Post-mortem and neuroimaging studies suggest that the serotonergic system, which originates from the brainstem raphe nuclei, is disrupted in Parkinson's disease. This could contribute to the occurrence of non-motor symptoms and tremor, which are only partially explained by dopamine loss. However, the level of involvement of the serotonergic raphe nuclei in early Parkinson's disease is still debated. (123)I-FP-CIT single photon emission computed tomography is a marker of dopamine and serotonin transporter availability. While (123)I-FP-CIT binds primarily to dopamine transporters in the striatum, its binding in the brainstem raphe nuclei reflects serotonin transporter availability. We interrogated baseline single photon emission computed tomography scans of subjects recruited by the Parkinson's Progression Markers Initiative to determine: (i) the integrity of the brainstem raphe nuclei in early Parkinson's disease; and (ii) whether raphe serotonin transporter levels correlate with severity of tremor and symptoms of fatigue, depression, and sleep disturbance. Three hundred and forty-five patients with early drug-naïve Parkinson's disease, 185 healthy controls, and 56 subjects with possible Parkinson's disease without evidence of dopaminergic deficit were included. In the Parkinson's disease cohort, 37 patients had a tremulous, 106 patients had a pure akinetic-rigid, and 202 had a mixed phenotype. Patients with Parkinson's disease had significantly lower serotonin transporter availability in the brainstem raphe nuclei compared to controls (P < 0.01) and subjects without evidence of dopaminergic deficit (P < 0.05). However, only 13% of patients with Parkinson's disease individually had reduced signals. Raphe serotonin transporter availability over the entire Parkinson's disease cohort were associated with rest tremor amplitude (β = -0.106, P < 0.05), rest tremor constancy (β = -0.109, P < 0.05), and index of rest tremor severity (β = -0.104, P < 0.05). The tremulous Parkinson's disease subgroup had significantly lower raphe serotonin transporter availability but less severe striatal dopaminergic deficits compared to akinetic-rigid patients with no resting tremor (P < 0.05). In tremulous patients, raphe serotonin transporter availability was also associated with rest tremor constancy (β = -0.380, P < 0.05) and index of rest tremor severity (β = -0.322, P < 0.05). There was no association between raphe serotonin transporter availability and fatigue, depression, excessive daytime sleepiness, or rapid eye movement sleep behaviour disorder in early Parkinson's disease. We conclude that the raphe nuclei are affected in a subgroup of early drug-naïve Parkinson's disease patients and that reduced raphe serotonin transporter availability is associated with the severity of resting tremor but not non-motor symptoms.
Traumatic brain injury can reduce striatal dopamine levels. The cause of this is uncertain, but is likely to be related to damage to the nigrostriatal system. We investigated the pattern of striatal dopamine abnormalities using 123I-Ioflupane single-photon emission computed tomography (SPECT) scans and their relationship to nigrostriatal damage and clinical features. We studied 42 moderate-severe traumatic brain injury patients with cognitive impairments but no motor parkinsonism signs and 20 healthy controls. 123I-Ioflupane scanning was used to assess dopamine transporter levels. Clinical scan reports were compared to quantitative dopamine transporter results. Advanced MRI methods were used to assess the nigrostriatal system, including the area through which the nigrostriatal projections pass as defined from high-resolution Human Connectome data. Detailed clinical and neuropsychological assessments were performed. Around 20% of our moderate-severe patients had clear evidence of reduced specific binding ratios for the dopamine transporter in the striatum measured using 123I-Ioflupane SPECT. The caudate was affected more consistently than other striatal regions. Dopamine transporter abnormalities were associated with reduced substantia nigra volume. In addition, diffusion MRI provided evidence of damage to the regions through which the nigrostriatal tract passes, particularly the area traversed by dopaminergic projections to the caudate. Only a small percentage of patients had evidence of macroscopic lesions in the striatum and there was no relationship between presence of lesions and dopamine transporter specific binding ratio abnormalities. There was also no relationship between reduced volume in the striatal subregions and reduced dopamine transporter specific binding ratios. Patients with low caudate dopamine transporter specific binding ratios show impaired processing speed and executive dysfunction compared to patients with normal levels. Taken together, our results suggest that the dopaminergic system is affected by a moderate-severe traumatic brain injury in a significant proportion of patients, even in the absence of clinical motor parkinsonism. Reduced dopamine transporter levels are most commonly seen in the caudate and this is likely to reflect the pattern of nigrostriatal tract damage produced by axonal injury and associated midbrain damage.
Objective: To investigate whether a serotonin-to-dopamine terminal ratio is related to the appearance of dyskinesias in patients with Parkinson disease (PD).Methods: Twenty-eight patients with idiopathic PD (17 with levodopa-induced dyskinesias [LIDs], 11 without dyskinesias) and 12 age-matched healthy controls were studied with PET and 5[11 C]-3-amino-4-(2-dimethylaminomethylphenyl-sulfanyl)-benzonitrile ( 11 C-DASB) and with SPECT and [ 123 I]N-w-fluoropropyl-2b-carbomethoxy-3b-(4-iodophenyl)nortropane ( 123 I-ioflupane), which are in vivo specific markers of the serotonin and dopamine transporters' availability, respectively. We have employed a simplified reference tissue model for the quantification of 11 C-DASB, whereas a semiquantification approach was used for 123 I-ioflupane data. We calculated 11 C-DASB binding to 123 I-ioflupane uptake ratios for the caudate and the putamen.Results: Patients with PD showed striatal decreases in 11 C-DASB binding potential (p , 0.01) and in 123 I-ioflupane mean uptake (p , 0.001) compared to controls. The mean 11 C-DASB binding to 123 I-ioflupane uptake ratio in the putamen was 0.779 (increased by 75.8% of the controls' mean) for the nondyskinetic group and 0.901 (increased by 103.4% of the controls' mean) for the patients with dyskinesias. There was a statistically significant difference (p , 0.001) in 11 C-DASB binding to 123 I-ioflupane uptake ratio in the putamen between the group of patients with and without dyskinesias. Higher 11 C-DASB to 123 I-ioflupane binding ratios correlated with longer disease duration for the 28 patients with PD (r 5 0.52; p , 0.01).Conclusions: Serotonin-to-dopamine transporter binding ratio increases as PD progresses and patients experience LIDs. Our findings suggest that, when the dopaminergic innervation in the striatum is critically low, the serotonergic system plays an important role in development of LIDs. Studies in the animal model of Parkinson disease (PD)1 as well as in humans 2-4 have indicated that degeneration of dopaminergic presynaptic terminals in the striatum is critical in the development of L-dopa-induced dyskinesias (LIDs). Due to the progressive degeneration, striatal dopaminergic terminals lose their dopamine storage capacity and the ability to maintain a stable dopamine release rate in the synapse. 5 Serotonergic terminals have been found capable of converting exogenous levodopa into dopamine, store it in synaptic vesicles, and release it in an activity-dependent manner. [6][7][8][9] The above studies propose that serotonergic terminals in the degenerating striatum are responsible for mishandling exogenous levodopa and exacerbating dyskinesia in the animal model 10-12 and PD.13 Accordingly, the presence of dyskinesia could be a reflection of serotonergic over
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