Effect of combined physical training on cognitive function in people with epilepsy: Results from a randomized controlled trial

Mechanistic insights into Quetiapine's Protective effects on cognitive function and synaptic plasticity in epileptic rats

The study aimed to examine the effects of Quetiapine, an atypical antipsychotic medication with purported neuroprotective qualities, on cognitive function and synaptic plasticity in epileptic rats. This investigation also sought to elucidate the mechanisms by which quetiapine influences the activity of the cyclic adenylate response element binding protein (CREB)/brain-derived neurotrophic factor (BDNF) signaling pathway and metallomatrix proteinase-9 (MMP9) expression in the context of epilepsy. The epileptic model was induced in rats through the administration of pilocarpine, with normal rats serving as the control group. Within the epilepsy group, two subgroups were established: one receiving normal saline and the other receiving quetiapine. Behavioral assays were utilized to assess learning, memory, and spatial exploration abilities. Furthermore, Western blot analysis, immunohistochemistry (IHC), and immunofluorescence (IF) staining were employed to evaluate the activity of the CREB/BDNF pathway, expression of MMP9 protein, and levels of synaptic plasticity-related proteins. Our study revealed that Quetiapine administration led to a notable enhancement in learning and memory in epileptic rats, as indicated by heightened drinking durations and visitation rates in behavioral assessments. Furthermore, Quetiapine upregulated the expression of pro-BDNF, m-BDNF, p-CREB, and CREB within the hippocampus, along with elevating mRNA levels of BDNF and CREB. Additionally, Quetiapine suppressed MMP-9 expression and promoted synaptic plasticity by augmenting SYN and PSD-95 expression levels in the hippocampus. Therefore, Quetiapine improved cognitive functions such as learning, memory, and spatial exploration in epileptic rats. Moreover, Quetiapine activated the CREB/BDNF signaling pathway, suppressed MMP-9 expression, and promoted synaptic plasticity.

Physical exercise habits in people with epilepsy: A survey from Brazilian population

This survey evaluated the Brazilian population's physical exercise habits and compared them with those from two decades ago. In this cross-sectional study, 432 people with epilepsy (PWE) assessed the questionnaire. Of these, 387 (age: 33 ± 10.58, 81.4 % women) completed the questionnaire. Among them, 60.5 % were involved in regular physical activities. Among those who exercise regularly, the majority (96.5 %) exercised between 2 and 5 times weekly and had been physically active for at least two years. Only 23.3 % were prohibited by their doctors from participating in physical activities. Only 10 % reported that seizures occur during exercise, and about half of them (55.8 %) believed that exercise improves or has no effect on seizure frequency. Most (79.06 %) did not or rarely believe exercise can trigger seizures. More than half (57.3 %) were not afraid to have seizures during exercise or were not afraid of injury during exercise due to a seizure (69 %). Most believed exercise improves cognition (80.9 %), depression, and anxiety (93.8 %). We visited this scenario two decades early. In our previous study, only 15 % exercised regularly, while in this survey, 58.4 % routinely exercised. Our findings also align with our initial survey, indicating a low seizure frequency during regular exercise, a belief that physical activity reduces seizure frequency, and a reduction in the fear that exercise might trigger seizures. In conclusion, our results show that after two decades, there have been several improvements in physical and sports activity participation among PWE. Implementing strategies to reduce barriers to exercise for PWE and educating them on the benefits of physical activity can help improve this scenario.

Effects of exercise combined with cognitive dual-task training on cognitive function and sustained effects in stroke patients: a systematic review and meta-analysis

OBJECTIVES

We investigated the effect of exercise combined with cognitive dual-task training on the improvement of cognitive function in stroke patients by conducting a systematic review and meta-analysis of current relevant studies.

METHODS

Four electronic databases, PubMed, Web of Science, Cochrane Library, and Embase, were searched for randomized controlled trials (RCTs) on the effects of exercise combined with cognitive dual-task training on cognitive function in patients with stroke that were publicly available from the starting year of the databases to 10 July 2024.

RESULTS

A total of 14 RCTs were included. Statistical results showed that exercise combined with cognitive dual-task training had a small effect size improvement in cognitive function for stroke patients (SMD = 0.41, 95% CI: [0.26, 0.57], p = 0.00). Moreover, persistent effects on cognitive functioning were observed after the end of the intervention (SMD = 0.24, 95% CI: [0.05, 0.43], p = 0.01). Subgroup analyses revealed that working memory, cognitive flexibility, total execution function, and total cognitive function had significant improvements in the cognitive function dimension group. Subgroup analyses of different exercise modalities, intervention periods, and different forms of control revealed significant differences within each subgroup.

CONCLUSIONS

Exercise combined with cognitive dual-task training significantly improves cognitive function in stroke patients with favorable sustained effects.

Self-reported exercise engagement and seizure control - A preliminary survey of people with epilepsy at a safety-net hospital

Benefits of exercise on general health and wellbeing are undeniable. The International League Against Epilepsy has provided some guidance into exercise and sports for epilepsy. However, people with epilepsy are typically misinformed and restricted by fear and lack of evidence about exercise benefits in epilepsy. Our study seeks to investigate engagement in exercise in epilepsy at our center and identify potential barriers to physical activity. We conducted an anonymous survey at the Epilepsy Clinic using a clinically validated measure of exercise (IPAQ) at various levels: vigorous, moderate, and walking, and a questionnaire of 21 potential reasons for inactivity. Data were collected in REDCap. Statistical analysis was performed on SAS. We collected responses from 72 epilepsy participants between January and April 2024. Participants with controlled seizures were more likely to engage in moderate exercise compared to respondents with uncontrolled seizures. The top two general perceived barriers were having no one to exercise with and not liking exercise. Epilepsy-specific barriers were higher in respondents with uncontrolled seizures compared to those with controlled seizures, with the top two reasons being fear of "exercise-induced" seizures and lack of guidance on appropriate exercises. Our findings showed that there were more participants with controlled seizures who perform moderate exercise compared to those with uncontrolled seizures. Future studies are needed to evaluate whether exercise can have an impact on improving seizure control. Our study also highlights opportunities to educate health care providers, patients, and community members about exercise to facilitate engagement in exercise and improve epilepsy outcomes.

