Brain iron deposition fingerprints in Parkinson's disease and progressive supranuclear palsy

It can be difficult to clinically distinguish between classical Parkinson's disease (PD) and progressive supranuclear palsy. Previously, there have been no biomarkers that reliably allow this distinction to be made. We report that an abnormal brain iron accumulation is a marker for ongoing neurodegeneration in both conditions, but the conditions differ with respect to the anatomical distribution of these accumulations. We analyzed quantitative T2' maps as markers of regional brain iron content from PD and progressive supranuclear palsy patients and compared them to age-matched control subjects. T2-weighted and T2*-weighted images were acquired in 30 PD patients, 12 progressive supranuclear palsy patients, and 24 control subjects at 1.5 Tesla. Mean T2' values were determined in regions-of-interest in the basal ganglia, thalamus, and white matter within each hemisphere. The main findings were shortened T2' values in the caudate nucleus, globus pallidus, and putamen in progressive supranuclear palsy compared to PD patients and controls. A stepwise linear discriminant analysis allowed progressive supranuclear palsy patients to be distinguished from PD patients and the healthy controls. All progressive supranuclear palsy patients were correctly classified. No progressive supranuclear palsy patient was classified as a healthy control, no healthy controls were incorrectly classified as having progressive supranuclear palsy, and only 6.7% of the PD patients were incorrectly classified as progressive supranuclear palsy. Regional decreases of T2' relaxation times in parts of the basal ganglia reflecting increased brain iron load in these areas are characteristic for progressive supranuclear palsy but not PD patients.     

Loss of striatal [76Br]bromospiperone binding sites demonstrated by positron tomography in progressive supranuclear palsy

Using positron tomography and 76Br-labeled bromospiperone, a neuroleptic drug with high affinity for the dopamine (DA) receptors, we have estimated the specific binding of the radiotracer to striatal DA receptors in seven patients suffering from progressive supranuclear palsy. Compared with age- and sex-matched control subjects, we found a significant (p less than 0.02) decrease of the striatum-cerebellum uptake ratio in progressive supranuclear palsy patients, suggesting loss of striatal DA receptors. This in vivo study confirms recent postmortem data on progressive supranuclear palsy patients and provides an explanation for the lack of benefit from L-DOPA and DA agonists in this condition, despite reduced nigrostriatal dopaminergic function.     

Brain muscarinic receptors in progressive supranuclear palsy and Parkinson's disease: a positron emission tomographic study

OBJECTIVES—To assessmuscarinic acetylcholine receptors (mAChRs) in the brains of patientswith progressive supranuclear palsy and Parkinson's disease, and tocorrelate the cholinergic system with cognitive function in progressivesupranuclear palsy and Parkinson's disease.
METHODS— Positronemission tomography (PET) and [¹¹C]N-methyl-4-piperidylbenzilate ([¹¹C]NMPB) was used to measure mAChRs in thebrain of seven patients with progressive supranuclear palsy, 12 patients with Parkinson's disease, and eight healthy controls. All ofthe patients with progressive supranuclear palsy were demented. TheParkinson's disease group consisted of 11 non-demented patients andone demented patient. The mini mental state examination (MMSE) was usedto assess the severity of cognitive dysfunction in all of the subjects. The modified Wisconsin card sorting test (WCST) was used to evaluate frontal cognitive function in the non-demented patients withParkinson's disease and controls.
RESULTS—The meanK₃ value, an index of mAChR binding, was significantlyhigher for the frontal cortex in the patients with Parkinson's diseasethan in the controls (p<0.01). By contrast, the patients withprogressive supranuclear palsy had no significant changes in theK₃ values of any cerebral cortical regions. The mean score of the MMSE in the progressive supranuclear palsy group wassignificantly lower than that in the control group. Although there wasno difference between the Parkinson's disease and control groups inthe MMSE, the non-demented patients with Parkinson's disease showedsignificant frontal lobe dysfunction in the WCST.
CONCLUSIONS—Theincreased mAChR binding in the frontal cortex of the patients withParkinson's disease may reflect denervation hypersensitivity caused byloss of the ascending cholinergic input to that region from the basalforebrain and may be related to frontal lobe dysfunction inParkinson's disease. The cerebral cortical cholinergic system may nothave a major role in cognitive dysfunction in progressive supranuclear palsy.

