-
1.
Drug Exposure in Newborns: Effect of Selected Drugs Prescribed to Mothers During Pregnancy and Lactation.
Rentsch, KM
Therapeutic drug monitoring. 2020;(2):255-263
Abstract
The number of newborns exposed to therapeutic drugs during pregnancy is growing because of the increased use of drugs during pregnancy. In recent years, advances in our understanding of drug placental transfer have augmented the likelihood of a healthy baby in mothers with chronic diseases needing drug therapy. Globally, for example, more than 1.4 million pregnancies in 2015 have been burdened with antiretroviral drugs due to an increasing number of HIV-positive women treated with these drugs, particularly in low- and middle-income countries. In most cases, the fetus is exposed to much higher drug doses in utero than the newborn nursed by the mother. Drug transfer through the placenta takes place by passive diffusion, active transport, or facilitated transport, and drug concentrations in the fetal circulation may be comparable to that in the mother's blood concentration. The excretion of drugs into breastmilk predominantly occurs by passive diffusion, allowing only the non-protein-bound fraction of the blood drug concentration to penetrate. Drug agencies in the United States and Europe highly recommend performing clinical trials in pregnant or breastfeeding women. However, only a few drugs have reported statistically sound data in these patient groups. Most available results concerning pregnancy are obtained from observational studies after birth, assessing outcomes in the newborn or by measuring drug concentrations in the mother and umbilical cord blood. In the case of the lactation period, some studies have evaluated drug concentrations in breastmilk and blood of the mother and/or infant. In this review, exposure to antiretrovirals, immunosuppressants used after solid organ transplantation, and antiepileptics during pregnancy and lactation has been discussed in detail.
-
2.
Therapeutic advances in Dravet syndrome: a targeted literature review.
Strzelczyk, A, Schubert-Bast, S
Expert review of neurotherapeutics. 2020;(10):1065-1079
Abstract
INTRODUCTION Dravet syndrome (DS), a prototypic developmental and genetic epileptic encephalopathy (DEE), is characterized by an early onset of treatment-refractory seizures, together with impairments in motor control, behavior, and cognition. Even with multiple conventional anti-epileptic drugs, seizures remain poorly controlled, and there has been a considerable unmet need for effective and tolerable treatments. AREAS COVERED This targeted literature review aims to highlight recent changes to the therapeutic landscape for DS by summarizing the most up-to-date, evidence-based research, including pivotal data from the clinical development of stiripentol, cannabidiol, and fenfluramine, which are important milestones for DS treatment, together with the latest findings of other pharmacotherapies in development. In phase III, double-blind, placebo-controlled randomized controlled trials stiripentol, cannabidiol, and fenfluramine have shown clinically relevant reductions in convulsive seizure frequency, and are generally well tolerated. Stiripentol was associated with responder rates (greater than 50% reduction in convulsive seizure frequency) of 67%-71%, when added to valproic acid and clobazam; cannabidiol was associated with responder rates of 43%-49% (48%-63% in conjunction with clobazam), and fenfluramine of 54%-68% across studies. Therapies in development include soticlestat, ataluren, verapamil, and clemizole, with strategies to treat the underlying cause of DS, including gene therapy and antisense oligonucleotides beginning to emerge from preclinical studies. EXPERT OPINION Despite the challenges of drug development in rare diseases, this is an exciting time for the treatment of DS, with the promise of new efficacious and well-tolerated therapies, which may pave the way for treatment advances in other DEEs.
-
3.
(‒)-Cannabidiolic Acid, a Still Overlooked Bioactive Compound: An Introductory Review and Preliminary Research.
Formato, M, Crescente, G, Scognamiglio, M, Fiorentino, A, Pecoraro, MT, Piccolella, S, Catauro, M, Pacifico, S
Molecules (Basel, Switzerland). 2020;(11)
Abstract
Cannabidiolic acid (CBDA) is the main phytocannabinoid in fiber and seed-oil hemp (Cannabis sativa L.) plants, but its potential health-related capabilities have been masked for years by a greater scientific interest towards its neutral derivative cannabidiol (CBD). This review aims to collect from the literature and critically discuss all the information about this molecule, starting from its biosynthesis, and focusing on its bioactivity, as an anti-inflammatory, anti-emetic, anti-convulsant, and anti-cancerogenic drug. Furthermore, in the awareness that, despite its multiple bioactive effects, currently poor efforts have been made to achieve its reliable purification, herein, we propose a relatively simple, fast, and inexpensive procedure for its recovery from pollen of industrial hemp cultivars. Spectroscopic and spectrometric techniques allowed us to unequivocally identify pure isolated CBDA and to distinguish it from the constitutional isomer tetrahydrocannabinolic acid (THCA-A).
-
4.
Anticonvulsant mechanisms of the ketogenic diet and caloric restriction.
