Differential impact of optogenetic stimulation of direct and indirect pathways from dorsolateral and dorsomedial striatum on motor symptoms in Huntington's disease mice.

The alterations in the basal ganglia circuitry are core pathological hallmark in Huntington's Disease (HD) and traditionally linked to its sever motor symptoms. Recently it was shown that optogenetic stimulation of cortical afferences to the striatum is able to reverse motor symptoms in HD mice. However, the specific contribution of the direct and indirect striatal output pathways from the dorsolateral (DLS) and dorsomedial striatum (DMS) to the motor phenotype is still not clear. Here, we aim to uncover the contributions of these striatal subcircuits to motor control in wild type (WT) and HD mice by using the symptomatic R6/1 mice. We systematically evaluated locomotion, exploratory behavior, and motor learning effects of the selective optogenetic stimulation of D1 or A2A expressing neurons (direct and indirect pathway, respectively), in DLS or DMS. Bilateral optogenetic stimulation of the direct pathway from DLS and the indirect pathway from DMS resulted in subtle locomotor enhancements, while unaltering exploratory behavior. Additionally, bilateral stimulation of the indirect pathway from the DLS improved performance in the accelerated rotarod task, suggesting a role in motor learning. In contrast, in HD mice, stimulation of these pathways did not modulate any of these behaviors. Overall, this study highlights that selective stimulation of direct and indirect pathways from DLS and DMS have subtle impact in locomotion, exploratory activity nor motor learning. The lack of responses in HD mice also suggests that strategies involving cortico-striatal circuits rather than striatal output circuits might be a better strategy for managing motor symptoms in movement disorders.

Evaluating a motor progression connectivity model across Parkinson's disease stages.

BACKGROUND: Stimulation of a specific site in the dorsolateral subthalamic nucleus (STN) was recently associated with slower motor progression in Parkinson's Disease (PD), based on the deep brain stimulation (DBS) in early-stage PD pilot clinical trial. Here, subject-level visualizations are presented of this early-stage PD dataset to further describe the relationship between active contacts and motor progression. This study also evaluates whether stimulation of the sweet spot and connectivity model associated with slower motor progression is also associated with improvements in long-term motor outcomes in patients with advanced-stage PD. METHODS: Active contacts of the early-stage PD cohort (N = 14) were analyzed alongside the degree of two-year motor progression. Sweet spot and connectivity models derived from the early-stage PD cohort were then used to determine how well they can estimate the variance in long-term motor outcomes in an independent STN-DBS cohort of advanced-stage PD patients (N = 29). RESULTS: In early-stage PD, proximity of stimulation to the dorsolateral STN was associated with slower motor progression. In advanced-stage PD, stimulation proximity to the early PD connectivity model and sweet spot were associated with better long-term motor outcomes (R = 0.60, P < 0.001; R = 0.37, P = 0.046, respectively). CONCLUSIONS: Results suggest stimulation of a specific site in the dorsolateral STN is associated with both slower motor progression and long-term motor improvements in PD.

Synbiotic supplementation may globally improve non-motor symptoms in patients with stable Parkinson's disease: results from an open label single-arm study.

Gut microbiota changes and brain-gut-axis (BGA) dysregulation are common in people with Parkinson's Disease (PD). Probiotics and prebiotics are emerging as a potential therapeutic approach for PD patients. The aim of this paper was to assess the neurological and gastroenterological effects in PD patients with constipation after the administration of a synbiotic product, with a focus on behavioral and cognitive symptoms. We enrolled patients with stable PD who met diagnostic criteria for functional constipation and/or irritable bowel syndrome with constipation according to Rome IV Criteria. Patients received a synbiotic treatment (Enterolactis Duo, containing the probiotic strain Lacticaseibacillus paracasei DG and the prebiotic fiber inulin) for 12 weeks. A neurological and a gastroenterological evaluation were collected before and after the treatment. In addition, 16S rRNA gene profiling and short chain fatty acid quantification were performed to characterize the microbial ecosystem of fecal samples collected before (n = 22) and after (n = 9) the synbiotic administration. 30 patients were consecutively enrolled. After treatment, patients performed better in MDS-UPDRS part 1 (p = 0.000), SCOPA-AUT (p = 0.001), TAS-20 (p = 0.014), HAM-D (p = 0.026), DIFt (p = 0.003), PAS-A (p = 0.048). Gastroenterological evaluations showed improvements in PAC-SYM score (p < 0.001), number of complete bowel movement (p < 0.001) and BSFS (p < 0.001). After the synbiotic administration, we observed a significant increase in the abundance of the order Oscillospirales, as well as the Oscillospiraceae family and the species Faecalibacterium prausnitzii within this order in fecal samples. Synbiotic treatment demonstrates potential efficacy in ameliorating non-motor features in PD patients.

