarbazepine acetate interacts in a beneficial manner with standard and alternative analgesics to reduce trigeminal nociception.

RATIONALE: Acute pain states in the trigeminal region (headaches, dental pain) fall into the most prevalent painful conditions. Standard analgesics (paracetamol/NSAIDs) represent the cornerstone of their treatment, whereas triptans are primarily used in migraine attacks. Due to limited efficacy and/or side effects of current treatments, identifying favorable combinations of available drugs is justified. OBJECTIVES: Eslicarbazepine acetate (ESL) is a novel antiepileptic drug whose effectiveness against trigeminal pain was recently demonstrated. Here, we examined the interactions between ESL and several standard/alternative analgesics (paracetamol, propyphenazone, naproxen, zolmitriptan, and metoclopramide) in a model of trigeminal pain. METHODS: The antinociceptive effects of orally administered ESL, standard/alternative analgesics, and two-drug ESL-analgesic combinations were examined in the orofacial formalin test in mice. The type of interaction between drugs was determined by isobolographic analysis. RESULTS: ESL, analgesics, and two-drug ESL-analgesic combinations significantly and dose-dependently reduced nociceptive behaviour in the second, inflammatory phase of the test. Isobolographic analysis revealed that ESL interacted additively with paracetamol/propyphenazone/zolmitriptan and synergistically with naproxen/metoclopramide (with about a 4-fold and 3-fold reduction of doses in the ESL-naproxen and ESL-metoclopramide combination, respectively). CONCLUSIONS: ESL interacted in a beneficial manner with several analgesics that are used for trigeminal pain treatment, producing synergistic interactions with naproxen/metoclopramide and additive interactions with paracetamol/propyphenazone/zolmitriptan. Our results suggest that combining ESL with analgesics could theoretically enable the use of lower doses of individual drugs for achieving pain relief.

Eslicarbazepine acetate reduces trigeminal nociception: Possible role of adrenergic, cholinergic and opioid receptors.

AIMS: Eslicarbazepine acetate (ESL) is a novel dibenzazepine antiepileptic, that has demonstrated efficacy against trigeminal pain, both in preclinical and clinical studies. However, ESL's mechanism of antinociceptive action remains uncertain. Here, we aimed to examine the contribution of adrenergic/cholinergic/opioid receptors to the antinociceptive effects of ESL in a trigeminal pain model, as these neurotransmitter systems are known to have an important role in the modulation of trigeminal nociception. MAIN METHODS: ESL's effects in the orofacial formalin test were examined following peroral and local peripheral administration (subcutaneous, into the perinasal region). The involvement of adrenergic/cholinergic/opioid receptors was evaluated by intraperitoneally pretreating mice with an appropriate antagonist immediately after peroral application of ESL. We used antagonists of α1­adrenergic (prazosin), α2­adrenergic (yohimbine), ß­adrenergic (non-selective, propranolol and ß1-selective, metoprolol), muscarinic (atropine), nicotinic (mecamylamine) and opioid receptors (naloxone). Additionally, the role of peripheral α2­adrenergic, ß1­adrenergic, muscarinic and opioid receptors was evaluated by co-injecting ESL with an antagonist into the perinasal area. KEY FINDINGS: ESL dose-dependently reduced formalin-induced nociceptive behavior after systemic and local peripheral application. Systemic administration of yohimbine, propranolol, metoprolol, atropine and naloxone inhibited ESL's antinociceptive effects in a dose-related manner. Prazosin and mecamylamine did not produce inhibitory effects. Local application of yohimbine, atropine and naloxone into the perinasal area also produced a dose-related inhibition of ESL's efficacy, whereas metoprolol failed to inhibit the local antinociceptive effects of ESL. SIGNIFICANCE: This study suggests that ESL's efficacy against trigeminal nociception is mediated by peripheral (and possibly central) α2­adrenergic, muscarinic and opioid receptors, as well as central ß1­adrenergic receptors.

Antiepileptic drugs as analgesics/adjuvants in inflammatory pain: current preclinical evidence.

