Using design thinking to strengthen the community pharmacist's role in epilepsy care.

OBJECTIVE: To use design thinking to develop a community pharmacist-led intervention for people living with epilepsy (PWE) with desirable, feasible, and viable features. METHODS: This study used design thinking. Three patient personas were created based on previous research: a newly diagnosed PWE, a well-controlled PWE, and a complex PWE with uncontrolled seizures. An intervention prototype was developed for each of the three personas. Structured interviews were conducted with pharmacists, pharmacy students, patients with diagnosed epilepsy, and caregivers to elicit feedback on which features of each intervention prototype were desirable, feasible, and viable. Interviews were analyzed using rapid content analysis. A multidisciplinary advisory group and the research team prioritized features of the prototypes to include in the final intervention. RESULTS: The following four features were identified as desirable, feasible, and viable for a pharmacist-led intervention for PWE: (1) pharmacist-patient consultations, (2) care plan development, (3) regular check-ins, and (4) care coordination with other health care providers. SIGNIFICANCE: This study identified evidence-based features for a community pharmacist intervention to support epilepsy care using design thinking. A pilot study to evaluate this intervention on the quality of life (QoL), health outcomes and satisfaction of PWE can inform the implementation and feasibility of such patient services.

Stakeholder perceptions of community pharmacist population health management of people living with epilepsy.

OBJECTIVE: To identify the predisposing, enabling, and reinforcing factors influencing the integration of community pharmacists in population health approaches to epilepsy care. METHODS: Key informant interviews were conducted with 32 stakeholders, including five people living with epilepsy (PWE), ten caregivers of PWE, seven epileptologists, one neurologist, one epilepsy nurse, and eight community pharmacists in Washington State and Oregon from September 2019 to February 2020. Interviews were audio recorded, transcribed, and analyzed using a rapid content analysis approach guided by the PRECEDE-PROCEED Model to identify predisposing, enabling, and reinforcing factors influencing integration of community pharmacists in population health approaches to epilepsy care. RESULTS: Four predisposing, four enabling, three positive reinforcing factors, and two negative reinforcing factors emerged as influencing integration of community pharmacists in a population health approach to epilepsy care across all stakeholder groups. Predisposing factors included patient advocacy, medication adherence, medication monitoring, and medication education. Enabling factors were a shared vision, collaboration structure, efficient communication, and pharmacist attributes (knowledge, experience, and attitude). Positive reinforcing factors included a team approach, easy to access support, and medication adherence. Negative reinforcing factors were duplicate or conflicting care and limited time and resources. SIGNIFICANCE: This study identified several predisposing, enabling, and reinforcing factors influencing integration of community pharmacists in population health approaches to epilepsy care based on stakeholder perceptions. Community pharmacists may consider these factors when implementing services for patients with epilepsy.

Validated animal models for antiseizure drug (ASD) discovery: Advantages and potential pitfalls in ASD screening.

Since 1993, over 20 new anti-seizure drugs (ASDs) have been identified in well-established animal seizure and epilepsy models and subsequently demonstrated to be clinically effective in double-blinded, placebo-controlled clinical trials in patients with focal onset seizures. All clinically-available ASDs on the market today are effective in at least one of only three preclinical seizure and epilepsy models: the acute maximal electroshock (MES), the acute subcutaneous pentylenetetrazol (scPTZ) test, or the kindled rodent with chronic evoked seizures. Thus, it reasons that preclinical ASD discovery does not need significant revision to successfully identify ASDs for the symptomatic treatment of epilepsy. Unfortunately, a significant need still persists for more efficacious and better tolerated ASDs. This is particularly true for those patients whose seizures remain drug resistant. This review will focus on the continued utility of the acute MES and scPTZ tests, as well as the kindled rodent for current and future ASD discovery. These are the only "clinically validated" rodent models to date and been heavily used in the search for novel and more efficacious ASDs. This is to say that promising ASDs have been brought to the clinic on the basis of efficacy in these particular seizure and epilepsy models alone. This review also discusses some of the inherent advantages and limitations of these models relative to existing and emerging preclinical models. It then offers insight into future efforts to develop a preclinical model that will advance a truly transformative therapy for the symptomatic treatment of difficult to treat focal onset epilepsy. This article is part of the special issue entitled 'New Epilepsy Therapies for the 21st Century - From Antiseizure Drugs to Prevention, Modification and Cure of Epilepsy'.

The impact of nonadherence to antiseizure drugs on seizure outcomes in an animal model of epilepsy.