Clinical Utility of Neurophysiologic Classification (and Declassification) of Myoclonus.

BACKGROUND: Movement clinical neurophysiology studies can distinguish myoclonus, tremor, and other jerky movements; however, there has been limited demonstration of their real-world clinical impact. OBJECTIVE: The aim was to investigate movement study utility in clarifying movement classification and guiding patient management. METHOD: A retrospective study of myoclonus-related movement studies was performed. RESULTS: Of 262 patients referred for consideration of myoclonus, 105 (40%) had myoclonus, 156 (59%) had no myoclonus (the commonest alternative classifications were functional jerks and tremor), and 1 was uncertain. An additional 29 studies identified myoclonus without prior clinical suspicion. A total of 119 of 134 (89%) myoclonus patients had a specific neurophysiologic subtype identified, most commonly cortical (64, 54%). Diagnostic differential narrowed in 60% of patients, and a new diagnosis was made in 42 (14%) patients. Medication changes were made in 151 patients (52%), with improvement in 35 of 51 (67%) with follow-up. CONCLUSIONS: Movement studies effectively determined movement classification and identified unsuspected myoclonus, leading to changes in diagnosis and management. © 2024 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

Predisposing factors to pattern change in cervical dystonia.

BACKGROUND: Cervical dystonia (CD) patterns may change with Botulinum toxin (BoNT) treatment. OBJECTIVE: To evaluate the time within those changes usually occur, the most predisposed phenotypes and predisposing factors. METHODS: We divided idiopathic CD patients into two groups- change YES and NO, collecting general clinical and demographic variables. We also evaluated duration of BoNT treatment, Tsui total scores and subscores - assessed at T0 - before BoNT start - and at T1- time to chenge in the YES group or last visit in the NO group. The risk of pattern change was assessed by Kaplan Meyer curves and Cox regression analysis. Finally, Multivariate linear regressions were employed to assess if Tsui severity correlated with the change. RESULTS: Among 100 patients (60 women), 37 experienced a phenotype switch, mostly in the first five years of BoNT treatment, YES and NO groups were comparable. Multivariate Cox Regression revealed the presence of laterocollis or rotatocollis at T0 as predictors of switch (respectively P = 0.01, HR = 3.5; P = 0.03, HR = 1.5). Multivariate linear regressions revealed that high Tsui subscores for the tilt and low Tsui total scores were risk factors for the change of pattern (respectively P = 0.002, OR = 6; P = 0.03, OR = 0.8). CONCLUSIONS: Latero and Rotatocollis are the CD phenotypes most predisposed to change. CD characterized by neck tilt are more likely to change phenotype following treatment. Dystonias with a low degree of severity are more predisposed to switch. Both, the different degree of muscle activation and BoNT mechanism of action, may impact on that phenomenon.

Asymmetry in Atypical Parkinsonian Syndromes-A Review.