Exercise, memory, and the hippocampus: Uncovering modifiable lifestyle reserve factors in refractory epilepsy

Physical exercise is an emerging target for improving cognition in aging and neurological disease. Due to the beneficial impact of exercise on hippocampal health and the vulnerability of the hippocampus in medication-resistant temporal lobe epilepsy (TLE), exercise could present a promising intervention in TLE. We investigated whether exercise engagement is associated with verbal memory function and hippocampal integrity in 29 young to middle-aged adults with refractory TLE and 21 demographically matched controls. Participants completed a self-reported questionnaire of weekly exercise, three tests of verbal memory, and a subset (n = 44) underwent structural MRI. Individuals with TLE self-reported lower exercise scores than controls across all levels of exercise intensity (p < 0.001). In TLE, greater exercise engagement was associated with better verbal memory (word-list recall and associative learning; rho = 0.46-0.47; ps FDR < 0.05), and with larger contralateral hippocampal volumes (rho = 0.61; p < 0.01). These effects remained significant when controlling for epilepsy-related and demographic factors. Within the limitations of a cross-sectional observational study, these findings suggest that exercise may be a cognitive reserve factor in TLE, potentially mitigating memory decline by enhancing contralateral hippocampal integrity. With future replication and longitudinal studies to clarify the causal pathways of these relationships, exercise holds promise as a low-cost, accessible, and modifiable lifestyle target for improving cognitive health in individuals with refractory TLE.

Proceedings of the 2022 "Lifestyle Intervention for Epilepsy (LIFE)" symposium hosted by Cleveland Clinic

Lifestyle interventions are strategies used to self-manage medical conditions, such as epilepsy, and often complement traditional pharmacologic and surgical therapies. The need for integrating evidence-based lifestyle interventions into mainstream medicine for the treatment of epilepsy is evident given that despite the availability of a multitude of treatments with medications and surgical techniques, a significant proportion of patients have refractory seizures, and even those who are seizure-free report significant adverse effects with current treatments. Although the evidence base for complementary medicine is less robust than it is for traditional forms of medicine, the evidence to date suggests that several forms of complementary medicine including yoga, mindfulness meditation, cognitive behavioral therapy, diet and nutrition, exercise and memory rehabilitation, and music therapy may have important roles as adjuncts in the treatment armamentarium for epilepsy. These topics were discussed by a diverse group of medical providers and scientists at the "Lifestyle Intervention for Epilepsy (LIFE)" symposium hosted by Cleveland Clinic. PLAIN LANGUAGE SUMMARY: There are many people with epilepsy who continue to have seizures even though they are being treated with medication or brain surgery. Even after seizures stop, some may experience medication side effects. There is research to suggest that certain lifestyle changes, such as yoga, mindfulness, exercise, music therapy, and adjustments to diet, could help people with epilepsy, when used along with routine treatment. Experts discussed the latest research at the "Lifestyle Intervention for Epilepsy (LIFE)" symposium hosted by Cleveland Clinic.

Trends and disparities in the prevalence of physical activity among US adults with epilepsy, 2010-2022

BACKGROUND

Physical activity may be associated with health benefits for people with epilepsy. It remains unclear how the prevalence of physical activity has changed at a national level over the years and whether this prevalence varies between subgroups.

METHODS

The National Health and Interview Survey, which was conducted from 2010 to 2017 and again in 2022, was used for our nationally representative study. This study explored the trends and disparities in meeting physical activity guidelines among US individuals with epilepsy and non-epilepsy adults.

RESULTS

The prevalence of adults with epilepsy meeting physical activity guidelines was consistently lower and remained unchanged compared to those without epilepsy. Among the population with epilepsy, the prevalence of aerobic physical activity was 38.1 % (95 % CI, 32.6 %-43.5 %) in 2010 and 39.0 % (95 % CI, 33.4 %-44.7 %) in 2017 (P for trend = 0.84), and remained unchanged in 2022 (39.1 %). For muscle-strength training, the prevalence was 17.5 % (95 % CI, 13.3 %-21.7 %) in 2010 and 18.8 % (95 % CI, 14.8 %-22.8 %) in 2017 (P for trend = 0.82). The prevalence for both activities combined was 12.4 % (95 % CI, 8.7 %-16.2 %) in 2010 and 16.6 % (95 % CI, 12.8 %-20.5 %) in 2017 (P for trend = 0.26). The prevalence of aerobic physical activity varied by educational attainment, body mass index, comorbid conditions, alcohol-drinking status, and epilepsy status.

CONCLUSION

This study suggests that the adherence rate to meeting physical activity guidelines among US adults with epilepsy was at a low level and had not improved over time. This finding highlights the need for additional nationwide efforts to promote physical activity in the US population with epilepsy.

Effects of physical activity on cognition and psychosocial functioning in pediatric epilepsy: A systematic review

Pediatric patients with epilepsy often have psychosocial and cognitive difficulties. Physical activity has emerged as a lifestyle modification that may reduce seizure burden, enhance brain plasticity, and improve cognitive and psychosocial comorbidities. We systematically reviewed published studies examining the effect of physical activity on cognitive and psychosocial function in children and adolescents with epilepsy. Studies were identified with PubMed and Emory Library databases. Eleven studies met inclusion criteria. Six of 10 studies related to psychosocial outcomes showed benefits of physical activity in children and adolescents with epilepsy, including improvements in internalizing symptoms, relationships, self-esteem, and psychological well-being, but four of the 10 studies showed no psychosocial benefits. Of the six studies evaluating cognitive outcomes, all six indicated that physical activity was associated with cognitive improvements in pediatric epilepsy, including areas of attention, processing speed, executive function, and memory. Our review was limited by the paucity of published studies on this topic, and the use of different measurement tools limited our ability to make direct comparisons between studies. Additional studies that compare pediatric epilepsy populations to non-epilepsy control groups are needed to better understand how physical activity affects seizure control and epilepsy-related comorbidities.

Lifestyle Behavioral Interventions and Health-Related Outcomes Among People with Epilepsy: A Review of Randomized Controlled Trials

OBJECTIVE

To gather and assess current literature on the prevalence and efficacy of lifestyle behavioral interventions (sleep, nutrition, physical activity) for health outcomes, including QOL, psychological well-being, behavioral changes, and seizure frequency, among PWE.

DATA SOURCE

A review was conducted of English-language articles identified from PubMed, Scopus, and Embase between January 2013 to January 2023.

