Comparative Benefit-Risk Assessment for Lidocaine 700 mg Medicated Plaster and Pregabalin in Peripheral Neuropathic Pain Following a Structured Framework Approach.

INTRODUCTION: Peripheral neuropathic pain (PNP) is difficult to treat. Several oral drugs are recommended as first-line treatments. Nevertheless, many patients cannot obtain sufficient pain relief or do not tolerate systemically active treatments. Topical treatments, with a lower risk of systemic side effects such as lidocaine 700 mg medicated plaster, are also recommended in treatment guidelines. This analysis compares the benefit-risk balance of topical 700 mg lidocaine medicated plaster with the benefit-risk balance of oral pregabalin administration for the treatment of PNP following current recommendations on benefit-risk assessment (BRA) methodology. METHODS: The Benefit-Risk Action Team (BRAT) framework was used as structured approach. Selection of key benefits and risks was supported by a patient survey. Published randomized controlled clinical trials were the main source to identify data related to key benefits and risks. The outcome of randomized clinical trials was compared with real-world evidence (RWE) data for consistency. RESULTS: Identified key benefits were pain reduction and improvement in quality of life. Key risks identified were application site reactions, dizziness, confusion, weight gain, peripheral edema, and blurred vision. Overall, there was similarity in key benefits between the comparators; however, a clear advantage regarding key risks in favor of lidocaine 700 mg medicated plaster was observed. This observation was consistent across data from a direct comparison trial, randomized placebo-controlled trials, as well as data from RWE studies. The low number of randomized controlled trials for lidocaine 700 mg medicated plaster was the main limitation. CONCLUSION: Guided by the opinion of patients regarding key benefits and risks deemed important for treatments of peripheral neuropathic pain, our analysis showed that lidocaine 700 mg medicated plaster has a more favorable benefit-risk balance compared to pregabalin (300 and 600 mg daily).

The metabotropic glutamate receptor 5 antagonist MPEP and the mGluR2 agonist LY379268 modify disease progression in a transgenic mouse model of Huntington's disease.

Chronic glutamate mediated excitotoxicity has been suggested to contribute to the pathogenesis of Huntington's disease (HD). Both, inhibition of glutamate release through stimulation of presynaptic metabotropic glutamate receptor (mGluR) 2 and blockade of postsynaptic mGluR5 have been demonstrated to be neuroprotective against excitotoxicity. R6/2 HD transgenic mice which express an expanded CAG triplet repeat serve as a well-characterized mouse model for HD with progressing neurological abnormalities and limited survival. We treated R6/2 HD transgenic mice with either the mGluR2 agonist LY379268 (1.2 mg/kg) or with the mGluR5 antagonist 2-methyl-6-(phenylethynyl)-pyridine (MPEP) (100 mg/kg) orally from a presymptomatic stage until death to investigate their potential disease modifying effects. We found that survival time in both the MPEP treated mice and the LY379268 treated mice was significantly increased in comparison to placebo treated transgenic controls (14.87+/-0.14 and 14.22+/-0.11 weeks versus 12.87+/-0.11 weeks, respectively). Additionally, the progressive decline in motor coordination of HD transgenic mice as tested with the rotarod test was significantly attenuated in MPEP- but not in LY379268-treated mice. Early pathological hyperactivity, which can be found in placebo treated HD transgenic mice, was significantly attenuated by both MPEP and LY379268 treatment. Immunohistologial examination of HD characteristic neuronal intranuclear inclusion (NII), however, demonstrated no effect on NII formation by either of the treatments applied. These data suggest that inhibition of glutamate neurotransmission via specific interaction with mGluRs might be interesting for both inhibition of disease progression as well as early symptomatic treatment in HD.

Riluzole prolongs survival time and alters nuclear inclusion formation in a transgenic mouse model of Huntington's disease.

Glutamate excitotoxicity has been suggested to contribute to the pathogenesis of Huntington's disease (HD). Riluzole is a substance with glutamate antagonistic properties that is used for neuroprotective treatment in amyotrophic lateral sclerosis and which is currently tested in clinical trials for treatment of HD. R6/2 transgenic mice, which express exon 1 of the human HD gene with an expanded CAG triplet repeat, serve as a well-characterized mouse model for HD with progressing neurological abnormalities and limited survival. We treated R6/2 HD transgenic mice with riluzole orally beginning at a presymptomatic stage until death to investigate its potential neuroprotective effects in this mouse model and found that survival time in the riluzole group was significantly increased in comparison to placebo-treated transgenic controls. Additionally, the progressive weight loss was delayed and significantly reduced by riluzole treatment; behavioral testing of motor coordination and spontaneous locomotor activity, however, showed no statistically significant differences. We also examined the formation of the HD characteristic neuronal intranuclear inclusions (NII) immunohistologically. At a late disease stage, striatal NII from riluzole-treated transgenic mice showed profound changes in ubiquitination, i.e., NII were less ubiquitinated and surrounded by ubiquitinated micro-aggregates. Staining with antibodies directed against the mutated huntingtin revealed no significant difference in this component of NII. Taken together, these data suggest that riluzole is a promising candidate for neuroprotective treatment in human HD.