Background/Objectives: Atypical parkinsonian syndromes (APSs) are a group of neurodegenerative disorders that differ from idiopathic Parkinson's disease (IPD) in their clinical presentation, underlying pathology, and response to treatment. APSs include conditions such as multiple system atrophy (MSA), progressive supranuclear palsy (PSP), corticobasal syndrome (CBS), and dementia with Lewy bodies (DLB). These disorders are characterized by a combination of parkinsonian features and additional symptoms, such as autonomic dysfunction, supranuclear gaze palsy, and asymmetric motor symptoms. Many hypotheses attempt to explain the causes of neurodegeneration in APSs, including interactions between environmental toxins, tau or α-synuclein pathology, oxidative stress, microglial activation, and vascular factors. While extensive research has been conducted on APSs, there is a limited understanding of the symmetry in these diseases, particularly in MSA. Neuroimaging studies have revealed metabolic, structural, and functional abnormalities that contribute to the asymmetry in APSs. The asymmetry in CBS is possibly caused by a variable reduction in striatal D2 receptor binding, as demonstrated in single-photon emission computed tomography (SPECT) examinations, which may explain the disease's asymmetric manifestation and poor response to dopaminergic therapy. In PSP, clinical dysfunction correlates with white matter tract degeneration in the superior cerebellar peduncles and corpus callosum. MSA often involves atrophy in the pons, putamen, and cerebellum, with clinical symmetry potentially depending on the symmetry of the atrophy. The aim of this review is to present the study findings on potential symmetry as a tool for determining potential neuropsychological disturbances and properly diagnosing APSs to lessen the misdiagnosis rate. Methods: A comprehensive review of the academic literature was conducted using the medical literature available in PubMed. Appropriate studies were evaluated and examined based on patient characteristics and clinical and imaging examination outcomes in the context of potential asymmetry. Results: Among over 1000 patients whose data were collected, PSP-RS was symmetrical in approximately 84% ± 3% of cases, with S-CBD showing similar results. PSP-P was symmetrical in about 53-55% of cases, while PSP-CBS was symmetrical in fewer than half of the cases. MSA-C was symmetrical in around 40% of cases. It appears that MSA-P exhibits symmetry in about 15-35% of cases. CBS, according to the criteria, is a disease with an asymmetrical clinical presentation in 90-99% of cases. Similar results were obtained via imaging methods, but transcranial sonography produced different results. Conclusions: Determining neurodegeneration symmetry may help identify functional deficits and improve diagnostic accuracy. Patients with significant asymmetry in neurodegeneration may exhibit different neuropsychological symptoms based on their individual brain lateralization, impacting their cognitive functioning and quality of life.

Microinstability of Major Joints in Movement Disorders: The Hidden Challenge.

Microinstability, characterized by subtle and often painful disturbances in joint stability, significantly impacts individuals engaged in activities requiring extensive ranges of motion, such as dancing or gymnastics, and is particularly prevalent in young female athletes. This condition, resulting from progressive microtrauma, architectural and functional abnormalities, or iatrogenic factors, is challenging to diagnose and often underreported. Understanding the biomechanical nuances of microinstability is essential for accurate diagnosis and effective management. Upper limb joints, including the shoulder, elbow, wrist, and hand, each exhibit unique anatomical and functional characteristics that contribute to their susceptibility to microinstability. Movement disorders, such as Parkinson's disease, essential tremor, dystonia, and cerebral palsy, exacerbate joint instability due to impaired proprioception, altered muscle tone, and uncoordinated muscle contractions. Effective diagnosis involves physical examination techniques and advanced imaging modalities. Therapeutic interventions encompass physical therapy, pharmacological treatments, surgical procedures, and assistive devices, tailored to enhance joint stability and improve the quality of life for affected individuals.

Exploring adverse effects of deep brain stimulation: the need for personalized care and long-term monitoring.

Deep Brain Stimulation (DBS), an FDA-approved treatment for movement disorders such as Parkinson's Disease (PD), is increasingly used for various neurological and neuropsychiatric conditions. A recent systematic review and meta-analysis by Bahadori et al. highlighted a significant increase in Body Mass Index (BMI) among patients post-DBS, with most participants having PD. The study, however, noted moderate heterogeneity (I² = 67.566%) without thoroughly addressing its potential causes or proposing strategies to mitigate it. The review's limited patient diversity and short follow-up period also challenge its generalizability and long-term implications. In addition to BMI changes, DBS has been linked to motor, cognitive, and psychiatric side effects. Patients undergoing subthalamic nucleus (STN) stimulation, for example, face risks of motor complications, including speech and gait issues, while cognitive declines, particularly in verbal fluency and executive function, are also concerning. Psychiatric side effects such as depression, anxiety, and psychosis further complicate treatment outcomes. These findings underscore the importance of personalized treatment strategies, preoperative assessments, and ongoing patient education to minimize adverse effects and optimize the therapeutic potential of DBS.

