Compounds acting at this site have been widely used as anxiolytics and sedatives and to induce muscle relaxation, amnesia, sleep, and anticonvulsive effects ( Haefely et al., 1993). Most benzodiazepines induce a positive allosteric modulation of this ligand-gated chloride ion channel, resulting (usually) in neuronal hyperpolarization and inhibition of activity. Benzodiazepines bind to an extracellular site at the interface of the α and γ subunits of the gamma-aminobutyric acid type A (GABA A) receptor to modulate the activity of the brain’s major inhibitory neurotransmitter, GABA ( Sigel and Ernst, 2018 Kim and Hibbs, 2021). Its discovery led to a large number of derivatives, including many compounds that have been developed and marketed as drugs. The first benzodiazepine with “tranquilizing” properties, chlordiazepoxide, was synthesized in the 1950’s ( Sternbach, 1979). The aim of this review is to provide an analysis of, and perspective on, published non-clinical and clinical information on 1) the pharmacology, metabolism, pharmacokinetics, and pharmacodynamic profile of remimazolam, 2) the profile of remimazolam compared with established agents, 3) gaps in the current understanding of remimazolam, 4) the compound’s discovery and development process and 5) likely future developments in the clinical use of remimazolam. The benzodiazepine antagonist flumazenil can reverse the effects of remimazolam in case of adverse events and further shorten recovery times. It is differentiated from other intravenous hypnotic agents, such as propofol, by its low liability for cardiovascular depression, respiratory depression, and injection pain. Remimazolam has the pharmacological profile of a classical benzodiazepine, such as midazolam, but is differentiated from other intravenous benzodiazepines by its rapid conversion to an inactive metabolite resulting in a short onset/offset profile. This salt form of the compound has also recently been approved for procedural sedation in China. A second development program of remimazolam was later initiated in China, using a slightly different salt form, remimazolam tosylate. It has, however, recently been approved for anesthesia in Japan and South Korea, procedural sedation in the United States, China, and Europe, and for compassionate use in intensive care unit sedation in Belgium. The development of remimazolam besylate has been slow by industry standards, primarily because of the resource limitations of these small companies. Via the GSK ventures initiative, the program was acquired by the small biotechnology company, TheraSci, and, through successive acquisitions, developed as the besylate salt at CeNeS and PAION. The project at Glaxo was shelved for strategic reasons at the late lead optimization stage. Remimazolam was identified as one of the lead compounds. The program focussed on the identification of ester-based benzodiazepine derivatives that are rapidly broken down by esterases. GJK Pharma Ltd., Eltisley, United KingdomĪ program to identify novel intravenous sedatives with a short and predictable duration of action was initiated in the late 1990’s by Glaxo Wellcome.
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