STUDY INCLUSION AND EXCLUSION CRITERIA

Inclusion criteria were randomized controlled trials (RCT) with human subjects diagnosed with epilepsy who participated in a lifestyle behavioral intervention.

DATA EXTRACTION

Two researchers independently completed the title, abstract, and full-text reviews. Information extracted includes study population, duration, type of intervention, findings, and outcomes.

DATA SYNTHESIS

Data was narratively synthesized to show level of evidence and degree of consistency in findings. Results: 4001 studies identified, 66 full texts reviewed, and 24 included. A majority (n = 16) of studies utilized diet specific RCTs, and some focused on physical activity (n = 7) and sleep (n = 1). Diet-specific RCTs (eg, ketogenic, Modified Atkins) reported reduced seizure frequency with adverse effects, such as gastrointestinal complications. Physical activity-based interventions found that maintained levels of exercise improved QOL and psychological well-being. However, physical activity and diet-based interventions did not have lasting effects after study conclusion. Only the behavioral sleep intervention reported that sleep quality improved significantly and was maintained post-intervention.

CONCLUSION

Future research is needed to establish the relationship between lifestyle behavioral interventions on QOL and other health outcomes (eg, seizure frequency).

Effects of exercise on sleep in patients with epilepsy: A systematic review

Exercise interventions in epilepsy have been shown to improve seizure frequency, physical capacity, quality of life, mood, and cognitive functioning. However, the effectiveness of exercise in improving sleep in epilepsy is less clear. The purpose of this report is to identify the published literature regarding exercise interventions in people with epilepsy to determine 1) what proportion of published clinical trials assess sleep as an outcome, and 2) what benefits of exercise interventions on sleep have been observed. We searched the PubMed, PsycINFO, and SCOPUS electronic databases using the search terms "epilepsy AND [exercise OR physical activity]" and identified 23 articles reporting on 18 unique clinical trials. Nine studies were conducted in adults, five in children, and four in adults and children with active seizures, controlled seizures, or both. Exercise modalities included aerobic exercise, strength training, walking, and yoga, among others, and some also included educational and motivational components. Exercise effects on sleep were tested in four studies, two of which only included indirect measures of sleep- and rest-related fatigue, with mixed results. Of the two reports assessing sleep directly, one reported marginal non-significant improvements in subjective sleep quality and no improvements in objective sleep quality in children after twelve weeks of walking, and the other reported no benefits in subjective sleep quality after twelve weeks of combined aerobic, strength, and flexibility training in adults. Given the health benefits of sleep and detrimental effects of sleep deprivation in epilepsy, epilepsy researchers need to assess the effects of exercise interventions on sleep.

Association between cognitive impairment and antiseizure medication adherence among people with epilepsy in Addis Ababa, Ethiopia

BACKGROUND

Cognitive impairment is one of the most common and most troublesome comorbidities among people with epilepsy (PWE). Adherent use of antiseizure medications (ASM) can control seizure episodes in 70% of the cases. However, the relationship between adherent use of ASMs and cognitive impairment in epilepsy is complex.

OBJECTIVE

To assess the association between adherence to ASMs and cognitive status among PWE.

METHODS

We performed a cross-sectional observational study with prospective data collection from PWE using translated and content-validated Amharic versions of the Montreal cognitive assessment tool (MOCA-B) and a four-item Morisky Medication Adherence Scale (Morski-4). Ordinal logistic regression analysis was performed to evaluate the potential risk factors for cognitive impairment, including ASM adherence, physical exercise, and level of education.

RESULTS

A total of 214 individuals with epilepsy were included in this study; 53.7 % were female, and the mean age was 34 years ± 12. The mean age at seizure occurrence was 19 years ± 9. The most common epilepsy type among participants was generalized epilepsy (69 %). The prevalence of poor medication adherence to ASM was 54.2 %. The prevalence of mild cognitive impairment was 65.4 %, and 18.2 % had moderate cognitive impairment, particularly affecting verbal fluency (60.8 %) and memory (43.9 %). Cognitive impairment was significantly associated with poor ASM adherence (AOR = 12.0, 95 %CI, (1.53, 93.75), lower level of physical exercise (AOR = 16.30, 95 %CI (1.24, 214.99), and poor educational attainment with both no formal education (AOR = 0.04, 95 %CI (0.02, 0.14)) and primary or secondary level education (AOR = 0.32, 95 %CI, (0.15, 0.70).

CONCLUSIONS

There is a high rate of cognitive impairment and non-adherence to ASMs in PWE living in Addis Ababa, Ethiopia. Poor ASM adherence is a possible risk factor for cognitive impairment. PWE can benefit from interventions to improve ASM adherence, physical exercise, and better educational attainment.

Epidemiology of engagement in physical activity behaviors in people with epilepsy from National Health Interview Survey 2017

OBJECTIVE

Physical activity (PA) participation may be beneficial for people with epilepsy (PWE) but has been discouraged due to a fear that it may induce seizures. Using data from the 2017 National Health Interview Survey, we aimed to describe current rates of PA sufficient to meet US PA Aerobic and Strength Training Guidelines (Aim #1), compare the average time PWE spend on aerobic activity and strength training activity (Aim #2), and compare rates of engagement with various types of PA (e.g., moderate, vigorous, strength training, and mind-body activities) among PWE to the general population (Aim #3).

METHODS

Cross-sectional data (n = 26,728) were analyzed via logistic and zero-inflated Poisson regression models. PA participation was analyzed based on the US PA Guidelines (neither, strength training [≥2 times/wk], moderate to vigorous physical activity [MVPA; ≥ 150 min/wk], or both; Aim #1), time spent on activity/week (Aim #2), and activity participation (yes/no; Aim #3). Epilepsy status was coded as active epilepsy (doctor-diagnosed and either taking antiepileptic medication or had at least one seizure in 12 months; n = 335), inactive epilepsy (doctor-diagnosed, not taking antiepileptic medication nor had a seizure in 12 months; n = 213), and no history of epilepsy (n = 26,180).

RESULTS

People with active epilepsy were more likely to report meeting neither (68 %, 95 % CI = 63-74 %) of the PA Guidelines compared to people with no history of epilepsy (59 %, 58-60 %). The mean duration of time reported on vigorous activity for people with inactive epilepsy was significantly higher than people with no history of epilepsy (p = 0.01). People with active epilepsy were 32-39 % less likely to report participating in any moderate or vigorous activity compared to people with no history of epilepsy.

