Emerging Subspecialties: Pediatric Movement Disorders Neurology.

Pediatric movement disorders (PMD) neurologists care for infants, children, and adolescents with conditions that disrupt typical movement; serving as important subspecialist child neurologists in both academic and private practice settings. In contrast to adult movement disorders neurologists whose "bread and butter" is hypokinetic Parkinson disease, PMD subspecialty practice is often dominated by hyperkinetic movement disorders including tics, dystonia, chorea, tremor, and myoclonus. PMD neurology practice intersects with a variety of subspecialties, including neonatology, developmental pediatrics, rehabilitation medicine, epilepsy, child & adolescent psychiatry, psychology, orthopedics, genetics & metabolism, and neurosurgery. Over the past several decades, significant advancements in the PMD field have included operationalizing definitions for distinct movement disorders, recognizing the spectrum of clinical phenotypes, expanding research on genetic and neuroimmunologic causes of movement disorders, and advancing available treatments. Subspecialty training in PMD provides trainees with advanced clinical, diagnostic, procedural, and management skills that reflect the complexities of contemporary practice. The child neurologist who is fascinated by the intricacies of child motor development, appreciates the power of observation skills coupled with a thoughtful physical examination, and is excited by the challenge of the unknown may be well-suited to a career as a PMD specialist.

The Role of Child Neurologists in the Management of Motor Disability in Cerebral Palsy: Establishing the Path Forward.

BACKGROUND: Cerebral palsy (CP) is the most common motor disability of childhood, and yet the role of child neurologists and neurodevelopmentalists (CN/NDDs) in the management of children with CP is unclear. Although previous surveys showed that CN/NDDs believe they are uniquely expert in CP motor phenotyping and should be involved in CP management, others have demonstrated that training in CP management among CN/NDD residency programs is inadequate. METHODS: In this article, we surveyed a group of CN/NDDs at the Child Neurology Society Cerebral Palsy Special Interest Group meeting on January 27, 2022. Questions addressed provider comfort with CP tone management including motor phenotyping, pharmacologic and surgical management, barriers and solutions to improving practice, and the use of systems-based care. RESULTS: Responses from 42 participants demonstrated that CN/NDDs lack experience with CP tone management, with 48% and 58% of respondents reporting little to no experience in pharmacologic or surgical management, respectively. Primary barriers identified to improving comfort with CP tone management included lack of knowledge and ineffective treatment options, while most solutions centered on improving collaborations between CN/NDDs and other specialties. Only 50% of respondents reported currently using systems-based care in the management of patients with CP. CONCLUSIONS: An interdisciplinary, systems-based care model would allow for collaboration and knowledge sharing between involved specialties and provide high-value goal-directed care to maximize the functional outcomes for every individual with CP.

Diagnosing Common Movement Disorders in Children.

PURPOSE OF REVIEW: This article is designed to help the clinician identify the most common pediatric movement disorders and recognize benign versus pathologic movements in infancy and childhood, with a particular focus on treatable conditions and those that should not be missed. RECENT FINDINGS: As telehealth has become more prevalent as a means of providing health care services, the challenges of obtaining relevant examination findings during telehealth encounters for assessment of children with movement disorders have become evident. SUMMARY: Although many children who present with a chief complaint of "abnormal movements" are found to have a benign, self-resolving etiology, it is critical that neurologists accurately recognize benign versus pathologic movements in children to ensure appropriate diagnosis and intervention.

Deep Brain Stimulation for Pediatric Dystonia: A Review of the Literature and Suggested Programming Algorithm.

Deep brain stimulation (DBS) is an established intervention for use in pediatric movement disorders, especially dystonia. Although multiple publications have provided guidelines for deep brain stimulation patient selection and programming in adults, there are no evidence-based or consensus statements published for pediatrics. The result is lack of standardized care and underutilization of this effective treatment. To this end, we assembled a focus group of 13 pediatric movement disorder specialists and 1 neurosurgeon experienced in pediatric deep brain stimulation to review recent literature and current practices and propose a standardized approach to candidate selection, implantation target site selection, and programming algorithms. For pediatric dystonia, we provide algorithms for (1) programming for initial session and follow-up sessions, and (2) troubleshooting side effects encountered during programming. We discuss common side effects, how they present, and recommendations for management. This topical review serves as a resource for movement disorders specialists interested in using deep brain stimulation for pediatric dystonia.

Diagnosis and Initial Treatment of Functional Movement Disorders in Children.

Functional movement disorders (FMD) are complex neurobehavioral disorders that can be a significant source of disability for both children and their caregivers. While FMD in the adult population is better characterized, the aim of this paper is to review the pertinent clinical and historical features, diagnostic criteria, and multi-disciplinary management of FMD in the pediatric population. We highlight recent trends in pediatric FMD, including the increase in functional tic-like behaviors that has been observed during the COVID-19 pandemic.

Cerebral Palsy in Child Neurology and Neurodevelopmental Disabilities Training: An Unmet Need.