1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated adult zebrafish as a model for Parkinson's Disease.

Dopamine (DA) is a catecholamine neurotransmitter that works to regulate cognitive functions. Patients affected by Parkinson's Disease (PD) experience a loss of dopaminergic neurons and downregulated neural DA production. This leads to cognitive and physical decline that is the hallmark of PD for which no cure currently exists. Danio rerio, or zebrafish, have become an increasingly popular disease model used in PD pharmaceutical development. This model still requires extensive development to better characterize which PD features are adequately represented. Furthermore, the great majority of PD zebrafish models have been performed in embryos, which may not be relevant towards age-related human PD. As an improvement, mature D. rerio were treated with neurotoxic prodrug 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) through intraperitoneal injection to induce parkinsonism. Behavioral analysis confirmed disparities in movement between saline-injected control and the MPTP-injected experimental group, with swim distance and speed significantly lowered seven days after MPTP injection. Simultaneously, cognitive decline was apparent in MPTP-injected zebrafish, demonstrated by decreased alternation in a y-maze. RT-qPCR confirmed trends consistent with downregulation in Parkinsonian genetic markers, specifically DA transporter (DAT), MAO-B, PINK1. In summary, mature zebrafish injected with MPTP present with similar movement and cognitive decline as compared to human disease. Despite its benefits, this model does not appear to recapitulate pathophysiology of the disease with the full profile of expected gene downregulation. Because of this, it is important that researchers looking for pharmacological interventions for PD only use this zebrafish model when targeting the human-relevant PD symptoms and causes that are represented.

Striatal cholinergic transmission in an inducible transgenic mouse model of paroxysmal non-kinesiogenic dyskinesia.

Altered interaction between striatonigral dopaminergic (DA) inputs and local acetylcholine (ACh) in striatum has long been hypothesized to play a central role in the pathophysiology of dystonia and dyskinesia. Indeed, previous research using several genetic mouse models of human isolated dystonia identified a shared endophenotype with paradoxical excitation of striatal cholinergic interneuron (ChIs) activity in response to activation of dopamine D2 receptors (D2R). These mouse models lack a dystonic motor phenotype, which leaves a critical gap in comprehending the role of DA and ACh transmission in the manifestations of dystonia. To tackle this question, we used a combination of ex vivo slice physiology and in vivo monitoring of striatal ACh dynamics in the inducible, phenotypically penetrant, transgenic mouse model of paroxysmal non-kinesiogenic dyskinesia (PNKD), an animal with both dystonic and dyskinetic features. We found that, similarly to genetic models of isolated dystonia, the PNKD mouse displays D2R-induced paradoxical excitation of ChI firing in ex vivo striatal brain slices. In vivo, caffeine triggers dystonic symptoms while reversing the D2R-mediated excitation of ChIs and desynchronizing ACh release in PNKD mice. In WT littermate controls, caffeine stimulates spontaneous locomotion through a similar but reversed mechanism involving an excitatory switch of the D2R control of ChI activity, associated with enhanced synchronization of ACh release. These observations suggest that the "paradoxical excitation" of cholinergic interneurons described in isolated dystonia models could represent a compensatory or protective mechanism that prevents manifestation of movement abnormalities and that phenotypic dystonia is possible only when this is absent. These findings also suggest that D2Rs may play an important role in synchronizing the ChI network leading to rhythmic ACh release during heightened movement states. Dysfunction of this interaction and corresponding desynchrony of ACh release may contribute to aberrant movements.

Is speech function lateralised in the basal ganglia? Evidence from de novo Parkinson's disease.