SIGNIFICANCE

This study highlights activity disparities among PWE and the general population, indicating substantially lower activity and higher likelihood of inactivity in PWE, particularly active epilepsy.

Neuromorphometric associations with mood, cognition, and self-reported exercise levels in epilepsy and healthy individuals

Regular physical activity may promote beneficial neuroplasticity, e.g., increased hippocampus volume. However, it is unclear whether self-reported physical exercise in leisure (PEL) levels are associated with the brain structure features demonstrated by exercise interventions. This pilot study investigated the relationship between PEL, mood, cognition, and neuromorphometry in patients with idiopathic generalized epilepsy (IGEs) compared to healthy controls (HCs). Seventeen IGEs and 19 age- and sex-matched HCs underwent magnetic resonance imaging (MRI) at 3T. The Baecke Questionnaire of Habitual Physical Activity, Profile of Mood States, and Montreal Cognitive Assessment (MoCA) assessed PEL, mood, and cognition, respectively. Structural MRI data were analyzed by voxel- and surface-based morphometry. IGEs had significantly lower PEL (p < 0.001), poorer mood (p = 0.029), and lower MoCA scores (p = 0.027) than HCs. These group differences were associated with reduced volume, decreased gyrification, and altered surface topology (IGEs < HCs) in frontal, temporal and cerebellar regions involved in executive function, memory retrieval, and emotional regulation, respectively. These preliminary results support the notion that increased PEL may promote neuroplasticity in IGEs, thus emphasizing the role of physical activity in promoting brain health in people with epilepsy.

A single-center survey on physical activity barriers, behaviors and preferences in adults with epilepsy

BACKGROUND

Improved understanding of physical activity barriersand preferences in people with epilepsyis needed to successfully design and perform larger, more robust effectivenesstrials.

METHODS

Adult patients at a single tertiary epilepsy center between January and April 2020 were surveyed. The survey included a validated physical activity questionnaire (Physical Activity Scale for the Elderly) plus 15 items aimed to address 1) perceptions and beliefs regarding physical activity, 2) barriers to routine physical activity, and 3) willingness and ability to participate in a physical activity intervention and 4) current physical abilities, activities, and preferences.

RESULTS

95 participants with epilepsy (age 42 ± 16.2, 59 % female) completed the survey. Sixty-five participants (68.4 %) reported that they believe that physical activity could improve their seizure frequency. However, 40 % of those surveyed said their neurologist had never talked to them about physical activity. The most commonly reported barriers to physical activity were lack of time (24.7 %) and fear of having a seizure (19.7 %), while barriers to intervention participation included being unable to come to in-person sessions (53 % of those willing to participate),living far away (39.3 %), time constraints (28.6 %), and lack of transportation (21.4 %).

CONCLUSION

Future physical activity studies in people with epilepsy should focus on using tailored interventions that accommodate their unique beliefs and barriers.

Do people with epilepsy want to participate in an exercise intervention randomized controlled trial? - Results of a brief survey and its preliminary application

Our goal was to survey people with epilepsy (PWE) about their interest in and factors that may influence willingness and ability to participate in an exercise randomized controlled trial (RCT). A brief survey was administered to 100 PWE asking if they would take part in a hypothetical 6-week exercise intervention RCT. Follow-up questions queried reasons for and against participation and why participation would be difficult. Sixty-nine percent of respondents indicated willingness to participate. The top reason for participation was "to improve overall health with exercise" (n = 49). The top reason for why participation would be difficult was they "do not have a reliable source of transportation" (n = 27). The top reason for not participating was "not interested in research participation" (n = 19). Preliminary results were used to budget for transportation in a prospective RCT (NCT04959019). Of the first 27 PWE enrolled (63 % female; 44 % African American/Black), six (50 % female; 50 % African American/Black) have used the transportation service. The majority of PWE surveyed were interested in participating in an exercise RCT, but some indicated barriers. Accommodating transportation in an ongoing RCT has facilitated recruitment of PWE who would otherwise not be able to participate. Barriers to participation should be accounted for when designing studies.

Yoga and aerobic exercise in epilepsy: Study protocol for a randomized controlled trial

BACKGROUND

There has been a growing interest in demonstrating the health benefits of exercise among people with epilepsy in recent years. Although exercise is recommended for people with epilepsy, there is uncertainty concerning the effects of yoga and aerobic exercise on multiple health outcomes in epilepsy.

PURPOSE

The aim of this trial was to examine the effects of yoga and aerobic exercise training on physical activity, seizure frequency, health-related physical fitness, mental, emotional, and psychological health status, and quality of life.

METHODS

This study was designed as a single-center, 8-week, randomized controlled trial in a three-arm parallel group. Participants will be randomly allocated to yoga, aerobic exercise, or wait-list control groups. The primary outcome is physical activity/sedentary behavior measured by the ActiGraph GT9X accelerometer and seizure frequency. Secondary outcomes include functional capacity, lower extremity strength, balance, body composition, waist and hip circumference, cognition, depression, anxiety, perceived stress, fatigue, sleep quality, and quality of life. The outcomes will be evaluated at baseline and at 8 weeks of follow-up.

IMPLICATIONS OF PHYSIOTHERAPY PRACTICE

This study is the first randomized controlled trial comparing the effects of yoga and aerobic exercise among people with epilepsy. The findings of this study could provide important information about the effects of yoga and aerobic exercise training on a variety of health conditions in people with epilepsy.

TRIAL REGISTRATION

ClinicalTrials.gov identifier: NCT05066880, registered October 4, 2021.

Physical activity in adults with epilepsy: clinical aspects and relationship with cognition and quality of life

There are several factors associated with lower participation in regular physical activity (PA) in adult patients with epilepsy (PWEs).

Objective

To assess the relationship between the regular practice of PA with clinical and cognitive variables and quality of life (QoL) in PWEs.

Methods

Habitual Physical Activity Questionnaire (HPAQ) was related to clinical variables, scores on the Mini-Mental State Examination (MMSE), on the Brief Cognitive Battery-Edu (BCB-Edu), on the Satisfaction Scale for Physical Activity (SSPA), and on the Quality of Life in Epilepsy Inventory (QOLIE)-31 in 60 PWEs, with a significance level of p<0.05.

