Efficacy of conventional opioids can be limited by adverse events (AEs). TRV130 is a structurally novel biased ligand of the μ-opioid receptor that activates G protein signaling with little β-arrestin recruitment. In this phase 2, randomized, placebo- and active-controlled study, we investigated the efficacy and tolerability of TRV130 in acute pain after bunionectomy. We used an adaptive study design in which 144 patients experiencing moderate-to-severe acute pain after bunionectomy were randomized to receive double-blind TRV130, placebo, or morphine in a pilot phase. After pilot phase analysis, 195 patients were randomized to receive double-dummy TRV130 0.5, 1, 2, or 3 mg every 3 hours (q3h); placebo; or morphine 4 mg q4h intravenously. The primary end point was the time-weighted average change in numeric rating scale pain intensity over the 48-hour treatment period. Secondary end points included stopwatch and categorical assessments of pain relief. Safety and tolerability were also assessed. TRV130 2 and 3 mg q3h, and morphine 4 mg q4h produced statistically greater mean reductions in pain intensity than placebo over 48 hours (P < 0.005). TRV130 at 2 and 3 mg produced significantly greater categorical pain relief than morphine (P < 0.005) after the first dose, with meaningful pain relief occurring in under 5 minutes. TRV130 produced no serious AEs, with tolerability similar to morphine. These results demonstrate that TRV130 rapidly produces profound analgesia in moderate-to-severe acute pain, suggesting that G-protein-biased μ-opioid receptor activation is a promising target for development of novel analgesics.
Clinically meaningful and statistically significant improvements were observed with tapentadol IR 50 mg and 75 mg compared with placebo for the relief of moderate-to-severe acute pain after orthopedic surgery. Tapentadol IR 50 mg and 75 mg were non-inferior to oxycodone HCl IR 10 mg for the treatment of acute pain based on the primary efficacy endpoint of SPID(48) and the pre-specified margin of 48 points. The incidence of nausea and/or vomiting was statistically significantly lower for tapentadol IR 50 mg and numerically lower for tapentadol IR 75 mg than for oxycodone HCl IR 10 mg.
DNA vaccines are being developed as a potentially safe and effective immunization platform. However, translation of DNA vaccines into a clinical setting has produced results that have fallen short of those generated in a preclinical setting. Various strategies are being developed to address this lack of potency, including improvements in delivery methods. Electroporation (EP) creates transient increases in cell membrane permeability, thus enhancing DNA uptake and leading to a more robust immune response. Here, we report on the safety and tolerability of delivering sterile saline via intramuscular (IM) or intradermal (ID) injection followed by in vivo electroporation using the CELLECTRA(®) adaptive constant current device in healthy adults from two open-label studies. Pain, as assessed by VAS, was highest immediately after EP but diminishes by about 50% within 5 min. Mean VAS scores appear to correlate with the amount of energy delivered and depth of needle insertion, especially for intramuscular EP. Mean scores did not exceed 7 out of 10 or 3 out of 10 for IM and ID EP, respectively. The majority of adverse events included mild to moderate injection site reactions that resolved within one day. No deaths or serious adverse events were reported during the course of either study. Overall, injection followed by EP with the CELLECTRA(®) device was well-tolerated and no significant safety concerns were identified. These studies support the further development of electroporation as a vaccine delivery method to enhance immunogenicity, particularly for diseases in which traditional vaccination approaches are ineffective.
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