Neurological complications during the Omicron COVID-19 wave in China: A cohort study.

BACKGROUND AND PURPOSE: The aim was to investigate the neurological complications associated with coronavirus disease 19 (COVID-19) during the 2022 Omicron wave. METHODS AND ANALYSIS: The medical records of a cohort of people admitted to neurological wards of three participating tertiary centres in Sichuan from 12 December 2022 to 12 January 2023 were reviewed. Demographics and clinical data were obtained and analysed with an interest in COVID-19-related new-onset or worse neurological symptoms. The current data were also compared in two centres with similar data from the same period 12 months earlier. RESULTS: In all, 790 people were enrolled, of whom 436 were positive for COVID-19. Ninety-nine had new onset COVID-related neurological problems, or their known neurological condition deteriorated during the wave. There was a significant difference in demographics from the findings amongst admissions 12 months earlier as there was an increase in the average age, the incidence of encephalitis and encephalopathy, and mortality rates. One hundred and one received COVID-specific antivirals, intravenous glucocorticoids and intravenous immunoglobulin therapy. No differences were seen between these and those who did not use them. CONCLUSION: New-onset neurological conditions, particularly encephalitis and encephalopathy, increased significantly during this period. Deterioration of existing neurological conditions, such as seizure exacerbation, was also observed. A large-scale treatment trial of people with COVID-19 infection presenting with neurological disorders is still needed.

Crucial role of the transcription factors family activator protein 2 in cancer: current clue and views.

The transcription factor family activator protein 2 (TFAP2) is vital for regulating both embryonic and oncogenic development. The TFAP2 family consists of five DNA-binding proteins, including TFAP2A, TFAP2B, TFAP2C, TFAP2D and TFAP2E. The importance of TFAP2 in tumor biology is becoming more widely recognized. While TFAP2D is not well studied, here, we mainly focus on the other four TFAP2 members. As a transcription factor, TFAP2 regulates the downstream targets directly by binding to their regulatory region. In addition, the regulation of downstream targets by epigenetic modification, posttranslational regulation, and interaction with noncoding RNA have also been identified. According to the pathways in which the downstream targets are involved in, the regulatory effects of TFAP2 on tumorigenesis are generally summarized as follows: stemness and EMT, interaction between TFAP2 and tumor microenvironment, cell cycle and DNA damage repair, ER- and ERBB2-related signaling pathway, ferroptosis and therapeutic response. Moreover, the factors that affect TFAP2 expression in oncogenesis are also summarized. Here, we review and discuss the most recent studies on TFAP2 and its effects on carcinogenesis and regulatory mechanisms.

COVID-19 vaccine take-up rate and safety in adults with epilepsy: Data from a multicenter study in China.

OBJECTIVE: This study was undertaken to investigate the COVID-19 vaccine uptake rate and possible postvaccination effects in adults with epilepsy. METHODS: We invited adults with epilepsy attending three centers in China from July 24 to August 31, 2021 to participate in this study. We also asked age- and sex-matched controls among people attending for other chronic neuropsychiatric conditions and healthy controls accompanying people with illness attending the hospitals to participate. We excluded people who, under the national guidelines, had evident contradictions to vaccination. Participants were interviewed face-to-face using questionnaires. Vaccine uptake and postvaccine adverse events among the people with epilepsy were compared with those with neuropsychiatric conditions and controls. We also compared the willingness and reasons for hesitancy among unvaccinated participants. RESULTS: We enrolled 981 people, of whom 491 had epilepsy, 217 had other neuropsychiatric conditions, and 273 were controls. Forty-two percent of those with epilepsy had had the first dose of a vaccine, compared with 93% of controls and 84% of the people with neuropsychiatric conditions (p < .0001). The majority (93.8%) of those immunized had inactivated vaccines. Among the unvaccinated people with epilepsy, 59.6% were willing to have the vaccine. Their main reasons for hesitation were potential adverse effects (53.3%) and concerns about losing seizure control (47.0%). The incidence of adverse events in the epilepsy group was similar to controls. Nineteen people with epilepsy reported an increase in seizure frequency. No episode of status epilepticus or prolonged seizures was reported. Two controls had their first-ever seizure, which was unlikely related to the vaccine. SIGNIFICANCE: The vaccine uptake rate in people with epilepsy was lower than in their same-age controls. The postvaccination effect was no higher than in controls. We found no evidence suggesting worsening seizures after vaccination. Measurement and education focused on increasing the vaccination rate in epilepsy are warranted.

Disease Progression in Patients with Parkin-Related Parkinson's Disease in a Longitudinal Cohort.

