The United States Food and Drug Administration (FDA) recently issued a Drug Safety Communication requiring Boxed Warning updating and other changes in order to improve the safe use of the benzodiazepine drug class. These changes were prompted because 'The current prescribing information for benzodiazepines does not provide adequate warnings about [the] serious risks and harms associated with these medicines so they may be prescribed and used inappropriately'.
 
  The FDA Communication points out that benzodiazepines can be an important option for treating disorders for which these drugs are indicated. However, the acknowledged problems of these drugs, which historically were considered an acceptable trade-off against their benefits, need to be reassessed in light of their widespread (over?) prescribing (for example, in 2019 an estimated 92 million benzodiazepine prescriptions were dispensed from US retail and mail-order pharmacies).
 
  The FDA Communication can be viewed as an important step in reminding healtcted withdrawal syndrome experienced by some patients. The Communication advises to providers 'No standard benzodiazepine tapering schedule is suitable for all patients; therefore, create a patient-specific plan to gradually reduce the dosage, and ensure ongoing monitoring and support as needed to avoid serious withdrawal symptoms or worsening of the patient's medical condition'.A startling auditory stimulus (SAS) induces a reflex response involving, among other reactions, a strong contraction of the orbicularis oculi muscle (OOc) and subsequent eye closure. A SAS also induces the StartReact effect, a significant shortening of reaction time in subjects ready for task execution. We examined the obvious conflict appearing when a StartReact paradigm requires participants with eyes closed to open their eyes to look for a visual target. We recorded OOc EMG activity and eyelid movements in healthy volunteers who were instructed to open their eyes at perception of a somatosensory imperative stimulus (IS) and locate the position of a Libet's clock's hand shown on a computer screen at 80 cm distance. In 6 out of 20 trials, we delivered a SAS simultaneously with the IS. The main outcome measures were reaction time at onset of eyelid movement and the time gap (TG) separating subjective assessment of the clock's hand position from real IS issuing. Control experiments included reaction time to eye closing and target location with eyes open to the same IS. Reaction time was significantly faster in SAS than in noSAS trials and slower for eye opening than for eye closing in both conditions. In the eye-opening task, TG was significantly shorter in SAS with respect to noSAS trials, despite the presence of the SAS-related burst in the OOc before EMG cessation. Our results indicate that the StartReact effect speeds up eye opening and location of a target in the visual field despite the startle reaction opposing the task.Although the P3b component of the event-related brain potential is one of the most widely studied components, its underlying generators are not currently well understood.  https://www.selleckchem.com/products/elexacaftor.html  Recent theories have suggested that the P3b is triggered by phasic activation of the locus-coeruleus norepinephrine (LC-NE) system, an important control center implicated in facilitating optimal task-relevant behavior. Previous research has reported strong correlations between pupil dilation and LC activity, suggesting that pupil diameter is a useful indicator for ongoing LC-NE activity. Given the strong relationship between LC activity and pupil dilation, if the P3b is driven by phasic LC activity, there should be a robust trial-to-trial relationship with the phasic pupillary dilation response (PDR). However, previous work examining relationships between concurrently recorded pupillary and P3b responses has not supported this. One possibility is that the relationship between the measures might be carried primarily by either inter-individual (i.e., between-participant) or intra-individual (i.e., within-participant) contributions to coupling, and prior work has not systematically delineated these relationships. Doing so in the current study, we do not find evidence for either inter-individual or intra-individual relationships between the PDR and P3b responses. However, baseline pupil dilation did predict the P3b. Interestingly, both the PDR and P3b independently predicted inter-individual and intra-individual variability in decision response time. Implications for the LC-P3b hypothesis are discussed.We studied the effects of mild traumatic brain injury (mTBI) in an aging population. We examined visual search with event-related potentials (ERPs) and event-related fields (ERF) for a lateral color singleton focusing on the P1 and N1 in each hemisphere. Forty participants (19 mTBI and 21 controls) aged 50 to 72 performed a visual search task, while we recorded their magnetoencephalogram (MEG) with simultaneous electroencephalogram (EEG). We compared visual ERPs and ERFs and associated cortical activity estimated using MEG source localization. Relative to matched controls, participants with an mTBI had a smaller P1 in the left hemisphere and a smaller N1 in the right hemisphere. Also, mTBI participants showed inversed activation patterns across the hemispheres during the N1 in MEG compared with controls. This is the first study to investigate the impact of mTBI on neuronal source activations during early visual processing in an aging population. Results showed that when aging individuals suffer from an mTBI, there are perturbations in the amplitude and hemispheric dominance patterns in the visual P1 and N1 responses that are visible for months to years following the injury. Our findings indicate that mTBI can lead to modifications of sensory and/or perceptual responses, suggesting possible adaptive functional reorganization following mTBI.
  There is increasing evidence that calcitonin gene-related peptide (CGRP) plays a role in the development of neuropathic pain, a common feature of peripheral neuropathy. Although clinical studies have shown that anti-CGRP monoclonal antibodies are highly efficacious for migraine headache prophylaxis, their effects on nonheadache chronic pain conditions, including neuropathic pain, in humans are unknown. Therefore, the aim of this study was to assess the effectiveness of anti-CGRP monoclonal antibodies for neuropathic pain in patients with coexisting chronic migraine.
 
  A retrospective chart review was conducted of 14 patients with chronic migraine and peripheral neuropathy. All patients were treated with anti-CGRP monoclonal antibodies. We collected data on patient-reported scores on the Neuropathy Pain Scale (NPS) and the frequency of migraine headache days (MHDs) per month. Data were collected 3 and 0 months before and 3, 6, 9, and 12 months after treatment with anti-CGRP medications.
 
  With treatment of anti-CGRP monoclonal antibodies, patients reported a 41.