     

Comparison of apraxia in corticobasal degeneration and progressive supranuclear palsy

OBJECTIVE: To describe ideomotor apraxia in patients with corticobasal degeneration and those with progressive supranuclear palsy, two parkinsonian disorders that are often misdiagnosed due to the overlap in their clinical features, and to determine whether systematic apraxia testing is useful for differential diagnosis. METHODS: Fourteen patients fulfilling National Institute of Neurological Disorders and Stroke-Society for Progressive Supranuclear Palsy clinical criteria for progressive supranuclear palsy, 13 patients fulfilling modified Lang criteria for corticobasal degeneration, and 12 normal healthy control subjects were given the Test of Oral and Limb Apraxia, which was scored according to the Florida Apraxia Battery for occurrence of various types of apraxic errors. RESULTS: Both patients with progressive supranuclear palsy and corticobasal degeneration committed a greater number of apraxic errors than normal healthy control subjects on both transitive and intransitive tasks (p < 0.001 in both cases), but apraxia was much more severe in patients with corticobasal degeneration than progressive supranuclear palsy (p < 0.001). The index of apraxia severity, in combination with the assessment of the two key features of progressive supranuclear palsy (falls and vertical gaze palsy), correctly classified all patients. CONCLUSIONS: Patients with corticobasal degeneration show more severe ideomotor apraxia than patients with progressive supranuclear palsy, and systematic assessment of ideomotor apraxia facilitates the differential diagnosis between patients with progressive supranuclear palsy and those with corticobasal degeneration.     

The external globus pallidus in patients with Parkinson's disease and progressive supranuclear palsy.

Underactivity of the external segment of the globus pallidus is thought to contribute to the generation of parkinsonian hypokinetic symptoms in association with striatal dopaminergic dysfunction and overactivity of the subthalamus. These symptoms can be corrected by neurosurgical techniques aimed at normalizing subthalamic overactivity. The aim of the present study was to compare the amount of neurodegeneration and changes in the calcium-binding protein parvalbumin in the external segment of the globus pallidus in parkinsonian disorders. Cases with progressive supranuclear palsy were compared with cases with Parkinson's disease and control subjects. The number of neurones and neurofibrillary tangles was estimated using unbiased stereologic techniques. The external segment of the globus pallidus in Parkinson's disease was not significantly different from that in control subjects. In contrast, most patients with progressive supranuclear palsy had significant neurodegeneration of the external pallidum, particularly patients with significant degeneration of both the subthalamus and substantia nigra. These results suggest that the parkinsonian symptoms in progressive supranuclear palsy are caused by the degeneration of the external segment of the globus pallidus because such degeneration would increase thalamic inhibition through the basal ganglia output nuclei, particularly in patients with a loss of excitatory drive from the subthalamus.     

Young onset limb spasticity with PSP-like brain and spinal cord NFT-tau pathology

A 30-year-old white man presented with a sporadic form of gradually progressive spastic gait and, later, supranuclear vertical and horizontal gaze palsy, mild cognitive impairment, loss of postural reflexes, and falls. DNA analysis revealed H1/H1 haplotype without tau gene (exons 9 to 13) mutation. Eight years later, postmortem revealed a tauopathy similar to progressive supranuclear palsy. Unusual aspects were early age at onset, neurofibrillary tangle, and tau involvement of the cord.     

Slowing of cognitive processing in progressive supranuclear palsy. A comparison with Parkinson's disease

To investigate central processing time in patients with progressive supranuclear palsy and Parkinson's disease, reaction times were measured using tasks with different levels of cognitive complexity but with the same motor response. In patients with Parkinson's disease, the additional central processing time required for more complex situations was no different from that in control subjects, suggesting that cognitive aspects of the reaction time procedures tested were possibly too simple to reveal a slowing of thought processes in these patients. Conversely, the central processing time was increased in patients with progressive supranuclear palsy compared with both Parkinson's disease and control subjects. The increase was associated with impairment in frontal lobe test performance. These results confirm that a slowing of central processing is a prominent feature of the cognitive disturbances of progressive supranuclear palsy and, furthermore, suggest that this slowing may be related to striatofrontal dysfunction.     

Clinical characteristics of progressive supranuclear paralysis (the Steele-Richardson-Olszewski syndrome)

We analyzed the clinical features and therapeutic response of 6 patients with progressive supranuclear palsy (Steele-Richardson-Olszewski syndrome). The mean duration from the onset to establishing the diagnosis was 2.7 years, with the initial false diagnosis of Parkinson's disease in 4 patients. The most common symptoms at the moment of diagnosing were unsteady gait, speech difficulties, forgetfulness and rigidity, in addition to impairment of vertical gaze. In all the patients therapeutical response was inadequate. Clinical criteria for differential diagnosis of progressive supranuclear palsy are discussed.     