BACKGROUND: There was a paucity of follow-up studies in the disease progression of early-onset PD patients with Parkin mutations (Parkin-EOPD). Here we conducted a longitudinal study to investigate the progression of motor and cognitive features of Parkin-EOPD patients. METHODS: Genetic analysis was performed via target sequencing and multiplex ligation-dependent probe amplification. Thirty patients carrying homozygous or compound heterozygous Parkin mutations with at least 2 follow-up revisions were investigated as the Parkin-EOPD group. Fifty-two patients with at least 2 follow-up revisions, who did not have any known causative PD mutations, GBA or LRRK2 risk variants, a heterozygous Parkin mutation or 2 Parkin mutations without a segregation test, were defined as the genetically undefined EOPD (GU-EOPD) group. A linear mixed-effect model was implemented to evaluate longitudinal changes in motor symptoms and cognition. RESULTS: At baseline, the Parkin-EOPD group had a lower Unified Parkinson's Disease Rating Scale score (UPDRS-III) (off-medication) than the GU-EOPD group, without significant differences in cognition. A longitudinal study showed the estimated progression rate per year (standard error) of the UPDRS-III score (off-medication) was lower in the Parkin-EOPD group (0.203 [0.3162] points per year) than in the GU-EOPD group (1.056 [0.3001] points per year). The difference in the UPDRS-III score rate between the 2 groups was 0.853 (0.4183) (P = 0.042). The Parkin-EOPD group showed better maintenance of spatial processing ability compared with the GU-EOPD group (P = 0.027). CONCLUSION: Parkin-EOPD patients showed a slower deterioration of motor symptoms and a better spatial processing ability than GU-EOPD patients, which suggests that subtyping according to genetic features can help predict PD progression. © 2020 International Parkinson and Movement Disorder Society.

Association of consciousness impairment and mortality in people with COVID-19.

BACKGROUND: To investigate the association between impairment of consciousness and risk of death in people with COVID-19. METHODS: In this multicentre retrospective study, we enrolled people with confirmed COVID-19 from 44 hospitals in Wuhan and Sichuan, China, between 18 January and 30 March 2020. We extracted demographics, clinical, laboratory data and consciousness level (as measured by the Glasgow Coma Scale (GCS) score) from medical records. We used Cox proportional hazards regression, structural equation modelling and survival time analysis to compare people with different progressions of impaired consciousness. RESULTS: We enrolled 1,143 people (average age 51.3 ± standard deviation 17.1-year-old; 50.3% males), of whom 76 died. Increased mortality risk was identified in people with GCS score between 9 and 14 (hazard ratio (HR) 46.76, p < .001) and below 9 (HR 65.86, p < .001). Pathway analysis suggested a significant direct association between consciousness level and death. Other factors, including age, oxygen saturation level and pH, had indirect associations with death mediated by GCS scores. People who developed impaired consciousness more rapidly either from symptoms onset (<10 days vs. 10-19 days, p = .025, <10 days vs. ≥20 days and 10-19 days vs. ≥20 days, <.001) or deterioration of oxygen saturation (≤2 days vs.>2 days, p = .028) had shorter survival times. CONCLUSION: Altered consciousness and its progression had a direct link with death in COVID-19. Interactions with age, oxygen saturation level and pH suggest possible pathophysiology. Further work to confirm these findings explore prevention strategies and interventions to decrease mortality is warranted.

The potential neurological effect of the COVID-19 vaccines: A review.

The coronavirus disease 2019 caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has become a pandemic with people infected in almost all countries. The most efficient solution to end this pandemic is a safe and efficient vaccine. Classic platforms are used to develop vaccines including live-attenuated vaccine, inactivated vaccine, protein subunit vaccine, and viral vector. Nucleic acid vaccine uses next-generation platforms for their development. Vaccines are now rushing to the market. Eleven candidates are in advance development. These comprise inactivated vaccines, viral vector vaccine, nucleic acid vaccine, and the protein subunit vaccine platform, which are now quite advanced in trials in various geographic and ethnic populations. The reported severe adverse effects raised the worries about their safety. It becomes critical to know whether these vaccines will cause neurologic disorders like previously recognized vaccine-related demyelinating diseases, fever-induced seizure, and other possible deficits. We reviewed the most promising COVID-2 vaccines with a particular interest in mechanism(s) and adverse effect(s). We exemplify potential neurological problems these vaccines could cause by looking at previous studies. The current evidence indicated a minor risk of the acute neurological disorders after the application. The observation of the long-time effect is still needed.