Results

The PWEs had a mean age of 42.4±13.6 years, 50% of whom were female. Longer length of epilepsy correlated with lower PA in leisure time (Pearson correlation [r]= -0.276; p-value [p]=0.036). The occupational physical activity scores of the HPAQ correlated positively with perception (r=0.300; p=0.021), memory (r=0.381; p=0.003), semantic verbal fluency test (SVF) (r=0.427; p=0.001), and with the total score in the MMSE (r=0.327; p=0.012). The total HPAQ score correlated with the SVF (r=0.336; p=0.009) and with the MMSE (r=0.254; p=0.049). There was no correlation among the QOLIE-31, the HPAQ, and the SSPA.

Conclusions

Longer duration of epilepsy was associated with the lower practice of PA. Physical activity was associated with better performance in aspects of cognition. There was no relationship between QoL and practice and satisfaction with PA, suggesting different psychosocial aspects involved.

The relationship between physical activity and cognitive function in people with epilepsy: A systematic review

BACKGROUND

This study aimed to systematically review the published literature evaluating the association between physical activity and cognitive function in people with epilepsy (PWE).

METHODS

A comprehensive search of PubMed, Cochrane, Embase, and PsychInfo was performed on June 20, 2022. Studies were excluded if they were not available in the English language, contained animal data only, did not include any original data, were not peer-reviewed, or did not include PWE as a discrete group. PRISMA guidelines were followed. The GRADE scale was used to assess the risk of bias.

RESULTS

Six studies were identified with a total of 123 participants. These included one observational study and five interventional studies, only one of which was a randomized controlled trial. In all studies, there was a positive association between physical activity and cognitive function in PWE. Both interventional studies showed improvement in at least one domain of cognitive functioning, though there was heterogeneity in the outcome measures used.

CONCLUSIONS

There is a potential positive association between physical activity and cognitive function in PWE, but available data is limited by heterogeneity, small sample size, and an overall lack of published studies in this area of research. There is a need for more robust studies to be performed in larger samples of PWE.

Effects of physical exercise in people with epilepsy: A systematic review and meta-analysis

BACKGROUND

Studies suggest that physical exercise lead to improvements in the psychosocial dimension, associated comorbidities as well as to a higher quality of life (QoL) in people with epilepsy. However, there is a need to provide evidence-based guidelines for its prescription. Therefore, this review aimed to systematically evaluate and meta-analyze the available data on the potential effects of physical exercise training programs in people with epilepsy.

METHODS

Four electronic databases (MEDLINE/PubMed, PEDro, SPORTDiscuss and Scopus) were searched systematically from their inception until April 2022 for randomized controlled trials (RCTs), comparative studies and non-controlled studies that provided information regarding the effects of physical exercise training programs on people with epilepsy. The studies' methodological quality assessment was performed using the PEDro, the MINORS and the Quality Assessment Tool for Before-After Studies with No Control Group scales. For the meta-analysis, inverse variance or generic inverse variance was use to report mean difference or standardized mean difference for continuous data and their 95% confidence intervals (CI). Heterogeneity was assessed with the Chi-squared test and I² test.

RESULTS

After removing duplicated studies, 82 results were retrieved by the literature search and 14 were eligible for full text search. Finally, 14 studies with a methodological quality ranging from good to low quality met the inclusion criteria. Totally, 331 people with epilepsy were evaluated. Significant changes between preand post-intervention results in the exercise intervention groups were observed for QoL, fitness level, psycho-affective and neurocognitive outcomes. Findings from the meta-analysis indicated that moderate exercise led to a non-significant decrease (p = 0.08, Chi-squared test) in seizure frequency (SMD 0.33 95% CI 0.04; 0.70), while a significant effect of exercise was observed on QoL with a mean improvement of 4.72 percentage points (95% CI 0.58; 8.86, p = 0.03).

CONCLUSION

Improvements on QoL, fitness level, psycho-affective and neurocognitive outcomes can be achieved through exercise training in people with epilepsy. Altogether, the findings suggest that people with epilepsy can benefit from exercising.

Considering social determinants of health in the relationship between physical activity and exercise engagement and cognitive impairment among persons with epilepsy

Many persons with epilepsy (PWE) are not as active or physically fit as compared to the general population. This lack of engagement in physical activity has been attributed to a number of factors, few of which take into consideration the social determinants of health (SDH). In this perspective, we highlight how SDH are considered in explaining lower levels of physical activity engagement among PWE, particularly for those experiencing cognitive impairment. We also discuss how these data can be applied in research to yield a greater impact on the quality of life among PWE. Consideration of SDH allows for increased understanding of how cognition can be both a determinant of physical activity and an outcome of environments conducive to physical activity in PWE.

Neurologists' knowledge of and attitudes toward physical exercise for people with epilepsy in Latin America

INTRODUCTION

Despite the favorable effects of exercise in people with epilepsy (PWE), the lower participation in physical/sports activities may be partly due to inadequate knowledge and attitudes of health professional about their benefits. In this regard, in 2016, the International League Against Epilepsy (ILAE) through its Task Force on Sports and Epilepsy published a consensus paper that provided general guidance concerning participation in exercise/sport activities for PWE. We investigated views and attitudes toward physical exercise practice among neurologists in Latin America.

METHODS

A 22-item cross-sectional online questionnaire-based study among neurologists included the following: (1) profile of participating neurologists, (2) doctors' attitudes and perceptions about physical/sport activities for PWE, and (3) neurologist experience concerning patient's report about their involvement in physical/sport activities.

RESULTS

In total, 215 of 519 neurologists from 16 different countries returned the questionnaire. Although about one-third of neurologists had no information about the effect of exercise on epilepsy, and 60% of them did not know the published recommendations of the ILAE Task Force on Sports and Epilepsy, the majority (92.5%) advised the practice of exercise, were aware of sport activities for their patients and agreed that exercise can reduce comorbidities associated with epilepsy (X² = 249.34; p < 0.001). Most of the neurologists did not believe that exercise is a seizure-inducing factor, but more than half would restrict their patients with uncontrolled seizures for exercise practice (X² = 250.77; p < 0.001). Most barriers considered by PWE in the past, currently are not viewed by neurologists and their patients (X² = 249.34; p < 0.001).

