Deep brain stimulation for Parkinson's disease

Hariz, Marwan; Blomstedt, Patric

doi:10.1111/joim.13541

Cited by 81 publications

(45 citation statements)

References 127 publications

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“…This study has several limitations. The primary effect of STN DBS is on motor symptoms of PD patients (Hariz and Blomstedt, 2022). In the present study, we assessed basic motor function by using the simple reaction task and found no effect of DBS-STN on it.…”

Section: Discussionmentioning

confidence: 50%

Role of the subthalamic nucleus in perceiving and estimating the passage of time

Honma

Sasaki²,

Kamo³

et al. 2023

Front. Aging Neurosci.

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Sense of time (temporal sense) is believed to be processed by various brain regions in a complex manner, among which the basal ganglia, including the striatum and subthalamic nucleus (STN), play central roles. However, the precise mechanism for processing sense of time has not been clarified. To examine the role of the STN in temporal processing of the sense of time by directly manipulating STN function by switching a deep brain stimulation (DBS) device On/Off in 28 patients with Parkinson’s disease undergoing STN-DBS therapy. The test session was performed approximately 20 min after switching the DBS device from On to Off or from Off to On. Temporal sense processing was assessed in three different tasks (time reproduction, time production, and bisection). In the three temporal cognitive tasks, switching STN-DBS to Off caused shorter durations to be produced compared with the switching to the On condition in the time production task. In contrast, no effect of STN-DBS was observed in the time bisection or time reproduction tasks. These findings suggest that the STN is involved in the representation process of time duration and that the role of the STN in the sense of time may be limited to the exteriorization of memories formed by experience.

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Section: Discussionmentioning

confidence: 50%

Role of the subthalamic nucleus in perceiving and estimating the passage of time

Honma

Sasaki²,

Kamo³

et al. 2023

Front. Aging Neurosci.

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“…Electrical stimulation of the subthalamic nucleus (STN) is an established clinical therapy for reducing motor deficits associated with PD (Benabid et al 2009 ; Hariz and Blomstedt 2022 ), and the STN is considered a potential element in BG connections to the cerebellum. None of our cases labeled more than a few cells in STN, and it is likely that the effects of STN stimulation are mediated by its projections to GPi and SNr.…”

Section: Discussionmentioning

confidence: 99%

Nucleus reticularis tegmenti pontis: a bridge between the basal ganglia and cerebellum for movement control

2023

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Neural processing in the basal ganglia is critical for normal movement. Diseases of the basal ganglia, such as Parkinson’s disease, produce a variety of movement disorders including akinesia and bradykinesia. Many believe that the basal ganglia influence movement via thalamic projections to motor areas of the cerebral cortex and through projections to the cerebellum, which also projects to the motor cortex via the thalamus. However, lesions that interrupt these thalamic pathways to the cortex have little effect on many movements, including limb movements. Yet, limb movements are severely impaired by basal ganglia disease or damage to the cerebellum. We can explain this impairment as well as the mild effects of thalamic lesions if basal ganglia and cerebellar output reach brainstem motor regions without passing through the thalamus. In this report, we describe several brainstem pathways that connect basal ganglia output to the cerebellum via nucleus reticularis tegmenti pontis (NRTP). Additionally, we propose that widespread afferent and efferent connections of NRTP with the cerebellum could integrate processing across cerebellar regions. The basal ganglia could then alter movements via descending projections of the cerebellum. Pathways through NRTP are important for the control of normal movement and may underlie deficits associated with basal ganglia disease.

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“…The patient walks now with great difficulty, and unable any longer to support himself with his stick, he dares not venture on this exercise, unless assisted by an attendant, who walking backwards before him, prevents his falling forwards, by the pressure of his hands against the fore part of his shoulders.' PD is a neurodegenerative disorder that generates both motor dysfunctions as well as other symptoms such as depression, pain, constipation, sleep disorders, cognitive decline and autonomic dysfunction [55]. The cardinal mo-tor symptoms of PD are tremor, ridigity, akinesia (both bradykinesia, slowness of movements, and hypokinesia, small amplitude of movement) and postural instability.…”

Section: Parkinson's Diseasementioning

confidence: 99%

“…Dopamine is a neurotransmitter used in the motor circuitry and with its depletion, the projections from the SN to striatum will start to degrade. [55] The symptoms of PD are first treated with levodopa, a dopamine precursor that can cross the blood-brain barrier, and converts to dopamine in the brain [55,58]. In the beginning, this treatment can often satisfactorily control the PD symptoms but with the progression of the disease, many patients experience motor fluctuations from variations in dopamine levels and levodopa-induces dyskinesias (involuntary movements).…”

Section: Parkinson's Diseasementioning

confidence: 99%

“…At this stage, DBS surgery an alternative for controlling the dyskinesias together with the PD symptoms and possibly a reduction of the levodopa dose. [55] There are two established targets for PD, the STN and the GPi. Both targets manage all the cardinal PD symptoms, where STN might have a better symptomatic effect but also a higher risk of adverse effects [2].…”

Section: Parkinson's Diseasementioning

confidence: 99%

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Computational Models in Deep Brain Stimulation : Patient‐Specific Simulations, Tractography, and Group Analysis

Nordin

2023

Linköping Studies in Science and Technology. Dissertations

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Deep brain stimulation (DBS) is an established method for symptom relief in movement disorders like Parkinson's disease, essential tremor (ET), and dystonia. The therapy is based on implanting an electrode with four contacts in the deep brain structures where it provides electrical stimulation, mainly impacting the nerve tracts. Despite the evidence of DBS effectiveness, there are still questions regarding the optimal position of stimulation. With new technology, the possibility to customize the stimulation increases, which makes the programming session for each patient more complicated and tedious. Different computational models have been developed to estimate the anatomical impact of stimulation. Patient-specific electric field simulations can be used to estimate the spatial extent of the stimulation and superimpose on patient magnetic resonance imaging (MRI) for anatomical analysis. MRI weighted with water diffusion can be used for reconstructions of nerve tracts, a process called tractography. Tractography utilizes the fact that water can move unrestricted along the nerve trajectories, but the diffusion is restricted in the perpendicular direction, i.e., the diffusion is anisotropic. For tremor, the dentato-rubro-thalamic tract (DRT) has gained interest.

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Deep brain stimulation for Parkinson's disease

Cited by 81 publications

References 127 publications

Role of the subthalamic nucleus in perceiving and estimating the passage of time

Role of the subthalamic nucleus in perceiving and estimating the passage of time

Nucleus reticularis tegmenti pontis: a bridge between the basal ganglia and cerebellum for movement control

Computational Models in Deep Brain Stimulation : Patient‐Specific Simulations, Tractography, and Group Analysis

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