Modeling trajectories of regional volume loss in progressive supranuclear palsy

Progressive supranuclear palsy is a neurodegenerative disease with progressive brain atrophy over time. It is unknown which specific brain regions decline over time, whether regional volume loss occurs in a linear fashion, and whether regional atrophy correlates with clinical decline over time in progressive supranuclear palsy. Twenty‐eight subjects meeting probable progressive supranuclear palsy criteria were prospectively recruited and completed 96 MRI scans over 2 years. Mixed‐effect models were utilized to determine which regions had significant atrophy over time and whether decline was linear or nonlinear. We assessed 13 regions across the brain, as well as whole‐brain and ventricular volume. Regional trajectories were also correlated with change in clinical measures of executive function and gait and ocular motor impairment. A linear decline was observed in all frontal and temporal regions, the superior parietal lobe, the thalamus, the caudate nuclei, and the midbrain, as well as in the whole brain. Ventricular expansion was also linear. Nonlinear decline was observed for the caudal middle frontal lobe and globus pallidus. Rates of change in the superior frontal lobe, thalamus, and midbrain were beyond those expected in normal aging. Decline in frontal lobe volume and the midbrain area correlated best to decline in clinical measures. In progressive supranuclear palsy, atrophy is occurring in multiple brain regions, particularly in those that have previously been implicated in the disease. Decline is mainly linear but can be nonlinear for some regions. The frontal lobe and midbrain seem to be playing the most significant roles in the progressive worsening of clinical signs in progressive supranuclear palsy. © 2013 Movement Disorder Society     

Dopamine D1 and D2 receptors in progressive supranuclear palsy: an autoradiographic study.

Dopamine D1 and D2 receptors were studied in brain tissue sections from a typical patient with progressive supranuclear palsy and in 7 age-matched brains. The density of D1 receptors in the caudate-putamen and frontal cortex of the patient was within control limits. By contrast, the density of nigral D1 receptors and striatal D2 receptors was dramatically reduced in the patient as compared to the control brains. This work shows again that the loss of striatal D2 receptors is the most plausible explanation for the poor response to dopaminergic drugs in patients with progressive supranuclear palsy. While the loss of nigral D1 receptors can be explained by the loss of nigral neurons, it seems that neurons bearing striatal D1 receptors are spared in progressive supranuclear palsy. The clinical effects of selective D1 agonists are worth testing in this devastating disorder.     

An autopsied case of dementia with Lewy bodies with supranuclear gaze palsy

A 66-year-old man had suffered from a slow and steady decline in both physical and cognitive function for four years. He showed bradykinesia and small step gait with supranuclear vertical gaze palsy, especially upward gaze palsy. He was started on levodopa therapy but without response. A diagnosis of progressive supranuclear palsy was clinically suspected. He died at age 69. Pathologically, many alpha-synuclein positive inclusions were detected both in the brain stem and cerebral cortices, and the diagnosis of dementia with Lewy bodies was made. Scattered alpha-synuclein-positive inclusions and threads, which may be a pathological substrate for supranuclear gaze palsy, were identified in the rostal midbrain. From a review of five cases of dementia with Lewy bodies with supranuclear gaze palsy including this case, the absence of falls in the early stage of the disease, fluctuation of cognition, hallucination and vertical gaze palsy with a more severe defect in the upward direction distinguished dementia with Lewy bodies with vertical gaze palsy from progressive supranuclear palsy. In the differential diagnosis of parkinsonism with gaze palsy, clinicians should consider dementia with Lewy bodies with gaze palsy as well as progressive supranuclear palsy.     

Could Wallerian degeneration contribute to "leuko-araiosis" in subjects free of any vascular disorder?

To determine the possible role of Wallerian degeneration secondary to the grey matter neuronal loss in the pathogenesis of "leuko-araiosis", computerised tomography (CT) of the brain was studied in 98 normotensive and non diabetic subjects free of cardiac diseases: 32 with Alzheimer's disease, 36 with Parkinson's disease, eight with progressive supranuclear palsy, and 22 controls. In Alzheimer's disease, leuko-araiosis scores were greater than in control subjects. Leuko-araiosis was more prominent in anterior periventricular areas in Parkinson's disease and progressive supranuclear palsy, and in posterior periventricular areas in Alzheimer's disease. In two patients with Alzheimer's disease and leuko-araiosis, necropsy revealed diffuse white matter pallor, mild fibrillary astrocytosis, and in one patient limited hyaline thickening of small white matter vessels, without any infarction or hypertensive change. Changes were more severe in white matter close to cortical areas with a great density of neurofibrillary tangles. Leuko-araiosis was more severe or more widespread in Alzheimer's disease than in Parkinson's disease, progressive supranuclear palsy and normal ageing. Differences in the location of leuko-araiosis between the four groups might be due to differences in the location of the grey matter disorder and Wallerian degeneration rather than amyloid in Alzheimer's disease, Parkinson's disease, progressive supranuclear palsy and normal ageing. Wallerian degeneration might be another cause of leuko-araiosis in neuro-degenerative disorders beside previously reported extra-cerebral predisposing factors and amyloid angiopathy.     

