Jee Hyun Ham

Presynaptic dopamine depletion predicts levodopa-induced dyskinesia in de novo Parkinson disease

Objective: To investigate whether the magnitude of presynaptic dopamine depletion is a risk factor for the development of levodopa-induced dyskinesia (LID) in Parkinson disease (PD) by quantitatively analyzing 18F-FP-CIT PET data. Methods: This retrospective cohort study enrolled a total of 127 drug-naive de novo patients with PD who completed 18F-FP-CIT PET scanning at their initial evaluation. The patients visited our outpatient clinic every 3–6 months and had been followed for a minimum of 2 years since beginning dopaminergic medication. The predictive power of the quantitatively analyzed 18F-FP-CIT uptake of striatal subregions and other clinical factors for the development of LID was evaluated using Cox proportional hazard models. Results: During a mean follow-up period of 3.4 years, 35 patients with PD (27.6%) developed LID. Patients with LID showed less dopamine transporter (DAT) activity in the putamen than did those without LID. Multivariate Cox proportional hazard models revealed that the DAT uptakes of the anterior putamen (hazard ratio [HR] 0.530; p = 0.032), posterior putamen (HR 0.302; p = 0.024), and whole putamen (HR 0.386; p = 0.022) were significant predictors of the development of LID, whereas DAT activities in the caudate and ventral striatum were not significantly correlated with the development of LID. In addition, younger age at onset of PD and higher dose of levodopa were also significant predictors of the development of LID. Conclusions: The present results provide convincing evidence that presynaptic dopaminergic denervation in PD plays a crucial role in the development of LID.

The burden of white matter hyperintensities is a predictor of progressive mild cognitive impairment in patients with Parkinson's disease

To evaluate whether white matter hyperintensities (WMHs) may act as an independent predictor for progression of cognitive status, the authors analyzed the longitudinal effects of WMHs on cognitive dysfunction in non‐demented patients with Parkinsons disease (PD).

Olfactory performance acts as a cognitive reserve in non-demented patients with Parkinson's disease

OBJECTIVE To explore whether olfactory performance acts as a cognitive reserve in non-demented patients with Parkinsons disease (PD). METHODS Patients with non-demented PD (n = 119) underwent T1-weighted MRI and olfactory identification tests. According to their olfactory performance, PD patients were subdivided into three groups of high score (PD-H, n = 38), middle score (PD-M, n = 48), and low score (PD-L, n = 33). We investigated the pattern of gray matter (GM) density according to olfactory performance using voxel-based morphometry (VBM) and analyzed the correlation between GM density and olfactory performance. RESULTS No significant differences in demographic characteristics were observed among the groups. A neuropsychological test showed that cognitive deficits in verbal memory function were more severe in the PD-L group than in the PD-H group. However, a VBM analysis revealed that patients in the PD-H group possessed significantly decreased GM density in the bilateral temporal areas, orbitofrontal areas, mesiofrontal areas extending into the cingulate gyrus, and prefrontal areas, compared with patients in the PD-L group. No areas exhibiting a significant difference in GM density were observed between the PD-H and PD-M groups. Olfactory performance in patients with PD was negatively correlated with both the brain GM volume and intracerebral volume; in particular, GM density in the caudate nucleus and putamen exhibited a negative correlation with olfactory performance. CONCLUSIONS Our data show that a high olfactory performance may compensate GM volume loss in order to minimize the exhibition of cognitive impairment and thus may act as a cognitive reserve in non-demented patients with PD.

Dopaminergic modulation of resting-state functional connectivity in de novo patients with Parkinson's disease