CONCLUSION

While this study reveals that neurologists have some knowledge gaps in attitudes toward physical exercise for PWE, encouraging attitudes were observed by neurologists. Considering that physicians can impact on patient confidence and decision, a better communication between neurologists and their patients concerning the benefits of exercise can increase PWE participation in physical/sports activities. To improve this scenario, more efforts should be made to increase the neurologists' knowledge and perceptions on this issue.

Application of Unsupervised Transfer Technique Based on Deep Learning Model in Physical Training

The research purpose is to study the standardization and scientizing of physical training actions. Stacking denoising auto encoder (SDAE), a BiLSTM deep network model (SDAL-DNM) (a kind of training action model), and an unsupervised transfer model are used to deeply study the action problem of physical training. Initially, the physical training action discrimination model adopted here is a combination of stacked noise reduction self-encoder and bidirectional depth network model. Then, this model can collect data for five actions in physical training and further analyze the importance of action standardization for physical training. Afterward, the SDAL-DNM implemented here fully integrates the advantages of SDAE and BiLSTM. Finally, the unsupervised transfer model adopted here is based on SDAL-DNM deep learning (DL). The movement data of the physical training crowd are collected, and then the unsupervised transfer model is trained. According to the movement characteristics of physical training, the data difference between trainers is calculated so that the actions of each trainer can be continuously adapted according to the model, and finally, the benefits of effectively distinguishing the training actions can be achieved. The research shows that before and after unsupervised learning, the average decline of the model used is 1.69%, while the average decline of extreme learning machine (ELM) is 5.5%. The conclusion is that the unsupervised transfer model can improve the discrimination accuracy of physical training actions and provide theoretical support to effectively correct mistakes in physical training actions.

Effect of different physical activity training methods on epilepsy: A protocol for systematic review and meta-analysis

BACKGROUND

Over the past few decades, people with epilepsy were advised not to engage in sports based on the fear that sporting activity may cause injuries, potentially induce seizures, and have a negative effect on disease course. However, in recent years, numerous studies have indicated a positive role of physical exercise in reducing the frequency of seizures and improving health condition of patients with epilepsy. The purpose of this study was to compare the effects of different physical exercise programs on the symptomatology and health condition of individuals with epilepsy and provide guidance for selecting the optimal modality of physical exercise for patients with epilepsy via a meta-analysis of available literature.

METHODS

A literature search was carried out in MEDLINE via PubMed, Cochrane Library, EBSCO, Embase, China National Knowledge (CNKI), and Wan fang databases to gather relevant data about different physical exercise modalities and epilepsy. We will use Endnote X9 software for studies selection and Stata16.0 software for the data analysis.

RESULTS

This present study aimed to provide the most up to date evidence and recommendations for clinicians and epilepsy patients to choose an optimal type of exercise.

CONCLUSION

Aerobic exercise and resistance exercises both had a positive effect on epilepsy patients. Persons with epilepsy should be encouraged to participate in sports activities.INPLASY registration number: INPLASY202220070.

The Potential Role of Previous Physical Exercise Program to Reduce Seizure Susceptibility: A Systematic Review and Meta-Analysis of Animal Studies

Background: Clinical and pre-clinical studies indicate a reduction in seizure frequency as well as a decrease in susceptibility to subsequently evoked seizures after physical exercise programs. In contrast to the influence of exercise after epilepsy previously established, various studies have been conducted attempting to investigate whether physical activity reduces brain susceptibility to seizures or prevents epilepsy. We report a systematic review and meta-analysis of different animal models that addressed the impact of previous physical exercise programs to reduce seizure susceptibility.

Methods: We included animal model (rats and mice) studies before brain insult that reported physical exercise programs compared with other interventions (sham, control, or naïve). We excluded studies that investigated animal models after brain insult, associated with supplement nutrition or drugs, that did not address epilepsy or seizure susceptibility, ex vivo studies, in vitro studies, studies in humans, or in silico studies. Electronic searches were performed in the MEDLINE (PubMed), Web of Science (WOS), Scopus, PsycINFO, Scientific Electronic Library Online (SciELO) databases, and gray literature, without restrictions to the year or language of publication. We used SYRCLE's risk of bias tool and CAMARADES checklist for study quality. We performed a synthesis of results for different types of exercise and susceptibility to seizures by random-effects meta-analysis.

Results: Fifteen studies were included in the final analysis (543 animals), 13 of them used male animals, and Wistar rats were the most commonly studied species used in the studies (355 animals). The chemoconvulsants used in the selected studies were pentylenetetrazol, penicillin, kainic acid, pilocarpine, and homocysteine. We assessed the impact of study design characteristics and the reporting of mitigations to reduce the risk of bias. We calculated a standardized mean difference effect size for each comparison and performed a random-effects meta-analysis. The meta-analysis included behavioral analysis (latency to seizure onset, n = 6 and intensity of motor signals, n = 3) and electrophysiological analysis (spikes/min, n = 4, and amplitude, n = 6). The overall effect size observed in physical exercise compared to controls for latency to seizure onset was −130.98 [95% CI: −203.47, −58.49] (seconds) and the intensity of motor signals was −0.40 [95% CI: −1.19, 0.40] (on a scale from 0 to 5). The largest effects were observed in electrophysiological analysis for spikes/min with −26.96 [95% CI: −39.56, −14.36], and for spike amplitude (μV) with −282.64 [95% CI: −466.81, −98.47].

Discussion:Limitations of evidence. A higher number of animal models should be employed for analyzing the influence of exerciseon seizure susceptibility. The high heterogeneity in our meta-analysis is attributable to various factors, including the number of animals used in each study and the limited number of similar studies. Interpretation. Studies selected in this systematic review and meta-analysis suggest that previous physical exercise programs can reduce some of the main features related to seizure susceptibility [latency seizure onset, spikes/min, and spike amplitude (μV)] induced by the administration of different chemoconvulsants.

Systematic Review Registration: PROSPERO, identifier CRD42021251949; https://www.crd.york.ac.uk/prospero/display_record.php?RecordID=251949.

