Eero Pekkonen scite author profile

In the course of Parkinson's disease (PD), the enteric nervous system (ENS) and parasympathetic nerves are amongst the structures earliest and most frequently affected by alpha-synuclein pathology. Accordingly, gastrointestinal dysfunction, in particular constipation, is an important non-motor symptom in PD and often precedes the onset of motor symptoms by years. Recent research has shown that intestinal microbiota interact with the autonomic and central nervous system via diverse pathways including the ENS and vagal nerve. The gut microbiome in PD has not been previously investigated. We compared the fecal microbiomes of 72 PD patients and 72 control subjects by pyrosequencing the V1-V3 regions of the bacterial 16S ribosomal RNA gene. Associations between clinical parameters and microbiota were analyzed using generalized linear models, taking into account potential confounders. On average, the abundance of Prevotellaceae in feces of PD patients was reduced by 77.6% as compared with controls. Relative abundance of Prevotellaceae of 6.5% or less had 86.1% sensitivity and 38.9% specificity for PD. A logistic regression classifier based on the abundance of four bacterial families and the severity of constipation identified PD patients with 66.7% sensitivity and 90.3% specificity. The relative abundance of Enterobacteriaceae was positively associated with the severity of postural instability and gait difficulty. These findings suggest that the intestinal microbiome is altered in PD and is related to motor phenotype. Further studies are warranted to elucidate the temporal and causal relationships between gut microbiota and PD and the suitability of the microbiome as a biomarker.

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Gut microbiota in Parkinson's disease: Temporal stability and relations to disease progression

Aho

et al. 2019

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Background Several publications have described differences in cross-sectional comparisons of gut microbiota between patients with Parkinson's disease and control subjects, with considerable variability of the reported differentially abundant taxa. The temporal stability of such microbiota alterations and their relationship to disease progression have not been previously studied with a high-throughput sequencing based approach. Methods We collected clinical data and stool samples from 64 Parkinson's patients and 64 control subjects twice, on average 2·25 years apart. Disease progression was evaluated based on changes in Unified Parkinson's Disease Rating Scale and Levodopa Equivalent Dose, and microbiota were characterized with 16S rRNA gene amplicon sequencing. Findings We compared patients to controls, and patients with stable disease to those with faster progression. There were significant differences between microbial communities of patients and controls when corrected for confounders, but not between timepoints. Specific bacterial taxa that differed between patients and controls at both timepoints included several previously reported ones, such as Roseburia, Prevotella and Bifidobacterium . In progression comparisons, differentially abundant taxa were inconsistent across methods and timepoints, but there was some support for a different distribution of enterotypes and a decreased abundance of Prevotella in faster-progressing patients. Interpretation The previously detected gut microbiota differences between Parkinson's patients and controls persisted after 2 years. While we found some evidence for a connection between microbiota and disease progression, a longer follow-up period is required to confirm these findings.

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Oral and nasal microbiota in Parkinson's disease

Pereira

Aho

Paulín

et al. 2017

Parkinsonism & Related Disorders

154

141

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Processing of novel sounds and frequency changes in the human auditory cortex: Magnetoencephalographic recordings

et al. 1998

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Whole-head magnetoencephalographic (MEG) responses to repeating standard tones and to infrequent slightly higher deviant tones and complex novel sounds were recorded together with event-related brain potentials (ERPs). Deviant tones and novel sounds elicited the mismatch negativity (MMN) component of the ERP and its MEG counterpart (MMNm) both when the auditory stimuli were attended to and when they were ignored. MMNm generators were located bilateral to the superior planes of the temporal lobes where preattentive auditory discrimination appears to occur. A subsequent positive P3a component was elicited by deviant tones and with a larger amplitude by novel sounds even when the sounds were to be ignored. Source localization for the MEG counterpart of P3a (P3am) suggested that the auditory cortex in the superior temporal plane is involved in the neural network of involuntary attention switching to changes in the acoustic environment.

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Altered generation of spontaneous oscillations in Alzheimer's disease

et al. 2005

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More than constipation – bowel symptoms in Parkinson's disease and their connection to gut microbiota

Mertsalmi

Aho

Pereira

et al. 2017

Euro J of Neurology

118

110

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Combined mapping of human auditory EEG and MEG responses

Huotilainen

Winkler

Alho

et al. 1998

Electroencephalography and Clinical Neurophysiology/Evoked Pote

134

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Variability and replicability of the mismatch negativity

Pekkonen¹,

Rinne²,

Näätänen³

1995

Electroencephalography and Clinical Neurophysiology/Evoked Pote

125

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Eero Pekkonen

Gut microbiota are related to Parkinson's disease and clinical phenotype

Gut microbiota in Parkinson's disease: Temporal stability and relations to disease progression

Oral and nasal microbiota in Parkinson's disease

Processing of novel sounds and frequency changes in the human auditory cortex: Magnetoencephalographic recordings

Altered generation of spontaneous oscillations in Alzheimer's disease

More than constipation – bowel symptoms in Parkinson's disease and their connection to gut microbiota

Combined mapping of human auditory EEG and MEG responses

Variability and replicability of the mismatch negativity

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