Background Among patients with chronic low back pain (CLBP), approximately 37% show signs of a neuropathic pain component (radicular pain). Treatment of this condition remains challenging. Therefore, the current study aimed to investigate the efficacy of duloxetine in the treatment of CLBP patients with neuropathic leg pain. Methods The study was conducted as a prospective, randomized, placebo-controlled, double-blind crossover trial. CLBP with a visual analog scale (VAS) score greater than 5 and a neuropathic component that was assessed clinically and by the painDETECT questionnaire (score > 12) were required for inclusion. Patients were randomly assigned to either duloxetine or placebo for 4 weeks followed by a 2-week washout period before they crossed over to the alternate phase that lasted another 4 weeks. Duloxetine was titrated up to 120 mg/day. The primary outcome parameter was mean VAS score during the last week of treatment in each phase (VASweek4). Results Of 41 patients, 21 patients completed both treatment phases. In the intention-to-treat analysis (n = 25), VASweek4 was significantly lower in the duloxetine phase compared with placebo (4.1 ± 2.9 vs. 6.0 ± 2.7; P = 0.001), corresponding to an average pain reduction of 32%. The painDETECT score at the end of each treatment phase was significantly lower in the duloxetine phase compared with placebo (17.7 ± 5.7 vs. 21.3 ± 3.6 points; P = 0.0023). Adverse events were distributed equally between the duloxetine (65%) and placebo phases (62%) (P = 0.5). Conclusion In this crossover study, duloxetine proved to be superior to placebo for the treatment of CLBP with a neuropathic leg pain.
Background: Tapentadol prolonged release (PR) is effective and well tolerated for chronic osteoarthritis, low back, and diabetic peripheral neuropathic pain. Objectives: To evaluate the efficacy and tolerability of tapentadol PR compared with placebo and morphine controlled release (CR) for managing moderate to severe chronic malignant tumor-related pain. Study Design: Randomized-withdrawal, parallel group, active- and placebo-controlled, double-blind phase 3 study (NCT00472303). Setting: Primary, secondary, and tertiary care settings in 16 countries. Methods: Eligible patients (pain intensity ≥ 5 [11-point numerical rating scale] on prior analgesics) were randomized (2:1) and titrated to their optimal dose of tapentadol PR (100 – 250 mg bid) or morphine sulfate CR (40 – 100 mg bid) over 2 weeks. Morphine sulfate immediate release 10 mg was permitted as needed for rescue medication (no maximum dose). Patients who completed titration and, during the last 3 days of titration, had mean pain intensity < 5 (based on twice-daily ratings) and mean rescue medication use ≤ 20 mg/day continued into a 4-week maintenance period; patients who received morphine CR during titration continued taking morphine CR, and those who received tapentadol PR were re-randomized (1:1) to tapentadol PR or placebo bid. Response during maintenance (primary efficacy endpoint) was defined as having: 1) completed the maintenance period, 2) a mean pain intensity < 5 during maintenance, and 3) used an average of ≤ 20 mg/day of rescue medication during maintenance. Response at the end of titration was defined similarly, with pain intensity and rescue medication averages based on the last 3 days of titration. Results: Of 622 patients screened, 496 were randomized, treated during titration, and evaluable for safety; 327 were re-randomized, treated during maintenance, and evaluable for safety; and 325 were evaluable for efficacy. The adjusted responder rate estimate during maintenance (logistic regression adjusting for treatment group, pooled center, and pain intensity at start of maintenance) was significantly higher with tapentadol PR (64.3%) than with placebo (47.1%; odds ratio (OR), 2.02 [95% confidence interval (CI), 1.12 – 3.65]; P = 0.02). Based on responder rates at the end of titration, tapentadol PR (76.0% [174/229]) was non-inferior to morphine CR (83.0% [83/100]). The lower limit of the 95% CI for the between-groups difference (−15.5%) was within the pre-specified 20% non-inferiority margin. During titration, incidences of treatment-emergent adverse events (TEAEs) were 50.0% (169/338) with tapentadol PR and 63.9% (101/158) with morphine CR; incidences of nausea, vomiting, and dry mouth were lower with tapentadol PR than with morphine CR. During maintenance, incidences of TEAEs were 56.3% (63/112), 62.3% (66/106), and 62.4% (68/109) with placebo, tapentadol PR, and morphine CR, respectively. Limitations: Statistical comparisons between tapentadol PR and morphine CR were limited to descriptive statistics during the maintenance period because of the pre-selection of responders to tapentadol PR or morphine CR during titration. Conclusions: Results obtained during maintenance indicate that tapentadol PR (100 – 250 mg bid) is effective compared with placebo for managing moderate to severe chronic malignant tumor-related pain. Based on results obtained during titration, tapentadol PR provides comparable efficacy to that of morphine sulfate CR (40 – 100 mg bid), but is associated with better gastrointestinal tolerability. Key words: Tapentadol PR, cancer pain, tumor-related pain, malignant pain, chronic pain, morphine CR, non-inferiority, efficacy, tolerability
SummaryRecent data suggest that auricular thrombosis is associated with accumulation of mast cells (MC) in the upper endocardium (where usually no MC reside) and local expression of MGF (mast cell growth factor) (25). In this study, the role of vascular cells, thrombin-activation and MGF, in MC-migration was analyzed. For this purpose, cultured human auricular endocardial cells (HAUEC), umbilical vein endothelial cells (HUVEC) and uterine-(HUTMEC) and skin-derived (HSMEC) microvascular endothelial cells were exposed to thrombin or control medium, and the migration of primary tissue MC (lung, n = 6) and HMC-1 cells (human MC-line) against vascular cells (supernatants) measured. Supernatants (24 h) of unstimulated vascular cells (monolayers of endocardium or endothelium) as well as recombinant (rh) MGF induced a significant migratory response in HMC-1 (control: 3025 ± 344 cells [100 ± 11.4%] vs. MGF, 100 ng/ml: 8806 ± 1019 [291 ± 34%] vs. HAUEC: 9703 ± 1506 [320.8 ± 49.8%] vs. HUTMEC: 8950 ± 1857 [295.9 ± 61.4%] vs. HSMEC: 9965 ± 2018 [329.4 ± 66.7%] vs. HUVEC: 9487 ± 1402 [313.6 ± 46.4%], p <0.05) as well as in primary lung MC. Thrombin-activation (5 U/ml, 12 h) of vascular cells led to an augmentation of the directed migration of MC as well as to a hirudin-sensitive increase in MGF synthesis and release. Moreover, a blocking anti-MGF antibody was found to inhibit MC-migration induced by unstimulated or thrombin-activated vascular cells. Together, these data show that endocardial and other vascular cells can induce migration of human MC. This MC-chemotactic signal of the vasculature is associated with expression and release of MGF, augmentable by thrombin, and may play a role in the pathophysiology of (auricular) thrombosis.
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