Neurobehavioural comorbidities of epilepsy: towards a network-based precision taxonomy

Cognitive and behavioural comorbidities are prevalent in childhood and adult epilepsies and impose a substantial human and economic burden. Over the past century, the classic approach to understanding the aetiology and course of these comorbidities has been through the prism of the medical taxonomy of epilepsy, including its causes, course, characteristics and syndromes. Although this 'lesion model' has long served as the organizing paradigm for the field, substantial challenges to this model have accumulated from diverse sources, including neuroimaging, neuropathology, neuropsychology and network science. Advances in patient stratification and phenotyping point towards a new taxonomy for the cognitive and behavioural comorbidities of epilepsy, which reflects the heterogeneity of their clinical presentation and raises the possibility of a precision medicine approach. As we discuss in this Review, these advances are informing the development of a revised aetiological paradigm that incorporates sophisticated neurobiological measures, genomics, comorbid disease, diversity and adversity, and resilience factors. We describe modifiable risk factors that could guide early identification, treatment and, ultimately, prevention of cognitive and broader neurobehavioural comorbidities in epilepsy and propose a road map to guide future research.

Randomized controlled trial of moderate cardiovascular exercise for patients with drug-resistant epilepsy

OBJECTIVE

The primary research question of this study was whether a moderate cardiovascular exercise program can reduce seizure frequency in patients with focal drug-resistant epilepsy (DRE). The hypothesis is that cardiovascular fitness will reduce seizure frequency in persons with epilepsy (PWE).

METHODS

Twenty-eight patients were randomized into two groups; exercise or relaxation. The exercise group were given an ergometric bicycle sent to their home to be used for 150 min/week, 30 min/day for 5 days a week for the study period of 6 months. Participants in the relaxation group were given audio muscular relaxation exercises to be performed for 20 min at least five times per week for the study period of 6 months. Seizure counts and exercise/relaxation sessions were registered daily in a written diary. Both groups received monthly motivational telephone calls. Seizures, anxiety, and depression symptom ratings (Hospital Anxiety and Depression Scale (HADS)), health status ratings (RAND-36), aerobic capacity (estimated VO2max), self-efficacy for exercise (SEE), level of physical activity, and adverse events were measured at the baseline and after the 6 months of intervention. CONSORT guidelines were followed.

RESULTS

Twenty-two patients completed the intervention. There were no significant changes in seizure frequency in either of the groups. Six months of moderate exercise did increase the level of physical activity and maximal oxygen uptake.

SIGNIFICANCE

Moderate exercise did not affect seizure frequency in this study. The patients in the exercise group did increase their estimated VO2max, which is an important indicator for health, without deterioration of seizure frequency. This was accomplished with only minimal support from a physiotherapist every month. To exercise at home at a moderate intensity level with regular support may therefore be an option for patients with epilepsy. The patients in the exercise group increased their level of physical activity significantly, which indicates that they were compliant to the treatment.

Two-minute exercise testing is sufficient to estimate maximal cardiorespiratory fitness in people with epilepsy

We aimed to examine the agreement between submaximal cardiopulmonary exercise testing (CPET) measures and peak oxygen consumption (VO_2peak) in adults with epilepsy. Data from a randomized controlled trial with adults with epilepsy (N = 21) were analyzed. VO_2peak was assessed using indirect calorimetry during a treadmill graded maximal CPET. Oxygen uptake efficiency slope (OUES) was calculated from the relationship between oxygen uptake and minute ventilation during the entire test (OUES_peak) and the first 2 (OUES_2min), 3 (OUES_3min), and 4 (OUES_4min) minutes of the CPET. The strength of the association between measures was tested by Pearson correlation. Linear regression models were used to predict VO_2peak based on OUES from the different testing durations. Agreement between measured and predicted maximal values was tested using intraclass correlation coefficient (ICC) and Bland-Altman plots. OUES_2min, OUES_3min, and OUES_4min were highly associated with absolute (r = 0.84, r = 0.76, r = 0.75, respectively) and relative (r = 0.84, r = 0.78, r = 0.78, respectively) VO_2peak. Agreement (ICC = 0.83) between CPET-measured and OUES-predicted VO_2peak values was stronger with OUES_2min than the other time-based OUES markers. Bland-Altman plot showed satisfactory agreement between predicted and measured CPET measures with the narrowest limits of agreement observed with the OUES_2min. No potential bias was identified between these two measurements (p = 0.33). Changes in absolute (r = 0.77) and relative (r = 0.88) VO₂peak were highly associated with the change in OUES_2min. OUES_2min can be used as a surrogate for maximal cardiorespiratory fitness in adults with epilepsy. Studies with larger samples size are encouraged to confirm our findings in a more heterogeneous population.

Relationships between cognitive function, seizure control, and self-reported leisure-time exercise in epilepsy

Exercise may be a strategy for improvement of cognitive deficits commonly present in people with idiopathic generalized epilepsies (IGE). We investigated the relationship between cognition and level of physical exercise in leisure (PEL) in people with IGE who have been seizurefree for at least 6 months (IGE-) as compared to those who have not been seizurefree (IGE+) and healthy controls (HCs). We hypothesized that higher level of physical exercise is associated with better cognitive functioning in patients with IGE and HCs, and that seizure control affects both PEL levels and cognitive functioning in patients with IGE. We recruited 75 participants aged 18-65: 31 people with IGE (17 IGE-, 14 IGE+) and 44 HCs. Participants completed assessments of quality of life (SF-36), physical activity levels (Baecke questionnaire and International Physical Activity Questionnaire (IPAQ)) and cognition (Montreal Cognitive Assessment (MoCA), Hopkins Verbal Learning Test - Revised (HVLT), and flanker task). Group differences (HCs vs. IGE; HCs vs. IGE+ vs. IGE-) were assessed. Pearson correlations examined linear relationships between PEL and cognitive performance. Groups were similar in age and sex. Compared to HCs, patients with IGE had higher body mass index, fewer years of education, and consistently scored worse on all measures except flanker task accuracy on incongruent trials. When examining IGE- and IGE+ subgroups, compared to HCs, both had higher body mass index, and fewer years of education. Healthy controls scored significantly better than one or both of the IGE groups on SF-36 scores, PEL levels, IPAQ activity level, MoCA scores, HVLT learning and long-delay free-recall scores, and flanker task accuracy on congruent trials. Among patients with IGE, there were no significant differences between age of epilepsy onset, duration of epilepsy, number of anti-seizure drugs (ASDs) currently being used, or the group distribution of type of IGE. In the combined sample (IGE+, IGE- and HCs), PEL positively correlated with MoCA scores (Pearson's r = 0.238; p = 0.0397) and with flanker task accuracy on congruent trials (Pearson's r = 0.295; p = 0.0132). Overall, patients with IGE performed worse than HCs on cognitive and physical activity measures, but the cognitive impairments were more pronounced for IGE+, while physical exercise levels were less for patients with IGE regardless of seizure control. While positive relationships between leisure-time PEL and cognitive performance are promising, further investigations into how exercise levels interact with cognitive functioning in epilepsy are needed.

