Browse by Audience
Despite the serious side effects, analgesics acting on opioid receptors are still considered the best way to get antinociception. Matrix metalloproteinases, a large family of zinc-dependent proteases implicated in many pathological conditions, such as diabetes and osteoarthritis, are also involved in inflammation and pain. Methodology & results: Looking for evidence of possible interactions of opioid pathways and inflammation mediators, molecular modeling studies of a series of recently developed μ-opioid receptor benzomorphanic agonists together with biological data on pain and inflammation molecular targets, allowed us to hypothesize a possible correlation between μ-opioid receptor system and MMP-9.
Learn More >Prolonged treatment of chronic severe pain with opioid analgesics is frought with problematic adverse effects including tolerance, dependence, and life-threatening respiratory depression. Though these effects are mediated predominately through preferential activation of μ opioid peptide (μOP) receptors, there is an emerging appreciation that actions at κOP and δOP receptors contribute to the observed pharmacologic and behavioral profile of μOP receptor agonists and may be targeted simultaneously to afford improved analgesic effects. Recent developments have also identified the related nociceptin opioid peptide (NOP) receptor as a key modulator of the effects of μOP receptor signaling. We review here the available literature describing OP neurotransmitter systems and highlight recent drug and probe design strategies.
Learn More >The delta opioid receptor (DOPr) is an emerging target for the management of chronic pain and depression. Studies have highlighted the potential of biased signaling, the preferential activation of one signaling pathway over another downstream of DOPr, to generate a better therapeutic profile. BMS 986187 is a recently discovered positive allosteric modulator (PAM) of the DOPr. Here we ask if BMS 986187 can directly activate the receptor from an allosteric site in the absence of orthosteric ligand and if a signaling bias is generated.
Learn More >Migraine is a prevalent and extremely disabling brain disorder, with an impact on the individual, family, workplace and society. This review focuses on describing Calcitonin Gene Related Peptide Monoclonal Antibodies (CGRP-mABs) efficacy on improving the quality of life (QoL) and decreasing the disability and impact of migraine measured with patient related outcomes (PROs), on patients who participated in clinical trials with erenumab, fremanezumab, galcanezumab and eptinezumab. The goal is to better reflect the effect of these preventive migraine treatments in the daily life of our patients.
Learn More >Analgesic design and evaluation have been driven by the desire to create high-affinity high-selectivity mu (μ)-opioid peptide (MOP) receptor agonists. Such ligands are the mainstay of current clinical practice, and include morphine and fentanyl. Advances in this sphere have come from designing pharmacokinetic advantage, as in rapid metabolism for remifentanil. These produce analgesia, but also the adverse-effect profile that currently defines this drug class: ventilatory depression, tolerance, and abuse liability. The MOP receptor is part of a family, and there are significant functional interactions between other members of the family (delta [δ]-opioid peptide [DOP], kappa [κ]-opioid peptide [KOP], and nociceptin/orphanin FQ receptor [NOP]). Experimentally, MOP agonism and DOP antagonism produce anti-nociception (animals) with no tolerance, and low doses of MOP and NOP ligands synergise to antinociceptive advantage. In this latter context, the lack of effect of NOP agonists on ventilation is an additional advantage. Recent development has been to move towards low-selectivity multifunctional 'mixed ligands', such as cebranopadol, or ligand mixtures, such as Targinact®. Moreover, the observation that β-arrestin coupling underlies the side-effect profile for MOP ligands (from knockout animal studies) led to the discovery of biased (to G-protein and away from β-arrestin intracellular signalling) MOP ligands, such as oliceridine. There is sufficient excitement in the opioid field to suggest that opioid analgesics without significant side-effects may be on the horizon, and the 'opioid Holy Grail' might be in reach.
Learn More >Cluster headache stands among the worst debilitating pain conditions. Available treatments for cluster headache have often disabling side effects, are not tolerated, or are ineffective. The management of drug-refractory chronic forms is challenging. New treatments are warranted and reported here.
Learn More >Persistent and neuropathic pain affects >15% of the global population. Apart from being an individual burden to the patient, persistent pain causes considerable subsequent costs in global healthcare systems. Despite the efforts of pharmaceutical companies to develop novel analgesics, pharmacological options for the therapy of persistent and/or neuropathic pain are limited. We discuss here novel approaches to persistent pain therapy that are independent of classical target-based drug discovery, focusing on individualized diagnostic technologies, improvement of existing therapies, and expansion of current pharmacological treatments and future techniques that may broaden pharmacological options for the individual treatment of persistent pain in patients.
Learn More >Children represent a patient demographic composed of multiple, unique subpopulations differentiated by rapidly changing age-related physiology, which includes the means of metabolizing opioids. Opioids are an important part of the pharmacological treatment of both acute and chronic pain. In both clinical medicine and clinical research, it is necessary to understand the differences in drug handling by age cohort in order to appropriately dose children to effect, and to avoid exacerbating deleterious adverse events with potentially grave sequelae.
Learn More >Migraine is a disabling primary headache disorder that requires effective treatments. Inhalation is currently being explored for the delivery of drugs for migraine. Pulmonary-route delivery of drugs shows potential advantages for its use as a treatment, particularly compared the oral route. Areas covered: The authors highlight the current state of the literature and review multiple therapies for migraine-utilizing inhalation as the route of administration. The following therapeutics are discussed: inhaled ergotamine, inhaled dihydroergotamine mesylate (MAP0004), inhaled prochlorperazine, and inhaled loxapine. Coverage is also given to normobaric oxygen, hyperbaric oxygen, and nitrous oxide therapies. Expert opinion: Inhalation of MAP0004 showed promising results in terms of efficacy for acute migraine treatment in phase 3 studies, together with a more favorable tolerability profile compared to parenteral dosing and a better pharmacokinetic profile versus oral or intranasal delivery. In phase 2 trials, inhaled prochlorperazine shows good pharmacokinetics and efficacy, in contrast to inhaled loxapine that did not provide encouraging results in terms of efficacy. The authors see the potential for the use of dihydroergotamine mesylate in clinical practice pending regulatory approval.
Learn More >More than 15,000 children die annually in the United States due to an underlying life-limiting disease and the majority of those children experience distressing symptoms, which are not adequately relieved, such as pain and dyspnea. Multimodal analgesia, that is multiple agents, interventions, rehabilitation, psychological modalities, and integrative (nonpharmacologic) therapies, act synergistically for more effective pediatric pain and symptom control with fewer side effects than a single analgesic or modality. However, opioids, such as morphine, fentanyl, hydromorphone, oxycodone, and methadone (in the United Kingdom: diamorphine) remain the mainstay medication to effectively treat pain and dyspnea in children with serious illness.
Learn More >