New onset acute symptomatic seizure and risk factors in coronavirus disease 2019: A retrospective multicenter study.

Our aim was to clarify the incidence and risk of acute symptomatic seizures in people with coronavirus disease 2019 (COVID-19). This multicenter retrospective study enrolled people with COVID-19 from January 18 to February 18, 2020 at 42 government-designated hospitals in Hubei province, the epicenter of the epidemic in China; Sichuan province; and Chongqing municipality. Data were collected from medical records by 11 neurologists using a standard case report form. A total of 304 people were enrolled, of whom 108 had a severe condition. None in this cohort had a known history of epilepsy. Neither acute symptomatic seizures nor status epilepticus was observed. Two people had seizurelike symptoms during hospitalization due to acute stress reaction and hypocalcemia, and 84 (27%) had brain insults or metabolic imbalances during the disease course known to increase the risk of seizures. There was no evidence suggesting an additional risk of acute symptomatic seizures in people with COVID-19. Neither the virus nor potential risk factors for seizures seem to be significant risks for the occurrence of acute symptomatic seizures in COVID-19.

Telemedicine During the COVID-19 Pandemic: Experiences From Western China.

Disasters and pandemics pose unique challenges to health care delivery. As health care resources continue to be stretched due to the increasing burden of the coronavirus disease (COVID-19) pandemic, telemedicine, including tele-education, may be an effective way to rationally allocate medical resources. During the COVID-19 pandemic, a multimodal telemedicine network in Sichuan Province in Western China was activated immediately after the first outbreak in January 2020. The network synergizes a newly established 5G service, a smartphone app, and an existing telemedicine system. Telemedicine was demonstrated to be feasible, acceptable, and effective in Western China, and allowed for significant improvements in health care outcomes. The success of telemedicine here may be a useful reference for other parts of the world.

Structural basis for efonidipine block of a voltage-gated Ca2+ channel.

Efonidipine is a dual L-/T- type calcium channel blocker with a slow onset of action and a long lasting effect that exibihits antihypertensive and nephroprotective effects. differs from most other DHPs which can induce reflex tachycardia. Efonidipine reduces blood pressure without decreasing cardiac output and exerts organ-protective effects on the heart and kidney. In order to investigate how efonidipine block voltage-gated Ca2+ channel, we determined the crystal structure of CaVAb in complex with efonidipine at atomic resolution using x-ray crystallography. Our results reveal that efonidipine targets the central cavity of a model voltage-gated calcium channel underneath its selectivity filter and occlude the channel in an inactivated state. Binding of efonidipine does not break down the fourfold symmetry of the quaternary structure and its pore structure. Our work provides the structural basis for efonidipine block of a voltage-gated Ca2+ channel at the molecular level.

Gap Activity TOward Rags 1 variants in Chinese people with sporadic drug-resistant focal epilepsy.

OBJECTIVES: GATOR1 (Gap Activity TOward Rags 1) is composed of three different subunits, DEPDC5 (DEP domain-containing protein 5), NPRL2 (nitrogen permease regulator-like 2) and NPRL3 (nitrogen permease regulator-like 3), and variants in these three genes have mostly been reported in familial focal epilepsy. However, very few studies have been carried out on sporadic drug-resistant focal epilepsy patients. In this study, we aimed to identify the frequency of variants in DEPDC5, NPRL2 and NPRL3 in patients with sporadic drug-resistant focal epilepsy. MATERIALS & METHODS: One hundred and ninety-three Chinese people with sporadic drug-resistant focal epilepsy were enrolled in the study. Targeted sequencing of DEPDC5, NPRL2 and NPRL3 was applied at an average coverage depth of 2500×. RESULTS: In the 193 patients with sporadic focal epilepsy included in this study, the median age was 24.6 years with a median age at onset of 13.99 years, and 130 of these patients had identifiable structural lesions. One possibly pathogenic missense variant of DEPDC5, c.2984G>A, p.Arg995His, was found in one patient (0.52%) with hippocampal sclerosis, and one variant of unknown significance, DEPDC5 c.20A>G, p.Tyr7Cys, was found in two patients with hippocampal sclerosis (1.04%). CONCLUSIONS: Our findings suggested that DEPDC5 might be of more importance than NPRL2 or NPRL3 in Chinese epilepsy patients with sporadic drug-resistant focal epilepsy. Future research should focus on the mechanism by which the mechanistic target of rapamycin (mTOR) is involved in epileptogenesis in sporadic epilepsy.

Mitophagy in Refractory Temporal Lobe Epilepsy Patients with Hippocampal Sclerosis.