Parkinsons disease (PD) is characterized by degenerative changes of nigral dopamine neurons, resulting in the dopaminergic denervation of the striatum. Resting state networks studies have demonstrated that dopamine modulates distinct network connectivity patterns in both a linear and a nonlinear fashion, but quantitative analyses of dopamine‐dependent functional connectivity secondary to PD pathology were less informative. In the present study, we performed a correlation analysis between striatal dopamine levels assessed quantitatively by FP‐CIT positron emission tomography imaging and resting‐state functional connectivity in 23 drug naïve de novo patients with PD to elucidate dopamine‐dependent functional networks. The major finding is that the patterns of dopamine‐dependent positive functional connectivity varied depending on the location of striatal seeds. Dopamine‐dependent functional connectivity with the caudate predominantly overlay pericentral cortical areas, whereas dopamine‐dependent structures functionally connected with the posterior putamen predominantly involved cerebellar areas. The dorsolateral frontal area overlapped as a dopamine‐dependent cortical region that was positively connected with the anterior and posterior putamen. On the other hand, cortical areas where functional connectivity from the posterior cingulate was negatively correlated with dopaminergic status in the posterior putamen were localized in the left anterior prefrontal area and the parietal area. Additionally, functional connectivity between the anterior putamen and mesiofrontal areas was negatively coupled with striatal dopamine levels. The present study demonstrated that dopamine‐dependent functional network connectivity secondary to PD pathology mainly exhibits a consistent pattern, albeit with some variation. These patterns may reflect the diverse effects of dopaminergic medication on parkinsonian‐related motor and cognitive performance. Hum Brain Mapp 35:5431–5441, 2014.

Subjective cognitive decline predicts future deterioration in cognitively normal patients with Parkinson's disease

Increasing evidence suggests that subjective cognitive decline (SCD) is a potential predictor of future cognitive decline or dementia. We investigated whether SCD in patients with Parkinsons disease (PD) is a predictor of future cognitive decline. Forty-six cognitively normal patients with PD were selected using comprehensive neuropsychological tests, and classified depending on the presence (PD-SCD(+), n = 25) or absence of SCD (PD-SCD(-), n = 21). After a mean follow-up of 2.4 years, we repeated the cognitive assessments with the same subjects. The clinical characteristics and cognitive performance of the 2 groups did not differ at baseline. At the follow-up assessment, 11 patients in the PD-SCD(+) group (44.0%) and 2 in the PD-SCD(-) group (9.5%) were diagnosed with mild cognitive impairment (MCI), and the PD-SCD(+) patients showed more rapid decline in semantic fluency and visuospatial memory tasks than those in the PD-SCD(-) group. A multivariate logistic regression analysis showed that presence of SCD (odds ratio, 8.378; 95% confidential interval, 1.472-47.683, p = 0.017) and higher Unified PD Rating Scale motor score of 20 or more (odds ratio, 4.539; 95% confidential interval, 1.004-20.528; p = 0.049) were risk factors for incident MCI. Present results demonstrate that SCD in cognitively normal patients with PD is an independent risk factor for incident MCI and acts as a predictor for future cognitive decline.

Gender Differences in Age-Related Striatal Dopamine Depletion in Parkinson’s Disease

Objective Gender differences are a well-known clinical characteristic of Parkinson’s disease (PD). In-vivo imaging studies demonstrated that women have greater striatal dopamine transporter (DAT) activity than do men, both in the normal population and in PD patients. We hypothesize that women exhibit more rapid aging-related striatal DAT reduction than do men, as the potential neuroprotective effect of estrogen wanes with age. Methods This study included 307 de novo PD patients (152 men and 155 women) who underwent DAT scans for an initial diagnostic work-up. Gender differences in age-related DAT decline were assessed in striatal sub-regions using linear regression analysis. Results Female patients exhibited greater DAT activity compared with male patients in all striatal sub-regions. The linear regression analysis revealed that age-related DAT decline was greater in the anterior and posterior caudate, and the anterior putamen in women compared with men; we did not observe this difference in other sub-regions. Conclusions This study demonstrated the presence of gender differences in age-related DAT decline in striatal sub-regions, particularly in the antero-dorsal striatum, in patients with PD, presumably due to aging-related decrease in estrogen. Because this difference was not observed in the sensorimotor striatum, this finding also suggests that women may not have a greater capacity to tolerate PD pathogenesis than do men.