Inflammatory pain is the most common type of pain that is treated clinically. The use of currently available treatments (classic analgesics - NSAIDs, paracetamol and opioids) is limited by insufficient efficacy and/or side effects/tolerance development. Antiepileptic drugs (AEDs) are widely used in neuropathic pain treatment, but there is substantial preclinical evidence on their efficacy against inflammatory pain, too. In this review we focus on gabapentinoids (gabapentin and pregabalin) and dibenzazepine AEDs (carbamazepine, oxcarbazepine, and recently introduced eslicarbazepine acetate) and their potential for relieving inflammatory pain. In models of somatic, visceral and trigeminal inflammatory pain, that have a translational value for inflammatory conditions in locomotor system, viscera and head/face, AEDs have demonstrated analgesic activity. This activity was mostly consistent, dependent on the dose and largely independent on the site of inflammation and method of its induction, nociceptive stimuli, species, specific drug used, its route of administration and dosing schedule. AEDs exerted comparable efficacy with classic analgesics. Effective doses of AEDs are lower than toxic doses in animals and, when expressed as equivalent human doses, they are largely overlapping with AEDs doses already used in humans for treating epilepsy/neuropathic pain. The main mechanism of antinociceptive/antihyperalgesic action of gabapentinoids in inflammatory pain models seems to be α2δ-dependent suppression of voltage-gated calcium channels in primary sensory neurons that leads to reduced release of neurotransmitters in the spinal/medullar dorsal horn. The suppression of NMDA receptors via co-agonist binding site primarily at spinal sites, activation of various types of K+ channels at spinal and peripheral sites, and activation of noradrenergic and serotonergic descending pain modulatory pathways may also contribute. Inhibition of voltage-gated sodium channels along the pain pathway is probably the main mechanism of antinociceptive/antihyperalgesic effects of dibenzazepines. The recruitment of peripheral adrenergic and purinergic mechanisms and central GABAergic mechanisms may also contribute. When co-administered with classic/other alternative analgesics, AEDs exerted synergistic/additive interactions. Reviewed data could serve as a basis for clinical studies on the efficacy/safety of AEDs as analgesics/adjuvants in patients with inflammatory pain, and contribute to the improvement of the treatment of various inflammatory pain states.

Exopolysaccharide Produced by Probiotic Strain Lactobacillus paraplantarum BGCG11 Reduces Inflammatory Hyperalgesia in Rats.

The aim of this study was to test the potential of high molecular weight exopolysaccharide (EPS) produced by the putative probiotic strain Lactobacillus paraplantarum BGCG11 (EPS CG11) to alleviate inflammatory pain in Wistar rats. The EPS CG11 was isolated from bacterial surface and was subjected to Fourier-transform infrared spectroscopy (FTIR) and thermal analysis. FTIR spectra confirmed the polysaccharide structure of isolated sample, while the thermal methods revealed good thermal properties of the polymer. The antihyperalgesic and antiedematous effects of the EPS CG11 were examined in the rat model of inflammation induced by carrageenan injection in hind paw. The results showed that the intraperitoneal administration of EPS CG11 produced a significant decrease in pain sensations (mechanical hyperalgesia) and a paw swelling in a dose-dependent manner as it was measured using Von Frey anesthesiometer and plethysmometer, respectively. These effects were followed by a decreased expression of IL-1ß and iNOS mRNAs in rat's paw tissue suggesting that the antihyperalgesic and antiedematous effects of the EPS CG11 are related to the suppression of inflammatory response. Additionally, we demonstrated that EPS CG11 exhibits immunosuppressive properties in the peritonitis model induced by carrageenan. Expression levels of pro-inflammatory mediators IL-1ß, TNF-α and iNOS were decreased, together with the enhanced secretion of anti-inflammatory IL-10 and IL-6 cytokines, while neutrophil infiltration was not changed. To the best of our knowledge, this is the first study which reports an antihyperalgesic effect as the novel property of bacterial EPSs. Given the high demands of pharmaceutical industry for the replacement of commonly used analgesics due to numerous side effects, this study describes a promising natural compound for the future pharmacological testing in the area.

Levetiracetam synergizes with gabapentin, pregabalin, duloxetine and selected antioxidants in a mouse diabetic painful neuropathy model.