OBJECTIVE: Nonadherence to prescribed dosing regimens is a significant problem in the treatment of pediatric and adult chronic epilepsy, and can result in severe consequences to patient outcomes. In this first-of-kind preclinical study, the impact of nonadherence on seizure control was studied by simulating human patterns of nonadherence in an animal epilepsy model. METHODS: In study 1, three different patterns of nonadherence were modeled in newly diagnosed epileptic rats treated with carbamazepine: perfect adherence (100% of pellets contained carbamazepine), variable nonadherence (50% of pellets contained carbamazepine with different dosing patterns between animals), and complete nonadherence (0% of pellets contained carbamazepine). In study 2, a cohort of newly diagnosed epileptic rats were subjected to a "drug holiday" nonadherence paradigm, that is, a 2-week on (100%), 2-week off (0%), and 2-week on (100%) carbamazepine paradigm. RESULTS: In the first experiment, the 100% (0.3 ± 0.2 SD convulsive seizures per day) adherent cohort demonstrated better seizure control than either the 0% (1.1 ± 0.8 SD) or 50% (0.8 ± 0.6 SD) adherent cohorts, which had similar levels of seizure control. In the second study, poor seizure control was exhibited during the second 2 weeks; that is, the drug holiday epoch; however, this did not negatively affect restoration of seizure control upon reinstatement of CBZ. SIGNIFICANCE: The results from this pilot investigation suggest that nonadherence to carbamazepine is associated with significant negative but reversible effects on seizure control in an animal model of epilepsy. Furthermore, these results demonstrate that animal studies of nonadherence can yield potentially important and translatable insights into the consequences of nonadherence on seizure control.

Blockade of the IL-1R1/TLR4 pathway mediates disease-modification therapeutic effects in a model of acquired epilepsy.

We recently discovered that forebrain activation of the IL-1 receptor/Toll-like receptor (IL-1R1/TLR4) innate immunity signal plays a pivotal role in neuronal hyperexcitability underlying seizures in rodents. Since this pathway is activated in neurons and glia in human epileptogenic foci, it represents a potential target for developing drugs interfering with the mechanisms of epileptogenesis that lead to spontaneous seizures. The lack of such drugs represents a major unmet clinical need. We tested therefore novel therapies inhibiting the IL-1R1/TLR4 signaling in an established murine model of acquired epilepsy. We used an epigenetic approach by injecting a synthetic mimic of micro(mi)RNA-146a that impairs IL1R1/TLR4 signal transduction, or we blocked receptor activation with antiinflammatory drugs. Both interventions when transiently applied to mice after epilepsy onset, prevented disease progression and dramatically reduced chronic seizure recurrence, while the anticonvulsant drug carbamazepine was ineffective. We conclude that IL-1R1/TLR4 is a novel potential therapeutic target for attaining disease-modifications in patients with diagnosed epilepsy.

Cyclic analogs of galanin and neuropeptide Y by hydrocarbon stapling.

Hydrocarbon stapling is an effective strategy to stabilize the helical conformation of bioactive peptides. Here we describe application of stapling to anticonvulsant neuropeptides, galanin (GAL) and neuropeptide Y (NPY), that are implicated in modulating seizures in the brain. Dicarba bridges were rationally introduced into minimized analogs of GAL and NPY resulting in increased α-helical content, in vitro metabolic stability and n-octanol/water partitioning coefficient (logD). The stapled analogs retained agonist activities towards their respective receptors and suppressed seizures in a mouse model of epilepsy.

Glutamate and GABA synthesis, release, transport and metabolism as targets for seizure control.

The synthesis, release, reuptake, and metabolism of the excitatory and inhibitory neurotransmitters glutamate and GABA, respectively, are tightly controlled. Given the role that these two neurotransmitters play in normal and abnormal neurotransmission, it is important to consider the processes whereby they are regulated. This brief review is focused entirely on the metabolic aspects of glutamate and GABA synthesis and neurotransmission. It describes in limited detail the synthesis, release, reuptake, metabolism, cellular compartmentation and pharmacology of the glutamatergic and GABAergic synapse. This review also provides a summary and brief description of the pathologic and phenotypic features of the various genetic animal models that have been developed in an effort to provide a greater understanding of the role that each of the aforementioned metabolic processes plays in controlling excitatory and inhibitory neurotransmission and how their use will hopefully facilitate the development of safer and more efficacious therapies for the treatment of epilepsy and other neurological disorders.

Preclinical evaluation of 2,2,3,3-tetramethylcyclopropanecarbonyl-urea, a novel, second generation to valproic acid, antiepileptic drug.

2,2,3,3-Tetramethylcyclopropanecarbonylurea (TMCU) is an amide derivative of a tetramethylcyclopropyl analogue of valproic acid (VPA), one of the leading antiepileptic drugs. Structural considerations used in the design of TMCU aimed to enhance the anticonvulsant potency of VPA and to prevent its two life-threatening side effects; i.e., teratogenicity and hepatotoxicity. The anticonvulsant activity of TMCU was evaluated in the MES, scMet, 6-Hz, scBic and scPic tests, and also in the hippocampal kindling model of partial seizures and lamotrigine-resistant amygdala kindling model of therapy-resistant seizures. Minimal motor impairment was determined using the rotorod test in mice and the positional sense test, muscle tone test, and gait and stance test in rats. The antinociceptive effect of TMCU was evaluated in the mouse formalin model of acute-tonic pain. The molecular mechanisms of action of TMCU were investigated in electrophysiological studies using the whole-cell patch-clamp technique. Teratogenicity studies were performed in a SWV/Fnn-mouse model of VPA-induced teratogenicity. TMCU hepatotoxicity was evaluated following 1-week intraperitoneal and oral administration of 50, 250 and 500 mg/kg doses to rats. In the hepatotoxicity study the blood levels of TMCU were evaluated at day 1 and day 7 of the treatment. TMCU mutagenicity was evaluated in the Ames test.