BACKGROUND: Cerebral palsy (CP) is the most common cause of childhood motor disability. However, there is limited guidance on training of child neurologists and neurodevelopmental disability specialists in the care of individuals with cerebral palsy. We sought to determine training program directors' impressions of the importance and adequacy of training in the diagnosis and management of cerebral palsy. METHODS: In this cross-sectional study, all 82 child neurology and neurodevelopmental disability program directors were asked to complete a survey querying program characteristics, aspects of training in cerebral palsy, importance of cerebral palsy training, and perceived competence at graduation in cerebral palsy care. RESULTS: There were 35 responses (43% response rate). Nearly all program directors (91%) reported "learning to diagnose cerebral palsy" as very important, and most (71%) felt that "learning to manage cerebral palsy" was very important. Although most program directors reported trainees to be very or extremely competent in cerebral palsy diagnosis (77%), only 43% of program directors felt that trainees were very or extremely competent in cerebral palsy management. Time spent with cerebral palsy faculty was associated with higher reported competence in cerebral palsy diagnosis (P = .03) and management (P < .01). The presence of a cerebral palsy clinic was associated with higher reported competence in cerebral palsy management (P = .03). CONCLUSIONS: Child neurology and neurodevelopmental disability program directors reported that training in cerebral palsy is important for residents; however, a significant proportion felt that residents were not very well prepared to manage cerebral palsy. The development of cerebral palsy curricula and exposure to cerebral palsy clinics may improve training, translating to better care of individuals with cerebral palsy.

Deep Brain Stimulation for Pediatric Dystonia.

Dystonia is one of the most common pediatric movement disorders and can have a profound impact on the lives of children and their caregivers. Response to pharmacologic treatment is often unsatisfactory. Deep brain stimulation (DBS) has emerged as a promising treatment option for children with medically refractory dystonia. In this review we highlight the relevant literature related to DBS for pediatric dystonia, with emphasis on the background, indications, prognostic factors, challenges, and future directions of pediatric DBS.

Role of child neurologists and neurodevelopmentalists in the diagnosis of cerebral palsy: A survey study.

OBJECTIVE: To contextualize the role of child neurologists and neurodevelopmentalists (CNs/NDDs) in cerebral palsy (CP) care, we review the changing landscape of CP diagnosis and survey stakeholder CNs/NDDs regarding their roles in CP care. METHODS: The optimal roles of the multiple specialties involved in CP care are currently unclear, particularly regarding CP diagnosis. We developed recommendations regarding the role of CNs/NDDs noting (1) increasing complexity of CP diagnosis given a growing number of genetic etiologies and treatable motor disorders that can be misdiagnosed as CP and (2) the views of a group of physician stakeholders (CNs/NDDs from the Child Neurology Society Cerebral Palsy Special Interest Group). RESULTS: CNs/NDDs felt that they were optimally suited to diagnose CP. Many (76%) felt that CNs/NDDs should always be involved in CP diagnosis. However, 42% said that their patients with CP were typically not diagnosed by CNs/NDDs, and 18% did not receive referrals to establish the diagnosis of CP at all. CNs/NDDs identified areas of their expertise critical for CP diagnosis including knowledge of the neurologic examination across development and early identification of features atypical for CP. This contrasts with their views on CP management, where CNs/NDDs felt that they could contribute to the medical team, but were necessary primarily when neurologic coexisting conditions were present. DISCUSSION: Given its increasing complexity, we recommend early referral for CP diagnosis to a CN/NDD or specialist with comparable expertise. This contrasts with current consensus guidelines, which either do not address or do not recommend specific specialist referral for CP diagnosis.

Lacosamide-Induced Dyskinesia in Children With Intractable Epilepsy.

Lacosamide, an antiepileptic drug prescribed for children with refractory focal epilepsy, is generally well tolerated, with dose-dependent adverse effects. We describe 4 children who developed a movement disorder in conjunction with the initiation and/or uptitration of lacosamide. Three patients developed dyskinesias involving the face or upper extremity whereas the fourth had substantial worsening of chronic facial tics. The patients all had histories suggestive of opercular dysfunction: 3 had seizure semiologies including hypersalivation, facial and upper extremity clonus while the fourth underwent resection of polymicrogyria involving the opercula. Onset, severity, and resolution of dyskinesias correlated with lacosamide dosing. These cases suggest that pediatric patients with dysfunction of the opercular cortex are at increased risk for developing drug-induced dyskinesias on high-dose lacosamide therapy. Practitioners should be aware of this potential side effect and consider weaning lacosamide or video electroencephalography (EEG) for differential diagnosis, particularly in pediatric patients with underlying opercular dysfunction.

Clinical Approach to a Child with Movement Disorders.

Assessing movement can be especially challenging in children. Refined yet flexible observational examination skills and utilization of established phenomenological approaches are essential in distinguishing normal from abnormal movements in the developing child and reaching an appropriate diagnosis. Mastering such skill requires an appreciation of the unique features of the developing motor system and an understanding of key concepts underlying normal motor development in children. Establishing a trusting therapeutic relationship with the patient and family, minimizing anxiety, and utilizing observation and distraction during physical examination are essential to successful diagnosis and management.