Apathy and striatal dopamine defects in non-demented patients with Parkinson's disease

INTRODUCTION Apathy is a common, disabling symptom in Parkinsons disease (PD). The mechanisms underlying apathy in PD are still unclear, although they may be related to dysfunction in the meso-cortico-limbic circuit, including the ventral striatum. Thus, we performed this study to investigate whether dopamine depletion in the ventral striatum contributes to apathy in PD. METHODS We conducted a survey of the degree of apathy (using the Korean version of the Apathy Evaluation Scale, AES-S) in 108 non-demented patients with PD who underwent dopamine transporter (DAT) positron emission tomography scans as an initial diagnostic work-up. Patients with AES-S scores of 37 or higher were defined as having apathetic PD. The Beck Depression Inventory (BDI) was administered to assess the severity of depression. Patients with BDI scores of 15 or higher were regarded as having depression. RESULTS Apathetic patients (n = 34) tended to exhibit higher BDI scores than non-apathetic patients (n = 74); however, other clinical variables were comparable between the two groups. DAT activity in the striatal sub-regions was also similar between the two groups. Selecting only non-depressed patients, including 20 apathetic and 47 non-apathetic patients, did not alter the results. CONCLUSIONS This study demonstrated that the pattern of striatal dopamine depletion does not contribute to the degree of apathy in early PD. Apathy in PD may be associated with extra-striatal lesions that accompany PD rather than striatal dopaminergic deficits.

Cognitive and cortical thinning patterns of subjective cognitive decline in patients with and without Parkinson's disease

BACKGROUND Subjective cognitive decline (SCD) has gained attention as a predictor of future cognitive decline in neurodegenerative diseases. Based on the hypothesis that different pathologies may distinctly contribute to SCD, we investigated the cognitive profiles and cortical thickness of patients with SCD, with and without Parkinsons disease (PD). METHODS In total, 96 patients experiencing SCD were classified as having PD (SCD-PD(+), n = 49) or no neurological disease (SCD-PD(-), n = 47); cognitively normal subjects without SCD (n = 23) were included as controls. Neurocognitive profiles and cortical thickness were examined using standardized neuropsychological tests and magnetic resonance imaging-based analysis. RESULTS No significant differences in demographic characteristics were found among the three groups. Neuropsychological tests demonstrated that the SCD-PD(+) patients had lower semantic fluency than SCD-PD(-) patients and controls, and showed poorer performance in visual memory and confrontational naming than controls, whereas no significant difference in cognitive performance was observed between the SCD-PD(-) patients and controls. Cortical thickness analysis revealed that the SCD-PD(+) patients had focal cortical thinning in the dorsolateral prefrontal, orbitofrontal, parietal, and parahippocampal areas compared with controls. Compared with SCD-PD(-) patients, SCD-PD(+) patients had cortical thinning in the frontal, parahippocampal, and posterior cortical areas. CONCLUSION Our data show that cortical thinning and cognitive performance in patients with SCD may differ based on the presence of PD, suggesting that SCD in patients with PD reflects disease-related cortical thinning and cognitive dysfunctions more closely than SCD without PD.

Nigrostriatal dopamine-independent resting-state functional networks in Parkinson's disease

As an indicator of synchronous neural activity, resting-state functional networks are influenced by neuropathological and neurochemical changes in degenerative diseases. To further advance understanding about neurochemical and neuropathological basis for resting-state functional maps, we performed a comparative analysis of resting-state functional connectivity in patients with Parkinsons disease (PD) and drug induced parkinsonism (DIP). Resting-state neuroimaging data were analyzed with a seed-based approach to investigate striatocortical functional connectivity and cortical functional connectivity within the default mode network, executive control network, and the dorsal attention network. The striatal subregions were divided into the more or less affected sides in terms of dopamine transporter uptake. Compared with DIP, PD exhibited an increased cerebellar connectivity from the more affected side of the caudate and the less affected sides of the anterior and the posterior putamen. Additionally, PD showed increased functional connectivity in the anterior prefrontal areas from the more affected side of the anterior putamen and from the less affected side of the posterior putamen. However, PD exhibited decreased cortical functional connectivity from the posterior cingulate cortex in the left temporal area. Finally, DIP patients showed decreased cortical functional connectivity from the dorsolateral prefrontal cortex in frontal and parietal areas compared with PD patients. In summary, the present study demonstrates that PD patients exhibited a unique resting state functional connectivity that may be associated with PD-related pathological changes beyond the dopaminergic system, whereas DIP patients showed altered functional connectivity within executive control network.

Does serum uric acid act as a modulator of cerebrospinal fluid Alzheimer's disease biomarker related cognitive decline?

The association of serum uric acid, cerebrospinal fluid (CSF) biomarkers of Alzheimers disease (AD) and longitudinal cognitive decline was evaluated using the AD Neuroimaging Initiative database.