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Query: UMLS:C0030567 (
Parkinson's disease
)
63,064
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dysphagia is a relevant symptom in
Parkinson's disease
, whose pathophysiology is poorly understood. It is mainly attributed to degeneration of brainstem nuclei. However, alterations in the cortical contribution to deglutition control in the course of
Parkinson's disease
have not been investigated. Here, we sought to determine the patterns of cortical swallowing processing in patients with
Parkinson's disease
with and without dysphagia. Swallowing function in patients was objectively assessed with fiberoptic endoscopic evaluation. Swallow-related cortical activation was measured using whole-head magnetoencephalography in 10 dysphagic and 10 non-dysphagic patients with
Parkinson's disease
and a healthy control group during self-paced swallowing. Data were analysed applying synthetic aperture magnetometry, and group analyses were done using a permutation test. Compared with healthy subjects, a strong decrease of cortical swallowing activation was found in all patients. It was most prominent in participants with manifest dysphagia. Non-dysphagic patients with
Parkinson's disease
showed a pronounced shift of peak activation towards lateral parts of the premotor, motor and inferolateral parietal cortex with reduced activation of the supplementary motor area. This pattern was not found in dysphagic patients with
Parkinson's disease
. We conclude that in
Parkinson's disease
, not only brainstem and basal ganglia circuits, but also cortical areas modulate swallowing function in a clinically relevant way. Our results point towards adaptive cerebral changes in swallowing to compensate for deficient motor pathways.
Recruitment
of better preserved parallel motor loops driven by sensory afferent input seems to maintain swallowing function until progressing neurodegeneration exceeds beyond the means of this adaptive strategy, resulting in manifestation of dysphagia.
...
PMID:Evidence for adaptive cortical changes in swallowing in Parkinson's disease. 2341 35
Healthy older adults typically perform worse than younger adults at rule-based category learning, but better than patients with Alzheimer's or
Parkinson's disease
. To further investigate aging's effect on rule-based category learning, we monitored event-related potentials (ERPs) while younger and neuropsychologically typical older adults performed a visual category-learning task with a rule-based category structure and trial-by-trial feedback. Using these procedures, we previously identified ERPs sensitive to categorization strategy and accuracy in young participants. In addition, previous studies have demonstrated the importance of neural processing in the prefrontal cortex and the medial temporal lobe for this task. In this study, older adults showed lower accuracy and longer response times than younger adults, but there were two distinct subgroups of older adults. One subgroup showed near-chance performance throughout the procedure, never categorizing accurately. The other subgroup reached asymptotic accuracy that was equivalent to that in younger adults, although they categorized more slowly. These two subgroups were further distinguished via ERPs. Consistent with the compensation theory of cognitive aging, older adults who successfully learned showed larger frontal ERPs when compared with younger adults.
Recruitment
of prefrontal resources may have improved performance while slowing response times. Additionally, correlations of feedback-locked P300 amplitudes with category-learning accuracy differentiated successful younger and older adults. Overall, the results suggest that the ability to adapt one's behavior in response to feedback during learning varies across older individuals, and that the failure of some to adapt their behavior may reflect inadequate engagement of prefrontal cortex.
...
PMID:Compensatory processing during rule-based category learning in older adults. 2642 22
Purpose
: To explore the perceptions, use and interest to use telepractice by speech-language pathologists (SLPs) to deliver services to people with
Parkinson's disease
(PwPD).
Method
: A cross-sectional, mixed-methods online survey was conducted.
Recruitment
of SLPs with an active caseload of PwPD was conducted through non-probability, purposive sampling. Data were analysed using frequency distribution and thematic analysis.
Result
: A total of 63 SLPs responded. The majority (82.5%) were interested in telepractice, but only 23.1% provided services to PwPD online. Monitoring of motor speech function, and therapy were the primary services delivered online. Of those who did not currently offer online services to PwPD, 77.5% expressed interest to use telepractice. The development of telepractice guidelines and a comprehensive list of available software were the resources most requested to assist clinicians in offering such services. Most perceived telepractice as an appropriate delivery method for speech-language pathology services. However, views regarding the preference for face-to-face delivery were divided.
Conclusion
: SLPs view telepractice as a viable service delivery model for PwPD, but uptake of the model is variable. Several key barriers and resource limitations must be addressed to facilitate the implementation and sustainability of telepractice in clinical services.
...
PMID:Speech-language pathologists' perceptions of the use of telepractice in the delivery of services to people with Parkinson's disease: A national pilot survey. 3141 41
Olfactory dysfunction is an early manifestation of
Parkinson's disease
(PD). The present study aimed to illustrate potential differences between PD patients and healthy controls in terms of neural activity and functional connectivity within the olfactory brain network. Twenty PD patients and twenty healthy controls were examined with olfactory fMRI and resting-state fMRI. Data analysis of olfactory fMRI included data-driven tensorial independent component (ICA) and task-driven general linear model (GLM) analyses. Data analysis of resting-state fMRI included probabilistic ICA based on temporal concatenation and functional connectivity analysis within the olfactory network. ICA of olfactory fMRI identified an olfactory network consisting of the posterior piriform cortex, insula, right orbitofrontal cortex and thalamus.
Recruitment
of this network was less significant for PD patients. GLM analysis revealed significantly lower activity in the insula bilaterally and the right orbitofrontal cortex in PD compared to healthy controls but no significant differences in the olfactory cortex itself. Analysis of resting-state fMRI did not reveal any differences in the functional connectivity within the olfactory, default mode, salience or central executive networks between the two groups. In conclusion, olfactory dysfunction in PD is associated with less significant recruitment of the olfactory brain network. ICA could demonstrate differences in both the olfactory cortex and its main projections, compared to GLM that revealed differences only on the latter. Resting-state fMRI did not reveal any significant differences in functional connectivity within the olfactory, default mode, salience and central executive networks in this cohort.
...
PMID:A study of neural activity and functional connectivity within the olfactory brain network in Parkinson's disease. 3149 35
