Parkinsonism originates in a discrete secondary and dystonia in a primary motor cortical-basal ganglia subcircuit.

Although manifesting contrasting phenotypes, Parkinson's disease and dystonia, the two most common movement disorders, can originate from similar pathophysiology. Previously, we demonstrated that lesioning (silencing) of a discrete dorsal region in the globus pallidus (rodent equivalent to globus pallidus externa) in rats and produced parkinsonism, while lesioning a nearby ventral hotspot-induced dystonia. Presently, we injected fluorescent-tagged multi-synaptic tracers into these pallidal hotspots (n = 36 Long Evans rats) and permitted 4 days for the viruses to travel along restricted connecting pathways and reach the motor cortex before sacrificing the animals.

Deep Brain Stimulation of Nucleus Basalis of Meynert improves learning in rat model of dementia.

Background: Deep brain stimulation (DBS) of the nucleus basalis of Meynert (NBM) has been preliminarily investigated as a potential treatment for dementia. The degeneration of NBM cholinergic neurons is a pathological feature of many forms of dementia. Although stimulation of the NBM has been demonstrated to improve learning, the ideal parameters for NBM stimulation have not been elucidated.

Healthy and pathological pallidal regulation of thalamic burst versus tonic mode firing: a computational simulation.

The mechanisms by which the basal ganglia influence the pallidal-receiving thalamus remain to be adequately defined. Our prior in vivo recordings in fully alert normal and dystonic rats revealed that normally fast tonic discharging entopeduncular [EP, rodent equivalent of the globus pallidus internus (GPi)] neurons are pathologically slow, highly irregular, and bursty under dystonic conditions. This, in turn, induces pallidal-receiving thalamic movement-related neurons to change from a healthy burst predominant to a pathological tonic-predominant resting firing mode.

Anticholinergic Medication Burden in Parkinson's Disease Outpatients.

Background: Individuals with Parkinson's disease (PD) may be especially vulnerable to future cognitive decline from anticholinergic medications.

Objective: To characterize anticholinergic medication burden, determine the co-occurrence of anticholinergic and cholinesterase inhibitors, and to assess the correlations among anticholinergic burden scales in PD outpatients.

Methods: We studied 670 PD outpatients enrolled in a clinic registry between 2012 and 2020.

Parkinsonism and dystonia are differentially induced by modulation of different territories in the basal ganglia.

Numerous clinical and experimental observations suggest that deficient neuronal signaling in the globus pallidus externa (GPe) is integral to both Parkinson's disease (PD) and dystonia. In our previous studies in jaundiced dystonic rats, widespread silencing of neurons in GP (rodent equivalent to GPe) preceded and persisted during dystonic motor activity. We therefore hypothesized that on a background of slow and highly irregular and bursty neuronal activity in GP, cortical motor drive produces profound inhibition of GP as the basis for action-induced dystonia in Gunn rats.

Preserved dichotomy but highly irregular and burst discharge in the basal ganglia in alert dystonic rats at rest.

Despite its prevalence, the underlying pathophysiology of dystonia remains poorly understood. Using our novel tri-component classification algorithm, extracellular neuronal activity in the globus pallidus (GP), STN, and the entopeduncular nucleus (EP) was characterized in 34 normal and 25 jaundiced dystonic Gunn rats with their heads restrained while at rest. In normal rats, neurons in each nucleus were similarly characterized by two physiologically distinct types: regular tonic with moderate discharge frequencies (mean rates in GP, STN and EP ranging from 35-41 spikes/s) or irregular at slower frequencies (17-20 spikes/s), with a paucity of burst activity.

A novel tri-component scheme for classifying neuronal discharge patterns.

Background: Neuronal discharge patterns can be described by three principle patterns, namely, regular, irregular, and bursty.

New Method: Available discrimination metrics, including global ISI metrics (e.g.

Experimental support that ocular tremor in Parkinson's disease does not originate from head movement.

Introduction: Our recent report of ocular tremor in Parkinson's disease (PD) has raised considerable controversy as to the origin of the tremor. Using an infrared based eye tracker and a magnetic head tracker, we reported that ocular tremor was recordable in PD subjects with no apparent head tremor. However, other investigators suggest that the ocular tremor may represent either transmitted appendicular tremor or subclinical head tremor inducing the vestibulo-ocular reflex (VOR).

Slowed saccades and increased square wave jerks in essential tremor.

Background: Eye movements in essential tremor (ET) are poorly described and may present useful information on the underlying pathophysiology of the disorder.

Methods: Sixty patients with ET, including 15 de novo untreated patients, and 60 age-matched controls constitute the study population. A video-based eye tracker was used to assess binocular eye position.

Pervasive ocular tremor in patients with Parkinson disease.

Objective: To further assess oculomotor control of patients with Parkinson disease (PD) during fixation and with movement.