This study aimed to determine if there is an association between mitophagy and refractory temporal lobe epilepsy (rTLE) with hippocampal sclerosis. During epilepsy surgery, we collected tissue samples from the hippocampi and temporal lobe cortexes of rTLE patients with hippocampal sclerosis (as diagnosed by a pathologist). Transmission electron microscopy (TEM) was used to study the ultrastructural features of the tissue. To probe for mitophagy, we used fluorescent immunolabeling to determine if mitochondrial and autophagosomal markers colocalized. Fourteen samples were examined. TEM results showed that early autophagosomes were present and mitochondria were impaired to different degrees in hippocampi. Immunofluorescent labeling showed colocalization of the autophagosome marker LC3B with the mitochondrial marker TOMM20 in hippocampi and temporal lobe cortexes, indicating the presence of mitophagy. Mitochondrial and autophagosomal marker colocalization was lower in hippocampus than in temporal lobe cortex (P < 0.001). Accumulation of autophagosomes and mitophagy activation are implicated in rTLE with hippocampal sclerosis. Aberrant accumulation of damaged mitochondria, especially in the hippocampus, can be attributed to defects in mitophagy, which may participate in epileptogenesis.

Response to treatment schedules after the first antiepileptic drug failed.

OBJECTIVE: After the failure of the first antiepileptic drug (AED) at doses > 50% defined daily dose (DDD), there are three options for patients with epilepsy: combination therapy, alternative therapy, and increased dosage of the first AED. However, present studies have not provided evidence for which option is best. Therefore, we conducted this retrospective observational cohort study to compare the effects of three treatment schedules. METHODS: Patients diagnosed with newly diagnosed epilepsy at the epilepsy clinic of West China Hospital between August 2006 and February 2016 were evaluated for eligibility for this study. Patients who failed to respond to the first AED at doses > 50% DDD were included, and divided into three cohorts: increased dosage, combination therapy, and alternative therapy. Cumulative incidence curves for time to seizure freedom were compared for different cohorts by Gray test. Competing risk regression was conducted to evaluate the association of clinical predictors with seizure freedom. RESULTS: Altogether, 502 patients (277 male, 55.2%) were included for further analysis, and the median duration of follow-up was 32 months (range = 8-127). The probability of seizure freedom was significantly higher in patients receiving combination therapy (n = 323) compared to the alternative therapy cohort (n = 76, P < 0.001) and increased dosage cohort (n = 103, P = 0.025). Competing risk regression analysis showed that combination therapy significantly increased the probability of seizure freedom (hazard ratio [HR] = 2.423, 95% confidence interval [CI] = 1.529-3.841, P < 0.001). In addition, male sex and generalized seizure were significantly associated with increased probability of seizure freedom (male sex: HR = 1.440, 95% CI = 1.106-1.880, P = 0.007; generalized seizure: HR = 1.543, 95% CI = 1.176-2.020, P = 0.002). SIGNIFICANCE: Combination therapy may increase the probability of seizure freedom for patients with first AED failure due to lack of efficacy.

Epileptologists' attitudes toward physical exercise and sports for persons with epilepsy in China.

We undertook a survey among epileptologists in China to explore their attitudes toward physical exercise and sports for persons with epilepsy (PWEs). A total of 288 epileptologists participated. Most recognized the potential benefits of physical exercise and sports for PWEs, including improved cognitive function (74.6 %), alleviation of mental disorders (73.2 %), and enhanced quality of life (83.8 %). Epileptologists overwhelmingly agreed on the importance of discussing and encouraging physical exercise and sports for PWEs (97.4 % and 95.2 %, respectively). Before engagement in physical exercise and sports, most epileptologists considered that the duration of seizure-free status could be shorter if the seizures were typically focal, non-motor, or without impaired awareness (p < 0.05). There was consensus (99.1 %) on the need to grade the risk of related activities. Opinions were divided regarding the use of health certificates for restricting PWEs (favored by 63.2 %). The majority (93.9 %) called for an expert consensus or clinical guidelines in China. In conclusion, epileptologists in China generally demonstrate a positive attitude toward physical exercise and sports for PWEs. Both benefits and risks of these activities have generally been acknowledged. It is recommended to prioritize activities with lower risks and higher benefits. However, the recommendations for PWEs with a lower likelihood of recurrence and less risky seizure types can be more liberal. Urgent development of normative guidance from governmental and professional bodies is warranted.

Genetic and phenotypic analyses of PRRT2 positive and negative paroxysmal kinesigenic dyskinesia.