Rudy, L, Carmen, R, Daniel, R, Artemio, R, Moisés, RO
Epilepsy research. 2020;:106499
Abstract
Many treatments have been proposed to control epileptic seizures, such as the ketogenic diet and caloric restriction. However, seizure control has not yet been improved completely in all patients. Probably, due to the lack of understanding regarding this neurological disorder pathogenesis or pathophysiology, including its molecular approach. Currently, there is not much information about the molecular processes and genes involved, and their relation to the possible beneficial effects of diet therapy on epilepsy. The ketogenic diet and caloric restriction are implicated in potential anti-seizure mechanisms related to the gut microbiome, metabolic pathways, hormones and neurotransmitters, mitochondria improvement, a role in inflammation, and oxidative stress, among others. In this review, we pretend to describe the molecular mechanism and the possible genes involved in the different ketogenic diet and caloric restriction mechanisms of action described to decrease neural excitability and, therefore, epileptic seizures, especially when conventional treatment is not enough to achieve control of epilepsy.
-
5.
Medical management of status epilepticus: Emergency room to intensive care unit.
Crawshaw, AA, Cock, HR
Seizure. 2020;:145-152
Abstract
In convulsive status epilepticus (SE), achieving seizure control within the first 1-2 hours after onset is a significant determinant of outcome. Treatment is also more likely to work and be cost effective the earlier it is given. Initial first aid measures should be accompanied by establishing intravenous access if possible and administering thiamine and glucose if required. Calling for help will support efficient management, and also the potential for video-recording the events. This can be done as a best interests investigation to inform later management, provided adequate steps to protect data are taken. There is high quality evidence supporting the use of benzodiazepines for initial treatment. Midazolam (buccal, intranasal or intramuscular) has the most evidence where there is no intravenous access, with the practical advantages of administration outweighing the slightly slower onset of action. Either lorazepam or diazepam are suitable IV agents. Speed of administration and adequate initial dosing are probably more important than choice of drug. Although only phenytoin (and its prodrug fosphenytoin) and phenobarbitone are licensed for established SE, a now considerable body of evidence and international consensus supports the utility of both levetiracetam and valproate as options in established status. Both also have the advantage of being well tolerated as maintenance treatment, and possibly a lower risk of serious adverse events. Two adequately powered randomized open studies in children have recently reported, supporting the use of levetiracetam as an alterantive to phenytoin. The results of a large double blind study also including valproate are also imminent, and together likely to change practice in benzodiazepine-resistant SE.
-
6.
Changing Landscape of Dravet Syndrome Management: An Overview.
Samanta, D
Neuropediatrics. 2020;(2):135-145
Abstract
Dravet syndrome (DS), previously known as severe myoclonic epilepsy of infancy, is a severe developmental and epileptic encephalopathy caused by loss-of-function mutations in one copy of SCN1A (haploinsufficiency), located on chromosome 2q24, with decreased function of Nav1.1 sodium channels in GABAergic inhibitory interneurons. Pharmacoresistant seizures in DS start in the infancy in the form of hemiclonic febrile status epilepticus. Later, other intractable seizure types develop including myoclonic seizures. Early normal development in infancy evolves into moderate to severe intellectual impairment, motor impairment, behavioral abnormalities, and later a characteristic crouching gait. Clobazam, valproate, levetiracetam, topiramate, zonisamide, ketogenic diet, and vagus nerve stimulation had been shown to be effective, but even with polytherapy, only 10% of patients get adequate seizure control. The author provides a narrative review of the current treatment paradigm as well as recent advances in the management of DS based on a comprehensive literature review (MEDLINE using PubMed and OvidSP vendors with appropriate keywords to incorporate recent evidence), personal practice, and experience. In recent years, the treatment paradigm of DS is changing with the approval of pharmaceutical-grade cannabidiol oil and stiripentol. Another novel antiepileptic drug (AED), fenfluramine, had also shown excellent efficacy in phase 3 studies of DS. However, these AEDs primarily control seizures without addressing the underlying pathogenesis and other important common comorbidities such as cognitive impairment, autistic behavior, neuropsychiatric abnormalities, and motor impairment including crouching gait. Several agents targeted for DS are in the developmental stage: TAK935, lorcaserin, clemizole, huperzine analog, ataluren, selective sodium channel modulators and activators, antisense oligonucleotide therapy, and adenoviral vector therapy. As DS is associated with a high risk of sudden unexpected death in epilepsy, seizure detection devices can be used in this population for testing and clinical validation of these devices.
-
7.
Treatment strategies for encephalopathy related to status epilepticus during slow sleep, a narrative review of the literature.