RATIONALE: We have reported that levetiracetam, a novel anticonvulsant with analgesic properties, synergizes with ibuprofen/aspirin/paracetamol in a model of diabetic painful neuropathy (DPN). Most guidelines recommend gabapentin, pregabalin, and duloxetine as first- or second-line agents for DPN. OBJECTIVE: We examined the effects of combination treatment of first-/second-line analgesics with levetiracetam in a model of DPN. Additionally, the levetiracetam's combinations with antioxidants, low dose of aspirin, coenzyme Q10, or α-lipoic acid were evaluated. METHODS: Diabetes was induced in C57BL/6 mice with a single high dose of streptozotocin. The antinociceptive effects of orally administered levetiracetam, gabapentin, pregabalin, duloxetine (acute treatment) and aspirin, coenzyme Q10, and α-lipoic acid (preventive 7-day treatment), as well as combinations of levetiracetam with individual drugs were examined in the tail-flick test. In combination experiments, the drugs were coadministered in fixed-dose fractions of single-drug ED50; the type of interaction was determined by isobolographic analysis. RESULTS: About 60-, 32-, 30-, 26-, 18-, and 6-fold reductions of doses of both drugs in levetiracetam combinations with pregabalin, gabapentin, coenzyme Q10, aspirin, duloxetine, and α-lipoic acid, respectively, were detected. CONCLUSIONS: Combinations of levetiracetam with gabapentin/pregabalin/duloxetine that target different mechanisms/sites of action involved in DPN, as well as combinations of levetiracetam and low-dose aspirin/coenzyme Q10/α-lipoic acid that target underlying causes of DPN, produce marked synergistic interactions in reducing nociception in diabetic mice. This suggests that these combination treatments might be of great benefit for diabetic patients and should be explored further in clinical trials.

Metformin Synergizes With Conventional and Adjuvant Analgesic Drugs to Reduce Inflammatory Hyperalgesia in Rats.

BACKGROUND: Metformin is a widely used and safe antidiabetic drug that has recently been shown to possess analgesic properties in models of inflammatory pain. Because various arthritic inflammatory disorders are highly prevalent in diabetic patients, we aimed to examine the type of interaction between metformin and several conventional and adjuvant analgesic drugs (ibuprofen, aspirin, tramadol, and pregabalin) in a rat model of somatic inflammatory hyperalgesia. METHODS: Inflammation of the rat hind paw was induced by an intraplantar injection of carrageenan (0.1 mL, 1%). The antihyperalgesic effects of metformin (intraperitoneally), analgesics (orally or intraperitoneally), and 2-drug metformin-analgesic combinations were assessed with an electronic Von Frey anesthesiometer, by measuring the change in paw withdrawal thresholds induced by carrageenan (n = 6 rats in drug/drug combination-treated groups). First, we determined the doses of individual drugs needed to produce an antihyperalgesic effect of 50% (ED50 values). In combination experiments, drugs were coadministered in fixed-dose fractions (1/16, 1/8, 1/4, and 1/2) of their individual ED50 values and the type of interaction between components was determined by isobolographic analysis. RESULTS: Metformin (50-200 mg/kg) significantly and dose-dependently reduced carrageenan-induced hyperalgesia with a maximal antihyperalgesic effect (mean ± SEM) of 62 ± 6% (all P ≤ .024). Ibuprofen (25-150 mg/kg), aspirin (100-400 mg/kg), tramadol (0.5-5 mg/kg), and pregabalin (2.5-20 mg/kg) also produced significant and dose-dependent antihyperalgesic effects (all P ≤ .042) of similar magnitude to metformin (the maximal antihyperalgesic effects were 73 ± 4% for ibuprofen, 62 ± 4.2% for aspirin, 69 ± 5.9% for tramadol, and 56 ± 3.9% for pregabalin). In combination experiments, administration of 2-drug metformin-analgesic combinations led to a significant and dose-dependent reduction of carrageenan-induced hyperalgesia (all P ≤ .027). The isobolographic analysis revealed that metformin interacted synergistically with the examined analgesics (experimental ED50 values of 2-drug combinations were significantly lower than theoretical additive ED50 values; all P < .05) and that there was a similar, approximately 5-fold, reduction of doses of both drugs in all tested combinations. CONCLUSIONS: Our results suggest that in patients who are already receiving metformin therapy, lower doses of ibuprofen/aspirin/tramadol/pregabalin might be sufficient for achieving satisfactory pain relief. Metformin-aspirin combination might be particularly useful because it may achieve multiple therapeutic goals (glucoregulation, pain relief, and cardioprotection).