Revealing the Prevalence and Consequences of Food Insecurity in Children with Epilepsy.

Food insecurity (FI) affects more than one in five American children and is increasingly addressed during pediatric primary care. Its relevance during subspecialty care, including in the treatment of chronic conditions like epilepsy, is largely unknown. This study sought to determine the FI prevalence among children with epilepsy and examine the relationship between FI and healthcare utilization, health-related quality-of-life (HR-QOL), and medication side effect control. This was a retrospective cohort study using electronic health record data from children, aged 2-17 years, seen for epilepsy management at an academic pediatric hospital. The primary predictor was household FI status, determined using a validated screening tool employed in the hospital's pediatric neurology clinics. The primary outcome was unplanned healthcare utilization in the 6 months following initial FI screen. Secondary outcomes were standardized, validated assessments of HR-QOL and epilepsy medication side effects. Nearly 14% of the 691 children seen in the clinics for epilepsy lived in food insecure households. The impact of FI on healthcare utilization varied by race. For Caucasians, healthcare utilization rates were significantly higher among food insecure individuals than food secure individuals (37 vs. 17%, p = 0.003). Among African Americans, healthcare utilization rates did not vary with food security status (p = 0.6). Children in food insecure households had lower HR-QOL (p < 0.0001) and higher medication side effects (p = 0.0005). FI is common among children with epilepsy and may influence adverse health outcomes. Further exploration into how FI and other social determinants influence management of and determine outcomes for chronic diseases is warranted.

Advances in thin tissue Golgi-Cox impregnation: fast, reliable methods for multi-assay analyses in rodent and non-human primate brain.

In 1873 Camillo Golgi discovered a staining technique that allowed for the visualization of whole neurons within the brain, initially termed 'the black reaction' and is now known as Golgi impregnation. Despite the capricious nature of this method, Golgi impregnation remains a widely used method for whole neuron visualization and analysis of dendritic arborization and spine quantification. We describe a series of reliable, modified 'Golgi-Cox' impregnation methods that complement some existing methods and have several advantages over traditional whole brain 'Golgi' impregnation. First, these methods utilize 60-100µm thick brain sections, which allows for fast, reliable impregnation of neurons in rats (7-14 days) and non-human primates (NHP) (30 days) while avoiding the pitfalls of other 'rapid Golgi' techniques traditionally employed with thin sections. Second, these methods employ several common tissue fixatives, resulting in high quality neuron impregnation in brain sections from acrolein, glutaraldehyde, and paraformaldehyde perfused rats, and in glutaraldehyde perfused NHP brain tissue. Third, because thin sections are obtained on a vibratome prior to processing, alternate sections of brain tissue can be used for additional analyses such as immunohistochemistry or electron microscopy. This later advantage allows for comparison of, for example, dendrite morphology in sections adjacent to pertinent histochemical markers or ultrastructural components. Finally, we describe a method for simultaneous light microscopic visualization of both tyrosine hydroxylase immunohistochemistry and Golgi impregnation in the same tissue section. Thus, the methods described here allow for fast, high quality Golgi impregnation and conserve experimental subjects by allowing multiple analyses within an individual animal.

Impact of dendritic spine preservation in medium spiny neurons on dopamine graft efficacy and the expression of dyskinesias in parkinsonian rats.

Dopamine deficiency associated with Parkinson's disease (PD) results in numerous changes in striatal transmitter function and neuron morphology. Specifically, there is marked atrophy of dendrites and dendritic spines on striatal medium spiny neurons (MSN), primary targets of inputs from nigral dopamine and cortical glutamate neurons, in advanced PD and rodent models of severe dopamine depletion. Dendritic spine loss occurs via dysregulation of intraspine Cav1.3 L-type Ca(2+)channels and can be prevented, in animal models, by administration of the calcium channel antagonist, nimodipine. The impact of MSN dendritic spine loss in the parkinsonian striatum on dopamine neuron graft therapy remains unexamined. Using unilaterally parkinsonian Sprague-Dawley rats, we tested the hypothesis that MSN dendritic spine preservation through administration of nimodipine would result in improved therapeutic benefit and diminished graft-induced behavioral abnormalities in rats grafted with embryonic ventral midbrain cells. Analysis of rotational asymmetry and spontaneous forelimb use in the cylinder task found no significant effect of dendritic spine preservation in grafted rats. However, analyses of vibrissae-induced forelimb use, levodopa-induced dyskinesias and graft-induced dyskinesias showed significant improvement in rats with dopamine grafts associated with preserved striatal dendritic spine density. Nimodipine treatment in this model did not impact dopamine graft survival but allowed for increased graft reinnervation of striatum. Taken together, these results demonstrate that even with grafting suboptimal numbers of cells, maintaining normal spine density on target MSNs results in overall superior behavioral efficacy of dopamine grafts.