Zhang, K, Yan, Y, Su, T
Reviews in the neurosciences. 2020;(7):793-802
Abstract
Encephalopathy related to Status Epilepticus during slow Sleep (ESES) is an age-dependent syndrome characterized by the appearance of neuropsychological and behavioral disorders associated with extreme activation of epileptic activity during sleep. The major goal of therapy in ESES is to prevent neuropsychological deficits. Effective therapy to reduce seizures and resolve the EEG pattern of status epilepticus during sleep (SES) may be crucial to improve long-term prognosis. However, whether to improve neurodevelopmental deficits by suppressing or eliminating SES remains unknown. The purpose of this article is to review current therapeutic options in ESES, in order to provide better alternatives. Treatment options consist of antiepileptic drugs, steroids, immunoglobulins, the ketogenic diet, and surgery. Maybe therapy targeted mechanisms can be developed with deep insight into the etiology of ESES.
-
8.
Drivers for the comorbidity of type 2 diabetes mellitus and epilepsy: A scoping review.
Shlobin, NA, Sander, JW
Epilepsy & behavior : E&B. 2020;:107043
Abstract
Epilepsy, a common neurologic condition, is associated with a greater prevalence of type 2 diabetes mellitus (T2DM). We examined potential drivers for the comorbidity of epilepsy and T2DM in an attempt to elucidate possible biological mechanisms underlying the development of processes in individuals. We searched PubMed and Medline up to December 2019. Our search yielded 3361 articles, of which 82 were included in the scoping review. We reviewed articles focusing on the association of epilepsy and T2DM, drivers, and biological mechanisms. We found that epilepsy is associated with obesity and obesity is associated with T2DM. Treatment with valproate (either sodium or acid) is associated with weight increase and hyperinsulinemia, while topiramate causes weight loss. People with epilepsy are less likely to exercise, which is protective against obesity. Mitochondrial dysfunction and adiponectin deficiency are common to epilepsy and T2DM. One possible mechanism for the comorbidity is mitochondrial dysfunction and adiponectin deficiency, which promotes epilepsy, obesity, and T2DM. Another possible mechanism is that people with epilepsy are more likely to be obese because of the lack of exercise and the effects of some antiseizure medications (ASMs), which makes them susceptible to T2DM because of the development of mitochondrial dysfunction and adiponectin deficiency. A third mechanism is that people with epilepsy have greater mitochondrial dysfunction and lower adiponectin levels than people without epilepsy at baseline, which may exacerbate after treatment with ASMs. Future research involving a combined genetic and molecular pathway approach will likely yield valuable insight regarding the comorbidity of epilepsy and T2DM.
-
9.
Why we urgently need improved epilepsy therapies for adult patients.
Billakota, S, Devinsky, O, Kim, KW
Neuropharmacology. 2020;:107855
Abstract
PURPOSE Up to a third of patients with epilepsy suffer from recurrent seizures despite therapeutic advances. RESULTS Current epilepsy treatments are limited by experiential data from treating different types of epilepsy. For example, we lack evidence-based approaches to efficacious multi-drug therapies or identifying potentially serious or disabling adverse events before medications are initiated. Despite advances in neuroscience and genetics, our understanding of epilepsy pathogenesis and mechanisms of treatment-resistance remains limited. For most patients with epilepsy, precision medicine for improved seizure control and reduced toxicity remains a future goal. CONCLUSION A third of epilepsy patients suffer from ongoing seizures and even more suffer from adverse effects of treatment. There is a critical need for more effective and safer therapies for epilepsy patients with frequent comorbitidies, including depression, anxiety, migraine, and cognitive impairments, as well as special populations (e.g., women, elderly). Advances from genomic sequencing techniques may identify new genes and regulatory elements that influence both the depth of the epilepsies' roots within brain circuitry as well as ASD resistance. Improved understanding of epilepsy mechanisms, identification of potential new therapeutic targets, and their assessment in randomized controlled trials are needed to reduce the burden of refractory 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'.
-
10.
The evolving indications of KD therapy.
Armeno, M, Caraballo, R
Epilepsy research. 2020;:106340
Abstract
Despite the rapid increase of clinical and basic-science knowledge on ketogenic diet therapies over the past years, it has not always been easy to determine the adequate indications of this treatment. Over the nearly 100 years of use, from being a last resource in the therapeutic algorithm, the diet has become one of the four main treatments for patients with difficult-to-control epilepsy together with antiepileptic drugs, surgery, and vagus nerve stimulation. The use of the diet has also changed. The current paper will briefly discuss the history of the diet together with a review of the literature regarding its most important indications and how they have evolved. The concept of the importance of defining the type of seizure, type of syndrome, and etiology in the selection of patients and timing of diet initiation has been gaining importance. This paper explores how the indications of the diet changed together with the shifting focus of epilepsy teams towards its use in different types of epilepsy and epilepsy syndromes and according to etiologies and as an alternative option in refractory and superrefractory status epilepticus.