BACKGROUND: Research on the possible influence of lateralised basal ganglia dysfunction on speech in Parkinson's disease is scarce. This study aimed to compare speech in de-novo, drug-naive patients with Parkinson's disease (PD) with asymmetric nigral dopaminergic dysfunction, predominantly in either the right or left hemisphere. METHODS: Acoustic analyses of reading passages were performed. Asymmetry of nigral dysfunction was defined using dopamine transporter-single-photon emission CT (DAT-SPECT). RESULTS: From a total of 135 de novo patients with PD assessed, 47 patients had a lower right and 36 lower left DAT availability in putamen based on DAT-SPECT. Patients with PD with lower left DAT availability had higher dysarthria severity via composite dysarthria index compared with patients with lower right DAT availability (p=0.01). CONCLUSION: Our data support the crucial role of DAT availability in the left putamen in speech. This finding might provide important clues for managing speech following deep brain stimulation.

Neonatal Hyperekplexia: Is It Still a Diagnostic Challenge? Evidence From a Systematic Review.

Hyperekplexia is a neurologic disorder characterized by an exaggerated startle reflex in response to different types of stimuli. Hyperekplexia is defined by the triad of neonatal hypertonia, excessive startle reflexes, and generalized stiffness following the startle. Although uncommon, hyperekplexia can lead to serious consequences such as falls, brain injury, or sudden infant death syndrome.Aim of this study was to identify cases of neonatal hyperekplexia with a confirmed genetic diagnosis and to establish the genotype-phenotype correlation at onset. Articles were selected from 1993 to 2024 and PRISMA Statement was applied including newborns within 28 days of life. So, we retrieved from literature 14 cases of genetically confirmed neonatal hyperekplexia. The onset of clinical manifestations occurred in the first day of life in 8 of 14 patients (57.14%). Clinical findings were muscle stiffness (100%), startle reflex (66.66%), apnea/cyanosis (41.66%), positive nose-tapping test (33.33%), jerks (33.33%), jitteriness (25%), and ictal blinking (25%). Genes involved were GLRA1 in 9 of 14 (64.28%), SLC6A5 in 2 of 14 (14.28%), GPHN in 1 of 14 (7.14%), and GLRB in 2 of 14 (14.28%). Patients showed heterozygous (66.66%) or homozygous (33.33%) status. In 7 of 14 cases (50%), the condition occurred in other family members. A genotype-phenotype correlation was not achievable.Timely diagnosis is crucial to improve the natural history of hyperekplexia avoiding/reducing possible major complications such as sudden infant death syndrome, brain injury, and serious falls. Early differentiation from epilepsy minimizes treatment cost and improves the quality of life of patients.

A novel mutation in SETX and ATM causes ataxia in consanguineous Pakistani families.

Background & Objectives: Ataxia is usually caused by cerebellar pathology or a decrease in vestibular or proprioceptive afferent input to the cerebellum. It is characterized by uncoordinated walking, truncal instability, body or head tremors, uncontrolled coordination of the hands, dysarthria, and aberrant eye movements. The objective of the current investigation was to identify the underlying genetic cause of the hereditary ataxia that affects the Pakistani population. Methods: We studied numerous consanguineous Pakistani families whose members had ataxia-related clinical symptoms to varying degrees. The families were chosen from the Punjab province, and the neurophysician conducted a clinical examination. Peripheral blood samples from both sick and healthy members of the family were taken after obtaining informed consent. Genomic DNA was used to find potential variations in probands using whole exome sequencing. The study was carried out at the University Hospital of Tübingen, Germany, and Government College University in Faisalabad, Pakistan, during 2018-2023. Results: The molecular analysis of these families identified different variants including SGCB: c.902C>T, c.668G>A, ATM: c.6196_6197insGAA, SPG11: c.5769del, SETX c.5525_5533del, and ATM: c.7969A>T. A noteworthy mutation in ATM and SETX was observed among them, and its symptoms were shown to cause ataxia in these families. Conclusion: The current study broadens the mutation spectrum of several hereditary ataxia types and suggests the next generation sequencing in conjunction with clinical research for a more accurate diagnosis of overlapping phenotypes of this disorder in the Pakistani population.

Next move in movement disorders: neuroimaging protocols for hyperkinetic movement disorders.