Effects of an exercise program on health of people with epilepsy: A randomized clinical trial

To evaluate the effects of an exercise program on the health of people with epilepsy (PWE) and seizure frequency. A randomized clinical trial was carried out in Pelotas/Brazil. Recruitment was conducted through social media, in local press, and Public Health System facilities. The intervention program was performed at the gym of the Physical Education School/Federal University of Pelotas. A total of 21 people, aged 18-60 years, diagnosed with epilepsy and who were not engaged in systematic physical exercise in the last three months were divided into two groups: (1) exercise (EG) - 12 weeks of a structured physical exercise program; (2) control (CG) - no exercise and maintenance of usual activities. The allocation rate 1:1 was used. The exercise program consisted of two 60-min weekly sessions including warm-up (5-min), aerobic training (15-25 min at 14-17 on Borg scale), resistance training (2-3 sets, 10-15 repetitions), and stretching. Sociodemographic, clinical and health variables (frequency and number of seizures, quality of life, depression, anxiety, and side effects), anthropometrics (weight, height, hip and waist circumferences), cardiorespiratory fitness (VO_2max), and strength (dynamometry) were measured at baseline and after the 12-week intervention. Generalized Estimating Equations (GEE) and Bonferroni posthoc tests were used for the comparison between moments and groups. Eleven participants were randomized to EG and 10 to CG. One EG participant did not complete the study. There was a reduction in frequency of epileptic seizures during the 3-month intervention period in EG (p = 0.010) with no improvement in CG. Improvement in quality of life (p = 0.004), stress levels (p = 0.017) and physical fitness (p = 0.017) were also observed in the EG compared to CG. A structured physical exercise program improved overall health of PWE and decreased seizure frequency.

The Contribution of Physical Exercise to Brain Resilience

Increasing attention has been given to understanding resilience to brain diseases, often described as brain or cognitive reserve. Among the protective factors for the development of resilience, physical activity/exercise has been considered to play an important role. Exercise is known to induce many positive effects on the brain. As such, exercise represents an important tool to influence neurodevelopment and shape the adult brain to react to life's challenges. Among many beneficial effects, exercise intervention has been associated with cognitive improvement and stress resilience in humans and animal models. Thus, a growing number of studies have demonstrated that exercise not only recovers or minimizes cognitive deficits by inducing better neuroplasticity and cognitive reserve but also counteracts brain pathology. This is evidenced before disease onset or after it has been established. In this review, we aimed to present encouraging data from current clinical and pre-clinical neuroscience research and discuss the possible biological mechanisms underlying the beneficial effects of physical exercise on resilience. We consider the implication of physical exercise for resilience from brain development to aging and for some neurological diseases. Overall, the literature indicates that brain/cognitive reserve built up by regular exercise in several stages of life, prepares the brain to be more resilient to cognitive impairment and consequently to brain pathology.

Getting Physical: A Specific Boost for Cognition in Epilepsy?

Effect of Combined Physical Training on Cognitive Function in People With Epilepsy: Results From a Randomized Controlled Trial

Feter N, Alt R, Häfele CA, et al. Epilepsia. 2020;61(8):1649-1658. doi:10.1111/epi.16588. PMID: 32602966.

Objective:

To examine the effect of 12-week exercise program on cognitive function in people with epilepsy.

Methods:

Twenty-one physically inactive patients were randomized into 2 groups: the exercise group (EG) or the control group. Exercise group performed 12 weeks of combined physical training. Control group was advised to maintain usual daily activities. Exercise group received a structured, individually supervised exercise program with two 60-minute sessions per week. Each session included warmup (5 minutes), aerobic (15-20 minutes at 14-17 on Borg scale), strength (2-3 sets, 10-15 repetitions), and 5-minute active stretches. Sociodemographic characteristics, clinical information, memory (Digit Span Test [DST]), executive function (Trail Making Test [TMT] A and B), Stroop Color and Word Test, a verbal fluency task, global cognitive function (Montreal Cognitive Assessment [MoCA]), anthropometric measurements (weight, height, and hip and waist circumferences), cardiorespiratory fitness (maximal oxygen consumption [V.o₂max]), and strength (dynamometer) were measured at baseline and after the 12-week intervention.

Results:

Exercise decreased time spent on TMT-A from baseline to postintervention (difference = −7.9 seconds, 95% CI = −14.5 to −1.3, P = .023). Exercise group improved total number of words on the verbal fluency task after intervention (difference = 8.1 words, 95% CI = 3.0-13.2, P = .002). Exercise group also improved the score on MoCA at 1.7 (95% CI = 0.1-3.3, P = .043) points. We observed a 22.4% (95% CI = 13.1-31.6, P = .021) improvement in executive function in EG. No effect of group, time, or group × time was observed on any other cognitive test. Changes in V˙o₂max were negatively associated with changes in performance on DST (r = −0.445, P = .049) and overall memory score (r = −0.544, P = .042).

Significance:

This randomized controlled trial provided the first evidence that combined physical training improves executive function in adults with epilepsy, showing main improvements in attention and language tasks. Physical exercise should be encouraged for people with epilepsy to reduce the burden on cognitive function associated with this disease.

Physical exercise and seizure activity

Neuroprotective and antiepileptogenic therapies have been extensively investigated for epilepsy prevention and treatment. This review gives an overview of the promising contribution of the ketogenic diet, a complementary treatment, on the intestinal microbiota to reduce seizure susceptibility. Next, the relevance of physical exercise is extensively addressed as a complementary therapy to reduce seizure susceptibility, and thereby impact beneficially on the epilepsy condition. In this context, particular attention is given to the potential risks and benefits of physical exercise, possible precipitant factors related to exercise and proposed mechanisms by which exercise can reduce seizures, and its antiepileptogenic effects. Finally, this review points to emerging evidence of exercise reducing comorbidities from epilepsy and improving the quality of life of people with epilepsy. Based on evidence from current literature, physical or sport activities represent a potential non-pharmacological intervention that can be integrated with conventional therapy for epilepsy.