Antihyperalgesic activity of Filipendula ulmaria (L.) Maxim. and Filipendula vulgaris Moench in a rat model of inflammation.

ETHNOPHARMACOLOGICAL RELEVANCE: Meadowsweet (Filipendula ulmaria (L.) Maxim.), and dropwort (Filipendula vulgaris Moench) flowers are traditionally used to treat various ailments, including inflammatory conditions. The aim of the present study was to validate the aforementioned ethnomedicinal claim by assessing antihyperalgesic and antiedematous activities and toxicity of orally administered lyophilized flower infusions (LFIs) of F. ulmaria and F. vulgaris in experimental animals. MATERIALS AND METHODS: The phytochemical analysis of LFIs was performed by HPLC-DAD. Antihyperalgesic and antiedematous activities were estimated in a rat model of inflammation induced by intraplantar injection of carrageenan using Von Frey anesthesiometer and plethysmometer, respectively. Moreover, acute oral toxicity of LFIs in mice was evaluated by observing changes in animal behavior and mortality for a period of 14 days following the treatment. RESULTS: HPLC-DAD analysis revealed the presence of phenolic acids and flavonoids in LFIs, among which spiraeoside was identified as the principal component (56.27±1.03 and 55.67±1.82mg/g of LFI in F. ulmaria and F. vulgaris, respectively). The LFIs of F. ulmaria and F. vulgaris (100-300mg/kg; p.o.) produced significant and dose-dependent antihyperalgesic effects: ED50±SEM values were 164.8±15.4mg/kg (110.3-246.3mg/kg) and 172.2±6.2mg/kg (147.4-201.3mg/kg) for F. ulmaria and F. vulgaris, respectively. On the other hand, LFIs of both species (100-300mg/kg; p.o.) did not significantly reduce edema. Good safety profiles were evidenced in the toxicological study. The median lethal dose (LD50) of the tested extracts is likely to be greater than 2000mg/kg. CONCLUSION: The results of the present study support the use of F. ulmaria and F. vulgaris flowers in folk medicine for relieving pain in diseases with an inflammatory component.

The Efficacy of Eslicarbazepine Acetate in Models of Trigeminal, Neuropathic, and Visceral Pain: The Involvement of 5-HT1B/1D Serotonergic and CB1/CB2 Cannabinoid Receptors.

BACKGROUND: Many clinical pain states that are difficult to treat share a common feature of sensitization of nociceptive pathways. Drugs that could normalize hyperexcitable neural activity (e.g., antiepileptic drugs) may be useful in relieving these pain states. Eslicarbazepine acetate (ESL) is a novel antiepileptic drug derived from carbamazepine/oxcarbazepine with a more favorable metabolic profile and potentially better tolerability. We examined the efficacy of ESL in models of inflammatory and neuropathic pain and the potential mechanism involved in its action. METHODS: The antinociceptive effects of ESL were assessed in mice models of trigeminal (orofacial formalin test), neuropathic (streptozotocin-induced diabetic neuropathy model), and visceral pain (writhing test). The influence of 5-HT1B/1D serotonin receptor (GR 127935) and CB1 (AM251) and CB2 cannabinoid receptor (AM630) antagonists on the antinociceptive effect of ESL was tested in the model of trigeminal pain. RESULTS: ESL exhibited significant and dose-dependent antinociceptive effects in the second phase of the orofacial formalin test (P ≤ 0.011), in the tail-flick test in diabetic mice (P ≤ 0.013), and in the writhing test (P ≤ 0.003). GR 127935 (P ≤ 0.038) and AM251 and AM630 (P ≤ 0.013 for both antagonists) significantly inhibited the antinociceptive effect of ESL in a dose-related manner. CONCLUSIONS: ESL exhibited efficacy in models of trigeminal, neuropathic, and visceral pain. In the trigeminal pain model, the antinociceptive effect of ESL is, at least in part, mediated by 5-HT1B/1D serotonin and CB1/CB2 cannabinoid receptors. This study indicates that ESL could be useful in the clinical treatment of inflammatory and neuropathic pain.