Introduction: The Next Move in Movement Disorders (NEMO) study is an initiative aimed at advancing our understanding and the classification of hyperkinetic movement disorders, including tremor, myoclonus, dystonia, and myoclonus-dystonia. The study has two main objectives: (a) to develop a computer-aided tool for precise and consistent classification of these movement disorder phenotypes, and (b) to deepen our understanding of brain pathophysiology through advanced neuroimaging techniques. This protocol review details the neuroimaging data acquisition and preprocessing procedures employed by the NEMO team to achieve these goals. Methods and analysis: To meet the study's objectives, NEMO utilizes multiple imaging techniques, including T1-weighted structural MRI, resting-state fMRI, motor task fMRI, and 18F-FDG PET scans. We will outline our efforts over the past 4 years to enhance the quality of our collected data, and address challenges such as head movements during image acquisition, choosing acquisition parameters and constructing data preprocessing pipelines. This study is the first to employ these neuroimaging modalities in a standardized approach contributing to more uniformity in the analyses of future studies comparing these patient groups. The data collected will contribute to the development of a machine learning-based classification tool and improve our understanding of disorder-specific neurobiological factors. Ethics and dissemination: Ethical approval has been obtained from the relevant local ethics committee. The NEMO study is designed to pioneer the application of machine learning of movement disorders. We expect to publish articles in multiple related fields of research and patients will be informed of important results via patient associations and press releases.

Treatment of restless legs syndrome and periodic limb movement disorder: an American Academy of Sleep Medicine systematic review, meta-analysis, and GRADE assessment.

INTRODUCTION: This systematic review provides supporting evidence for the accompanying clinical practice guideline on the treatment of restless legs syndrome (RLS) and periodic limb movement disorder (PLMD). METHODS: The American Academy of Sleep Medicine commissioned a task force of experts in sleep medicine. A systematic review was conducted to identify studies that compared the use of pharmacological or nonpharmacological treatment to no treatment to improve patient-important outcomes. Statistical analyses were performed to determine the clinical significance of using various interventions to treat RLS and PLMD in adults and children. The Grading of Recommendations Assessment, Development, and Evaluation (GRADE) process was used to assess the evidence for making recommendations. RESULTS: The literature search resulted in 3631 studies out of which 148 studies provided data suitable for statistical analyses. The task force provided a detailed summary of the evidence along with the certainty of evidence, the balance of benefits and harms, patient values and preferences, and resource use considerations.

Treatment of restless legs syndrome and periodic limb movement disorder: an American Academy of Sleep Medicine clinical practice guideline.

