Longitudinal EEG studies in a kindred with Lafora disease

Retinal Phenotyping of a Murine Model of Lafora Disease

Lafora disease (LD) is a progressive neurologic disorder caused by biallelic pathogenic variants in EPM2A or EPM2B, leading to tissue accumulation of polyglucosan aggregates termed Lafora bodies (LBs). This study aimed to characterize the retinal phenotype in Epm2a−/− mice by examining knockout (KO; Epm2a−/−) and control (WT) littermates at two time points (10 and 14 months, respectively). In vivo exams included electroretinogram (ERG) testing, optical coherence tomography (OCT) and retinal photography. Ex vivo retinal testing included Periodic acid Schiff Diastase (PASD) staining, followed by imaging to assess and quantify LB deposition. There was no significant difference in any dark-adapted or light-adapted ERG parameters between KO and WT mice. The total retinal thickness was cFigure mparable between the groups and the retinal appearance was normal in both groups. On PASD staining, LBs were observed in KO mice within the inner and outer plexiform layers and in the inner nuclear layer. The average number of LBs within the inner plexiform layer in KO mice were 1743 ± 533 and 2615 ± 915 per mm2, at 10 and 14 months, respectively. This is the first study to characterize the retinal phenotype in an Epm2a−/− mouse model, demonstrating significant LB deposition in the bipolar cell nuclear layer and its synapses. This finding may be used to monitor the efficacy of experimental treatments in mouse models.

EEG Patterns Orienting to Lafora Disease Diagnosis-A Case Report in Two Beagles

Lafora Disease (LD) is a rare, fatal, late-onset, progressive form of myoclonic epilepsy, occurring in humans and dogs. Clinical manifestations of LD usually include seizures, spontaneous and reflex myoclonus with contractions of the neck and limb muscles. We studied the electroencephalogram (EEG) patterns of two beagles in whom LD was subsequently confirmed by genetic testing. In both cases, the EEG recordings, accompanied by electromyography (EMG), have shown similar uncommon patterns. The hypovoltaged background rhythm was interrupted by waxing “crescendo” polyspikes-slow wave complexes appearing 80–250 ms after the start of intermittent photic stimulation, followed by myoclonic jerks after 80–150 ms. This study highlights the value of EEG in establishing a presumptive diagnosis of LD in dogs.

The presenting symptoms of Lafora Disease: An electroclinical and genetic study in five Apulian (Southern Italy) families

PURPOSE

To elucidate the presenting symptoms of Lafora Disease (LD) to differentiate it from Juvenile Myoclonic Epilepsy (JME).

METHODS

We collected and evaluated the early electroclinical data of 5 unrelated Apulian (Southern Italy) LD families, 30 LD patients selected from the literature, and 30 Apulian JME patients.

RESULTS

The Apulian LD patients presented with generalised tonic-clonic and focal visual seizures, followed by myoclonic seizures and action-postural myoclonus. In these patients, EEG background slowing and occipital epileptiform abnormalities were significantly more evident than in the other groups. Genetic analysis revealed the presence of mutations in the EPM2A gene in 4 families, and in the NHLRC1 gene in the remaining family. In detail, we identified 2 different point mutations in EPM2A and only 1 in NHLRC1, and expanded the molecular spectrum of the EPM2A gene mutations reporting for the first time a patient carrier of the c.243_246del genetic variant. In the previously reported LD cases, generalised tonic-clonic and focal visual seizures and myoclonus were the most frequent symptoms, as confirmed by the first EEGs showing occipital or diffuse epileptiform abnormalities with photosensitivity in the background activity slowing. In the Apulian JME patients, myoclonus appeared earlier, usually at awakening, with diffuse epileptiform abnormalities during sleep and photosensitivity in the normal background activity. The diagnosis of JME was established much earlier than the LD one. During evolution, unlike JME patients, LD patients showed a significant resistance to drugs.

CONCLUSIONS

Tonic-clonic and focal visual seizures followed by myoclonic seizures and action-postural myoclonus together with EEG background slowing with diffuse and occipital epileptiform abnormalities suggest a diagnosis of LD. An early molecular confirmation allows a better diagnosis, counselling and management of affected patients and their families, and it may be useful to improve the patients' quality of life using, when possible, emerging personalized treatments that may slow the evolution of the disease.