Background: Paroxysmal kinesigenic dyskinesia (PKD) is a rare neurological disorder, characterized by attacks of involuntary movements triggered by sudden action. Variants in proline-rich transmembrane protein 2 (PRRT2) are the most common genetic cause of PKD. Objective: The objective was to investigate the clinical and genetic characteristics of PKD and to establish genotype-phenotype correlations. Methods: We enrolled 219 PKD patients, documented their clinical information and performed PRRT2 screening using Sanger sequencing. Whole exome sequencing was performed on 49 PKD probands without PRRT2 variants. Genotype-phenotype correlation analyses were conducted on the probands. Results: Among 219 PKD patients (99 cases from 39 families and 120 sporadic cases), 16 PRRT2 variants were identified. Nine variants (c.879+4A>G, c.879+5G>A, c.856G>A, c.955G>T, c.884G>C, c.649C>T, c.649dupC, c.649delC and c.696_697delCA) were previously known, while seven were novel (c.367_403del, c.347_348delAA, c.835C>T, c.116dupC, c.837_838insC, c.916_937del and c.902G>A). The mean interval from onset to diagnosis was 7.94 years. Compared to patients without PRRT2 variants, patients with the variants were more likely to have a positive family history, an earlier age of onset and a higher prevalence of falls during pre-treatment attacks (27.14% versus 8.99%, respectively). Patients with truncated PRRT2 variants tend to have bilateral attacks. We identified two transmembrane protein 151A (TMEM151A) variants including a novel variant (c.368G>C) and a reported variant (c.203C>T) in two PRRT2-negative probands with PKD. Conclusion: These findings provide insights on the clinical characteristics, diagnostic timeline and treatment response of PKD patients. PKD patients with truncated PRRT2 variants may tend to have more severe paroxysmal symptoms. This study expands the spectrum of PRRT2 and TMEM151A variants. Carbamazepine and oxcarbazepine are both used as a first-line treatment choice for PKD patients.

Quality indicators for epilepsy management in China: The development of a tool to assess care and first three-year report.

OBJECTIVES: Epilepsy care in China has expanded considerably in the last decade but still remains largely unknown; we developed an easy-to-use tool to assess its quality. METHODS: We adapted the Epilepsy Update Quality Measurement, produced by the American Academy of Neurology (AAN) for use in China: The Quality Indicator for Epilepsy Treatment-China National Action (QUIET-CHINA). This tool incorporates a standardized case report form initially for logging quality indicators for people with epilepsy during in-patient stays. Nine quality indicators covered seizures, drugs, diagnostics, screening for co-morbid conditions, counseling for woman of child bearing age, and a composite indicator was further proposed by total number of interventions performed divided by the total number of people eligible in each indicator. The tool also has an electronic reporting and data feedback system. 96 epilepsy centers in 31 jurisdictions in mainland China have been piloted since 2017. RESULTS: Data from 11,600 individuals with epilepsy in the first 3-year study period were analyzed. The median age was 31; 60% were male. The composite indicators were 74%. Seizure freedom rate was less than 25% in all epilepsy types and post-surgical seizure freedom rate was 21%. 90% had seizure type and frequency, antiepileptic drugs recorded, while only 70% with active epilepsy were on regular antiepileptic drugs treatment. Investigations for diagnosis and etiology were performed in around 90% but screening for co-morbid conditions and counseling for women of childbearing potential was 38% and 15% respectively. Severe side effect happened in 2% individuals during the treatment. CONCLUSION: The preliminary results of the national action provided some baseline information. Except for an overall improvement, a significant treatment gap still exists, and psychiatric co-morbidities or issues affecting women are not seen as a priority. QUIET-CHINA will be expanded to more and other levels of hospitals, to help narrow the treatment gap and equalize the comprehensive epilepsy care on the national level.

Critical role of the gut microbiota in immune responses and cancer immunotherapy.

The gut microbiota plays a critical role in the progression of human diseases, especially cancer. In recent decades, there has been accumulating evidence of the connections between the gut microbiota and cancer immunotherapy. Therefore, understanding the functional role of the gut microbiota in regulating immune responses to cancer immunotherapy is crucial for developing precision medicine. In this review, we extract insights from state-of-the-art research to decipher the complicated crosstalk among the gut microbiota, the systemic immune system, and immunotherapy in the context of cancer. Additionally, as the gut microbiota can account for immune-related adverse events, we discuss potential interventions to minimize these adverse effects and discuss the clinical application of five microbiota-targeted strategies that precisely increase the efficacy of cancer immunotherapy. Finally, as the gut microbiota holds promising potential as a target for precision cancer immunotherapeutics, we summarize current challenges and provide a general outlook on future directions in this field.