Design: Case-control study.

Setting: A Parkinson disease research, education, and clinical center.

Multi-neuronal recordings in the Basal Ganglia in normal and dystonic rats.

Classical rate-based pathway models are invaluable for conceptualizing direct/indirect basal ganglia pathways, but cannot account for many aspects of normal and abnormal motor control. To better understand the contribution of patterned basal ganglia signaling to normal and pathological motor control, we simultaneously recorded multi-neuronal and EMG activity in normal and dystonic rats. We used the jaundiced Gunn rat model of kernicterus as our experimental model of dystonia.

A novel stereotaxic apparatus for neuronal recordings in awake head-restrained rats.

A novel technique for neuronal recordings in awake head-restrained animals is presented. Our setup allows (1) daily repeat microelectrode studies in rats without use of anesthesia, (2) excellent stabilization of head using an eight point fixation, (3) painless head-restraint of the animal, (4) accurate stereotaxic localization during multiple sessions of recording, (5) to considerably reduced surgical time, (6) quick repositioning during chronic recording sessions and (7) high quality stabilized neuronal recordings during periods of rest and active movements.

Pharmacological management of psychosis in elderly patients with parkinsonism.

Parkinsonism is a characteristic feature of Parkinson's disease and dementia with Lewy bodies and is commonly seen in Alzheimer's disease. Psychosis commonly appears during the course of these illnesses. Treatment of parkinsonism with antiparkinsonian medications constitutes an additional risk factor for the appearance or worsening of psychosis.

Quantification of gait in dystonic Gunn rats.

Spontaneously jaundiced Gunn rats exposed to sulfadimethoxine develop bilirubin encephalopathy (kernicterus) with hearing loss and dystonia, closely resembling the human syndrome. We recently characterized the electromyographic activity in this animal model supporting our clinical impression of dystonia. The objective of this study was to develop a simple, non-invasive method to quantify the motor deficits in dystonic rodents.

A comparison of computerized dynamic posturography therapy to standard balance physical therapy in individuals with Parkinson's disease: a pilot study.

Postural instability is a common impairment in idiopathic Parkinson's disease (PD). People with PD are prone to balance and walking difficulties. This study analyzed the feasibility of a prospective investigation of Computerized Dynamic Posturography (CDP) and standard Physical Therapy (PT) treatments in individuals with mild-moderate PD.

Caregiver distress in parkinsonism.

This study examined the frequency and degree of caregiver burden in persons with parkinsonism, a group of disorders with four primary symptoms that include tremor, rigidity, postural instability, and bradykinesia. We assessed associations between perceived caregiver burden and physical, cognitive, and functional impairments using well-established tools for persons with parkinsonism. The 49 individuals with parkinsonism ranged in age from 61 to 87 (mean = 75), while their caregivers (N = 49) ranged in age from 48 to 83 (mean = 70).

Deep brain stimulation for dystonia: a meta-analysis.

Objective.  To use a meta-analysis on all reported cases of deep brain stimulation (DBS) for dystonia to determine which factors significantly influence outcome. The Burke-Fahn-Marsden (BFM) movement scale, the most reported measure, was chosen as the primary outcome measure for this analysis.

Restricted ablative lesions in motor portions of GPi in primates produce extensive loss of motor-related neurons and degeneration of the lenticular fasciculus.

Deep brain stimulation (DBS) of the internal pallidum (GPi) and the subthalamic nucleus and to a lesser extent, ablative lesioning, are broadly utilized to treat patients with medically intractable Parkinson's disease and other movement disorders. Beneficial outcomes however are not uniform and adverse cognitive and behavioral are significant risks. Surgical outcomes of GPi surgeries might be improved by approaches that better account for the course of motor and non-motor pallidothalamic projections.

Movement disorders in the older patient: differential diagnosis and general management.

Movement disorders are especially prevalent in the elderly, and some are highly treatable. Because reduced agility and slowing of gait are associated with numerous movement disorders as well as with the normal aging process, the differential diagnosis of movement disorders in the elderly can be challenging. Many of these disorders share features of parkinsonism-hypokinesia, tremor, and muscular rigidity.

Effects of transient focal inactivation of the basal ganglia in parkinsonian primates.

Ablative and chronic stimulation procedures targeting the internal pallidum (GPi) and the subthalamic nucleus (STN) have led to major advancements in the treatment of Parkinson's disease and other movement disorders. Although these procedures have evolved to primarily target the posterior ventrolateral sensorimotor portion of GPi and to less selectively target STN, centrally, the ideal targets within these structures remain to be fully established. In this study, we sought to identify the optimal targeting sites in GPi and STN for reversal of parkinsonian signs through a series of reversible injections of the GABA(A) agonist muscimol in these nuclei in parkinsonian primates.