INTRODUCTION: This guideline establishes clinical practice recommendations for Treatment of Restless Legs Syndrome (RLS) and Periodic Limb Movement Disorder (PLMD) in adults and pediatric patients. METHODS: The American Academy of Sleep Medicine (AASM) commissioned a task force of experts in sleep medicine to develop recommendations and assign strengths based on a systematic review of the literature and an assessment of the evidence using the Grading of Recommendations Assessment, Development and Evaluation (GRADE) methodology. The task force provided a summary of the relevant literature and the certainty of evidence, the balance of benefits and harms, patient values and preferences, and resource use considerations that support the recommendations. The AASM Board of Directors approved the final recommendations. GOOD PRACTICE STATEMENT: The following good practice statement is based on expert consensus, and its implementation is necessary for the appropriate and effective management of patients with RLS.1. In all patients with clinically significant RLS, clinicians should regularly test serum iron studies including ferritin and transferrin saturation (calculated from iron and total iron binding capacity, TIBC). The test should ideally be administered in the morning avoiding all iron-containing supplements and foods at least 24 hours prior to blood draw. Analysis of iron studies greatly influences the decision to use oral or intravenous (IV) iron treatment. Consensus guidelines, which have not been empirically tested, suggest that supplementation of iron in adults with RLS should be instituted with oral or IV iron if serum ferritin ≤75 ng/mL or transferrin saturation < 20%, and only with IV iron if serum ferritin is between 75 ng/mL and 100 ng/mL. In children, supplementation of iron should be instituted for serum ferritin < 50 ng/mL with oral or IV formulations. These iron supplementation guidelines are different than for the general population.2. The first step in the management of RLS should be addressing exacerbating factors, such as alcohol, caffeine, antihistaminergic, serotonergic, anti-dopaminergic medications, and untreated obstructive sleep apnea (OSA).3. RLS is common in pregnancy; prescribers should consider the pregnancy-specific safety profile of each treatment being considered. RECOMMENDATIONS: The following recommendations are intended as a guide for clinicians in choosing a specific treatment for RLS and PLMD in adults and children. Each recommendation statement is assigned a strength ("Strong" or "Conditional"). A "Strong" recommendation (i.e., "We recommend…") is one that clinicians should follow under most circumstances. The recommendations listed below are ranked in the order of strength of recommendations and grouped by class of treatments within each PICO question. Some recommendations include remarks that provide additional context to guide clinicians with implementation of this recommendation.Adults with RLS.1. In adults with RLS, the AASM recommends the use of gabapentin enacarbil over no gabapentin enacarbil (Strong recommendation, moderate certainty of evidence).2. In adults with RLS, the AASM recommends the use of gabapentin over no gabapentin (Strong recommendation, moderate certainty of evidence).3. In adults with RLS, the AASM recommends the use of pregabalin over no pregabalin (Strong recommendation, moderate certainty of evidence).4. In adults with RLS, the AASM recommends the use of IV ferric carboxymaltose over no IV ferric carboxymaltose in patients with appropriate iron status (see good practice statement for iron parameters) (Strong recommendation, moderate certainty of evidence).5. In adults with RLS, the AASM suggests the use of IV low molecular weight (LMW) iron dextran over no IV LMW iron dextran in patients with appropriate iron status (see good practice statement for iron parameters) (Conditional recommendation, very low certainty of evidence).6. Recommendation 6: In adults with RLS, the AASM suggests the use of IV ferumoxytol over no IV ferumoxytol in patients with appropriate iron status (see good practice statement for iron parameters) (Conditional recommendation, very low certainty of evidence).7. In adults with RLS, the AASM suggests the use of ferrous sulfate over no ferrous sulfate in patients with appropriate iron status (see good practice statement for iron parameters) (Conditional recommendation, moderate certainty of evidence).8. In adults with RLS, the AASM suggests the use of dipyridamole over no dipyridamole (Conditional recommendation, low certainty of evidence).9. In adults with RLS, the AASM suggests the use of extended-release oxycodone and other opioids over no opioids (Conditional recommendation, moderate certainty of evidence).10. In adults with RLS, the AASM suggests the use of bilateral high-frequency peroneal nerve stimulation over no peroneal nerve stimulation (Conditional recommendation, low certainty of evidence).11. In adults with RLS, the AASM suggests against the standard use of levodopa (Conditional recommendation, very low certainty of evidence). Remarks: Levodopa may be used to treat RLS in patients who place a higher value on the reduction of restless legs symptoms with short-term use and a lower value on adverse effects with long-term use (particularly augmentation). 12. In adults with RLS, the AASM suggests against the standard use of pramipexole (Conditional recommendation, moderate certainty of evidence). Remarks: Pramipexole may be used to treat RLS in patients who place a higher value on the reduction of restless legs symptoms with short-term use and a lower value on adverse effects with long-term use (particularly augmentation). 13. In adults with RLS, the AASM suggests against the standard use of transdermal rotigotine (Conditional recommendation, low certainty of evidence). Remarks: Transdermal Rotigotine may be used to treat RLS in patients who place a higher value on the reduction of restless legs symptoms with short-term use and a lower value on adverse effects with long-term use (particularly augmentation). 14. In adults with RLS, the AASM suggests against the standard use of ropinirole (Conditional recommendation, moderate certainty of evidence). Remarks: Ropinirole may be used to treat RLS in patients who place a higher value on the reduction of restless legs symptoms with short-term use and a lower value on adverse effects with long-term use (particularly augmentation). 15. In adults with RLS, the AASM suggests against the use of bupropion for the treatment of RLS (Conditional recommendation, moderate certainty of evidence).16. In adults with RLS, the AASM suggests against the use of carbamazepine (Conditional recommendation, low certainty of evidence).17. In adults with RLS, the AASM suggests against the use of clonazepam (Conditional recommendation, very low certainty of evidence).18. In adults with RLS, the AASM suggests against the use of valerian (Conditional recommendation, low certainty of evidence).19. In adults with RLS, the AASM suggests against the use of valproic acid (Conditional recommendation, low certainty of evidence).20. In adults with RLS, the AASM recommends against the use of cabergoline (Strong recommendation, moderate certainty of evidence).Special adult populations with RLS.21. In adults with RLS and end-stage renal disease (ESRD), the AASM suggests the use of gabapentin over no gabapentin (conditional recommendation, very low certainty of evidence).22. In adults with RLS and ESRD, the AASM suggests the use of IV iron sucrose over no IV iron sucrose in patients with ferritin < 200 ng/mL and transferrin saturation < 20% (Conditional recommendation, moderate certainty of evidence).23. In adults with RLS and ESRD, the AASM suggests the use of vitamin C over no vitamin C (conditional recommendation, low certainty of evidence).24. In adults with RLS and ESRD, the AASM suggests against the standard use of levodopa (Conditional recommendation, low certainty of evidence). Remarks: Levodopa may be used to treat RLS in patients who place a higher value on the reduction of restless legs symptoms with short-term use and a lower value on adverse effects with long-term use (particularly augmentation). 25. In adults with RLS and ESRD, the AASM suggests against the standard use of rotigotine (Conditional recommendation, very low certainty of evidence). Remarks: Rotigotine may be used to treat RLS in patients who place a higher value on the reduction of restless legs symptoms with short-term use and a lower value on adverse effects with long-term use (particularly augmentation). Adults with PLMD.26. In adults with PLMD, the AASM suggests against the use of triazolam (Conditional recommendation, very low certainty of evidence).27. In adults with PLMD, the AASM suggests against the use of valproic acid (Conditional recommendation, very low certainty of evidence).Children with RLS.28. In children with RLS, the AASM suggests the use of ferrous sulfate over no ferrous sulfate in patients with appropriate iron status (see good practice statement for iron parameters) (Conditional recommendation, very low certainty of evidence).