Periodic electroencephalogram discharges in a case of Lafora body disease: An unusual finding

Lafora body disease (LBD) is a form of progressive myoclonic epilepsy, characterized by seizures, myoclonic jerks, cognitive decline, ataxia, and intracellular polyglucosan inclusion bodies (Lafora bodies) in the neurons, heart, skeletal muscle, liver, and sweat gland duct cells. Electroencephalogram (EEG) findings in LBD may include multiple spikes and wave discharges, photosensitivity, multifocal epileptiform discharges, and progressive slowing in background activity. Periodicity in epileptiform discharges has not been frequently depicted in LBD. We herein report an unusual case of LBD who showed generalized periodic epileptiform discharges in EEG.

Epilepsy in children--when should we think neurometabolic disease?

Seizures are often the first manifestation of central nervous system dysfunction and are common in many inborn errors of metabolism, especially in neonates, infants, and children. A high index of suspicion is required to diagnose inborn errors of metabolism as the cause of seizures. It is also important to recognize these metabolic disorders early, as specific disease-modifying treatments are available for some with favorable long-term outcomes. This review discusses the classification of metabolic disorders as a cause of seizures based on pathogenesis and age and proposes a tiered approach for cost-effective diagnosis of metabolic disorders.

Lafora disease: epidemiology, pathophysiology and management

Lafora disease is a rare, fatal, autosomal recessive, progressive myoclonic epilepsy. It may also be considered as a disorder of carbohydrate metabolism because of the formation of polyglucosan inclusion bodies in neural and other tissues due to abnormalities of the proteins laforin or malin. The condition is characterized by epilepsy, myoclonus and dementia. Diagnostic findings on MRI and neurophysiological testing are not definitive and biopsy or genetic studies may be required. Therapy in Lafora disease is currently limited to symptomatic management of the epilepsy, myoclonus and intercurrent complications. With a greater understanding of the pathophysiological processes involved, there is justified hope for future therapies.

Progressive myoclonic epilepsies: a review of genetic and therapeutic aspects

The progressive myoclonic epilepsies (PMEs) are a group of symptomatic generalised epilepsies caused by rare disorders, most of which have a genetic component, a debilitating course, and a poor outcome. Challenges with PME arise from difficulty with diagnosis, especially in the early stages of the illness, and further problems of management and drug treatment. Recent advances in molecular genetics have helped achieve better understanding of the different disorders that cause PME. We review the PMEs with emphasis on updated genetics, diagnosis, and therapeutic options.

Bioptically demonstrated Lafora disease without EPM2A mutation: a clinical and neurophysiological study of two sisters

Lafora disease (LD) is an autosomal recessive inherited form of progressive myoclonic epilepsy with dementia and ataxia, usually presenting in the second decade of life and inexorably progressing until death. Neuropathological hallmarks are Lafora bodies, intracytoplasmic inclusions that can be found in neurons and in other tissues. LD gene (EPM2A), mapping on chromosome 6, encodes for a tyrosine phosphatase protein called laforin. However, up to 20% cases of LD are not genetically linked to chromosome 6. We report two sisters affected from bioptically diagnosed LD but without evidence of EPM2A mutation. Although familial cases of LD are already reported in literature, our observation leads to some considerations on clinical-electrophysiological evolution as well as to remark the genetic heterogeneity of this condition. In addition, we report the good effect of the Levetiracetam for the treatment of myoclonus in these patients, also demonstrated by the electrophysiological findings.

[Lafora's disease and movement disorders: report of 2 cases]

Two cases of Lafora's disease with prominent movement disorders portraying rare initial manifestations are reported. In both patients, the first manifestations were cerebellar ataxia, dysartria and startle phenomenon. These symptoms occurred before seizures, myoclonic and progressive dementia, which are more well known as manifestations of Lafora's disease. The diagnosis was confirmed by the identification of PAS positive inclusion bodies in deep skin biopsy samples. Our patients presented an unexpected slow progression of the disease, with longer survival. Lafora's disease should be remembered among diseases causing slowly progressive ataxia associated with epileptic seizures.

Electroencephalogram in developmental delay: specific electroclinical syndromes

The electroencephalogram (EEG) plays an important role in the evaluation of a child with developmental delay. An EEG is often required to classify seizures in children with developmental delay. Equally important is the role of the EEG in the identification of specific electroclinical syndromes in children who may or may not manifest seizures. Specific electroclinical syndromes include the acquired epileptiform aphasia syndrome, Landau-Kleffner syndrome, and electrical status epilepticus during slow wave sleep. Other clinical situations where the EEG offers diagnostic and prognostic information, such as subacute sclerosing encephalitis, progressive myoclonus epilepsies, Rett syndrome, and Lennox Gastaut syndrome are also discussed.