Cns Drugs
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Review Meta Analysis
A Common Reference-Based Indirect Comparison Meta-Analysis of Buccal versus Intranasal Midazolam for Early Status Epilepticus.
Intranasal and buccal midazolam have recently emerged as possible alternatives to intravenous or rectal diazepam or intravenous lorazepam in the treatment of early status epilepticus (SE). However, to date no randomized controlled trial (RCT) has directly compared intranasal midazolam with buccal midazolam. ⋯ Indirect comparisons suggest that intranasal and buccal midazolam share similar efficacy in the treatment of early SE in children. Intranasal midazolam should be used with caution and under clinical monitoring of vital functions. RCTs directly comparing intranasal midazolam with buccal midazolam are required to confirm these findings.
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Propofol is an intravenous agent used commonly for the induction and maintenance of anesthesia, procedural, and critical care sedation in children. The mechanisms of action on the central nervous system involve interactions at various neurotransmitter receptors, especially the gamma-aminobutyric acid A receptor. Approved for use in the USA by the Food and Drug Administration in 1989, its use for induction of anesthesia in children less than 3 years of age still remains off-label. ⋯ Propofol is known to depress mitochondrial function by its action as an uncoupling agent in oxidative phosphorylation. This has implications for children with mitochondrial diseases and the occurrence of propofol-related infusion syndrome, a rare but seriously life-threatening complication of propofol. At the time of this review, there is no direct evidence in humans for propofol-induced neurotoxicity to the infant brain; however, current concerns of neuroapoptosis in developing brains induced by propofol persist and continue to be a focus of research.
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Comparative Study
Platform Therapy Compared with Natalizumab for Multiple Sclerosis: Relapse Rates and Time to Relapse Among Propensity Score-Matched US Patients.
Multiple sclerosis (MS) registry data, primarily from Europe, suggest that treatment with natalizumab delays time to relapse compared with platform therapy (interferon beta/glatiramer acetate). ⋯ Treatment with natalizumab was associated with a significantly lower risk and rate of MS relapse and longer MS relapse-free time compared with platform therapies.
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An oral, fixed-dose combination of prolonged-release (PR) oxycodone with PR naloxone (Targin(®), Targiniq(®), Targinact(®); hereafter referred to as oxycodone/naloxone PR) is approved in Europe for the second-line symptomatic treatment of patients with severe to very severe idiopathic restless legs syndrome (RLS), after failure of dopaminergic therapy. Coadministration of naloxone represents a targeted approach to counteracting opioid-induced bowel dysfunction without compromising therapeutic efficacy; because of its very low oral bioavailability, naloxone blocks the action of oxycodone at opioid receptors locally in the gut. The efficacy of oxycodone/naloxone PR in patients with severe RLS inadequately controlled by previous (mainly dopaminergic) treatment has been demonstrated in RELOXYN, a 12-week, randomized, double-blind study with a 40-week open-label extension. ⋯ Oxycodone/naloxone PR was generally well tolerated, with a treatment-related adverse event profile (e.g. gastrointestinal disorders, CNS disorders, fatigue and pruritus) that was consistent with that expected for opioid therapy. Notably, there were no confirmed cases of augmentation among oxycodone/naloxone PR recipients throughout the course of the study. Results from the well-designed RELOXYN trial have thus demonstrated the value of oxycodone/naloxone PR as a second-line therapy for severe refractory RLS; further investigation of this combination product as a first-line treatment for severe RLS is now warranted.
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Opioid analgesics have become a cornerstone in the treatment of moderate to severe pain, resulting in a steady rise of opioid prescriptions. Subsequently, there has been a striking increase in the number of opioid-dependent individuals, opioid-related overdoses, and fatalities. Clinical use of opioids is further complicated by an increasingly deleterious profile of side effects beyond addiction, including tolerance and opioid-induced hyperalgesia (OIH), where OIH is defined as an increased sensitivity to already painful stimuli. ⋯ Several substrates have emerged as potential modulators of OIH, including the N-methyl-D-aspartate and γ-aminobutyric acid receptors, and most notably, the innate neuroimmune system. This review summarizes the neurobiology of OIH in the context of clinical treatment; specifically, we review evidence for several pathways that show promise for the treatment of pain going forward, as prospective adjuvants to opioid analgesics. Overall, we suggest that this paradoxical state be considered an additional target of clinical treatment for chronic pain.