Motor reserve and novel area recruitment: amplitude and spatial characteristics of compensation in Parkinson’s disease

@article{Palmer2009MotorRA,
  title={Motor reserve and novel area recruitment: amplitude and spatial characteristics of compensation in Parkinson’s disease},
  author={Samantha J. Palmer and Bernard Ng and Rafeef Abugharbieh and Lisette Eigenraam and Martin J. McKeown},
  journal={European Journal of Neuroscience},
  year={2009},
  volume={29}
}
Motor symptoms of Parkinson’s disease (PD) do not appear until the majority of dopaminergic cells in the substantia nigra pars compacta are lost, suggesting significant redundancy or compensation in the motor systems affected by PD. Using functional magnetic resonance imaging, we examined whether compensation in PD is manifested by changes in amplitude and/or spatial extent of activity within normal networks (active motor reserve) and/or newly recruited regions [novel area recruitment (NAR… 
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Joint amplitude and connectivity compensatory mechanisms in Parkinson's disease
Compensatory mechanisms in Parkinson's disease
  • J. Obeso, A. Schapira
  • Biology, Psychology
    Movement disorders : official journal of the Movement Disorder Society
  • 2009
TLDR
It is shown that individuals with PD are able to increase the recruitment of normal networks for a motor task (motor reserve) as a form of compensation, in addition to compensatory recruitment of novel networks to accomplish the same task as healthy controls.
Compensatory striatal–cerebellar connectivity in mild–moderate Parkinson's disease
Finger dexterity deficits in Parkinson's disease and somatosensory cortical dysfunction.
Effects of Parkinson disease and antiparkinson medication on central adaptations to repetitive grasping
Cortical and motor responses to acute forced exercise in Parkinson's disease.
Emerging Concepts of Motor Reserve in Parkinson’s Disease
TLDR
This review summarized a series of studies investigating MR in de novo patients with PD using the data of initial clinical presentation and dopamine transporter PET scan to hypothesized that the presence of motor reserve (MR) in PD explains the individual differences in motor deficits despite similar levels of striatal dopamine depletion.
Basal ganglia and beyond: The interplay between motor and cognitive aspects in Parkinson’s disease rehabilitation
Neuroimaging studies of brain networks in Parkinson's disease
TLDR
This work contains three studies combing both structural and functional MRI techniques to assess the neural PD motor network and to test the general hypothesis that loss of effective motor control in PD arises from disrupted connectivity.
Altered directional connectivity in Parkinson's disease during performance of a visually guided task
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References

SHOWING 1-10 OF 54 REFERENCES
Levodopa-sensitive, dynamic changes in effective connectivity during simultaneous movements in Parkinson's disease
Neural Bases of Set-Shifting Deficits in Parkinson's Disease
TLDR
FMRI results suggest that both nigrostriatal dopamine depletion and intracortical dopamine deficiency may play a role in cognitive deficits in PD, depending on the involvement of the striatum in the task at hand.
Cortical motor reorganization in akinetic patients with Parkinson's disease: a functional MRI study.
Using functional MRI (fMRI), we have studied the changes induced by the performance of a complex sequential motor task in the cortical areas of six akinetic patients with Parkinson's disease and six
Pharmacologically modulated fMRI--cortical responsiveness to levodopa in drug-naive hemiparkinsonian patients.
TLDR
These data are in accordance with the hypothesis that, in de novo idiopathic hemiparkinsonian syndrome, motor cortex hypoactivation in contralateral M1 and bilateral SMA is caused by a decreased input from the subcortical motor loop, which is reversible by L-dopa.
Motor subcircuits mediating the control of movement velocity: a PET study.
TLDR
The activation of GP with increasing movement velocity supports the hypothesis that the basal ganglia motor circuit may be involved preferentially in controlling or monitoring the scale and/or dynamics of arm movements.
Dopaminergic modulation of high-level cognition in Parkinson's disease: the role of the prefrontal cortex revealed by PET.
TLDR
It is suggested that L-dopa ameliorates high-level cognitive deficits in Parkinson's disease by inducing relative blood flow changes in the right dorsolateral prefrontal cortex.
Evidence for adaptive functional changes in the cerebral cortex with axonal injury from multiple sclerosis.
TLDR
Results suggest that compensatory cortical adaptive responses may help to account for the limited relationship between conventional MRI measures of lesion burden and clinical measures of disability, and that therapies directed towards promoting cortical reorganization in response to brain injury could enhance recovery from relapses of multiple sclerosis.
Evidence from Functional Neuroimaging of a Compensatory Prefrontal Network in Alzheimer's Disease
TLDR
Neural activity during semantic and episodic memory tasks in mildly demented AD patients and healthy elderly controls provides the most direct evidence to date that AD patients can use additional neural resources in prefrontal cortex to compensate for losses attributable to the degenerative process of the disease.
Could bradykinesia in Parkinson's disease simply be compensation?
TLDR
It is hypothesised that bradykinesia is not simply a compensation for defective preparatory processes, but may reflect a defective internal cue in PD which disrupts and impairs the outflow of motor responses.
Reappraisal of the Motor Role of Basal Ganglia: A Functional Magnetic Resonance Image Study
TLDR
FMRI mapping of sequential left-hand finger movements at five different rates under SI and ET conditions provides evidence that the basal ganglia–thalamo-motor loop plays a key role in controlling the rate of sequential finger movements in SI movement but not in ET movement.
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