A Full-Process, Fine-Grained, and Quantitative Rehabilitation Assessment Platform Enabled by On-Skin Sensors and Multi-Task Gait Transformer Model.

Rehabilitation of patients with lower limb movement disorders is a gradual process, which requires full-process assessments to guide the implementation of rehabilitation plans. However, the current methods can only complete the assessment in one stage and lack objective and quantitative assessment strategies. Here, a full-process, fine-grained, and quantitative rehabilitation assessments platform (RAP) supported by on-skin sensors and a multi-task gait transformer (MG-former) model for patients with lower limb movement disorders is developed. The signal quality and sensitivity of on-skin sensor is improved by the synthesis of high-performance triboelectric material and structure design. The MG-former model can simultaneously perform multiple tasks including binary classification, multiclassification, and regression, corresponding to assessment of fall risk, walking ability, and rehabilitation progress, covering the whole rehabilitation cycle. The RAP can assess the walking ability of 23 hemiplegic patients, which has highly consistent results with the scores by the experienced physician. Furthermore, the MG-former model outputs fine-grained assessment results when performing regression task to track slight progress of patients that cannot be captured by conventional scales, facilitating adjustment of rehabilitation plans. This work provides an objective and quantitative platform, which is instructive for physicians and patients to implement effective strategy throughout the whole rehabilitation process.

The Role of Neuropsychology in Neurosurgical Care: A Review of the Literature.

In this review article, the authors describe the invaluable role that neuropsychology plays in neurosurgical care for a broad range of pathologies. As our understanding of cognitive and behavioral implications of diseases and surgical management of the brain has deepened, so has the need to preserve the quality of life for patients undergoing surgery to optimize well-being and overall survival. This article recounts the history of neuropsychology, details tools and techniques used by neuropsychologists including the neuropsychological assessment, fMRI, tractography, and awake surgery, and discusses the practical applications of neuropsychological evaluation in tumor surgery, epilepsy, deep brain modulation, and beyond.