Levetiracetam synergises with common analgesics in producing antinociception in a mouse model of painful diabetic neuropathy.

Painful diabetic neuropathy is difficult to treat. Single analgesics often have insufficient efficacy and poor tolerability. Combination therapy may therefore be of particular benefit, because it might provide optimal analgesia with fewer adverse effects. This study aimed to examine the type of interaction between levetiracetam, a novel anticonvulsant with analgesic properties, and commonly used analgesics (ibuprofen, aspirin and paracetamol) in a mouse model of painful diabetic neuropathy. Diabetes was induced in C57BL/6 mice with a single high dose of streptozotocin, applied intraperitoneally (150 mg/kg). Thermal (tail-flick test) and mechanical (electronic von Frey test) nociceptive thresholds were measured before and three weeks after diabetes induction. The antinociceptive effects of orally administered levetiracetam, analgesics, and their combinations were examined in diabetic mice that developed thermal/mechanical hypersensitivity. In combination experiments, the drugs were co-administered in fixed-dose fractions of single drug ED50 and the type of interaction was determined by isobolographic analysis. Levetiracetam (10-100 mg/kg), ibuprofen (2-50 mg/kg), aspirin (5-75 mg/kg), paracetamol (5-100 mg/kg), and levetiracetam-analgesic combinations produced significant, dose-dependent antinociceptive effects in diabetic mice in both tests. In the tail-flick test, isobolographic analysis revealed 15-, and 19-fold reduction of doses of both drugs in the combination of levetiracetam with aspirin/ibuprofen, and paracetamol, respectively. In the von Frey test, approximately 7- and 9-fold reduction of doses of both drugs was detected in levetiracetam-ibuprofen and levetiracetam-aspirin/levetiracetam-paracetamol combinations, respectively. These results show synergism between levetiracetam and ibuprofen/aspirin/paracetamol in a model of painful diabetic neuropathy and might provide a useful approach to the treatment of patients suffering from painful diabetic neuropathy.

The effects of levetiracetam, sumatriptan, and caffeine in a rat model of trigeminal pain: interactions in 2-component combinations.

BACKGROUND: Levetiracetam is an antiepileptic drug with analgesic efficacy shown in pain models and small clinical trials. Sumatriptan is used in acute migraine treatment. Caffeine is widely consumed in some beverages/foods and is also an adjuvant in analgesic formulations. We examined the effects of systemic levetiracetam, sumatriptan, and caffeine and their interactions in 2-component combinations in the rat orofacial formalin test, a model of trigeminal pain. METHODS: Rats received a subcutaneous injection of formalin solution into the perinasal area, and the total time spent in nociceptive behavior (face rubbing) was quantified. The antinociceptive effect of drugs/drug combinations was assessed 1 hour after per os administration. The type of interaction between levetiracetam/sumatriptan and caffeine was examined by comparing the effects of a fixed, effective dose of levetiracetam/sumatriptan alone with the effects of the same dose applied with increasing, subeffective doses of caffeine. The type of interaction between levetiracetam and sumatriptan was determined by isobolographic analysis. RESULTS: Levetiracetam (1-50 mg/kg) and sumatriptan (0.5-5 mg/kg) produced significant and dose-dependent antinociceptive effects in both phases of the orofacial formalin test (P ≤ 0.001). Caffeine (7.5-100 mg/kg) produced significant antinociception in the second phase of the test (P = 0.04). Caffeine (1-7.5 mg/kg) significantly reduced the antinociceptive effects of levetiracetam (25 mg/kg) (first phase P = 0.002, second phase P < 0.001) and sumatriptan (2.5 mg/kg) (first phase P = 0.014, second phase P = 0.027); dose-dependent inhibition was observed in the second phase. Levetiracetam and sumatriptan exerted an additive interaction in the second phase of the orofacial formalin test. CONCLUSIONS: Results indicate that levetiracetam may be useful for treatment of pain in the trigeminal region. Dietary caffeine might decrease the effects of levetiracetam and sumatriptan; this needs to be considered in clinical settings. A levetiracetam-sumatriptan combination could also be useful in trigeminal pain treatment. Its efficacy and adverse effects should be examined clinically.