Les troubles de la marche et de l’équilibre dans les syndromes parkinsoniens « plus »

The degenerative Parkinsonian “Plus” syndromes form a heterogeneous spectrum of pathologies comprising multiple system atrophy, progressive supranuclear palsy, Lewy body disease and cortico-basal degeneration. Their developmental profile is distinguished from that of Parkinson's disease by the early appearance of gait and balance disorders, isolated freezing of gait, primary progressive freezing of gait or an isolated or “pure” akinesia. The origin of these symptoms however remains poorly understood. The association of nigrostriatal dopamine neuron loss with either cortical lesions, in the case of cortico-basal degeneration and Lewy body disease, and/or of the brainstem, in the case of progressive supranuclear palsy, explains both the severity of the motor symptoms and the lack of, or minimal, improvement following levodopa therapy. Other symptomatic drug and surgical treatments have been proposed, but with generally disappointing results. Physiotherapeutic techniques targeting balance control can bring some temporary improvements.     

Differential responsivity of mood, behavior, and cognition to cholinergic agents in elderly neuropsychiatric populations

To evaluate the possible differential responsivity of Alzheimer patients to cholinergic agents, a series of pharmacologic challenge studies in 83 neuropsychiatric patients and controls were performed contrasting a cholinergic antagonist (scopolamine) with two cholinergic agonists (arecoline and nicotine). Alzheimer patients displayed significantly greater behavioral and cognitive responses to central cholinergic blockade at lower scopolamine doses than age-matched controls or elderly depressives. These differential changes could not be explained by group differences in the sedative, physiologic, or pharmacokinetic effects of the drug. In addition, the elderly, age-matched control subjects did reveal a profile of cognitive deficits at the highest dose (0.5 mg), which temporarily mimicked the baseline impairments found in early Alzheimer's disease. Together, these findings with scopolamine suggest an increased sensitivity to cholinergic blockade in Alzheimer's disease and demonstrate the first direct evidence of anticholinergic modelling of dementia in normal elderly subjects. To investigate further the postsynaptic cholinergic responsivity in Alzheimer's disease, patients were studied with arecoline and nicotine. While the cognitive effects of both agents were modest at best, there were significant differences in mood and behavioral responses between arecoline and nicotine in Alzheimer subjects. These behavioral changes occurred at much lower doses in the Alzheimer patients than those required in normal controls, once more supporting the notion of increased behavioral sensitivity to cholinergic agents in Alzheimer's disease. In addition, the differential mood effects between these two cholinergic agonists raise new questions about receptor selectivity in the cholinergic regulation of mood.     

Brain perfusion differences in Parkinsonian disorders

We aimed to objectively examine the brain perfusion differences between PD, Parkinson variant of multiple system atrophy, and progressive supranuclear palsy. ^99mTc ethylcysteinate dimer single‐photon emission CT (SPECT) was performed in 28 patients with PD, 12 with Parkinson variant of multiple system atrophy, 19 with progressive supranuclear palsy, and 17 age‐ and sex‐matched control subjects. A voxel‐by‐voxel group analysis, using statistical parametric mapping 8, was performed to detect the differences of regional cerebral blood flow among three diseases and control groups. Regional cerebral blood flow was measured using the noninvasive Patlak plot method and calculated using a fully automated region of interest technique. Progressive supranuclear palsy showed decreased regional cerebral blood flow in the cingulate gyrus and thalamus, whereas Parkinson variant of multiple system atrophy showed decreased regional cerebral blood flow in the cerebellum, compared with other patients and controls. Regional cerebral blood flow in the thalamus could be used to discriminate progressive supranuclear palsy from other diseases and control subjects with high sensitivity. These findings suggest that parkinsonian disorders, such as PD, Parkinson variant of multiple system atrophy, and progressive supranuclear palsy show a distinct SPECT pattern in the frontal cortex, thalamus, and cerebellum. Moreover, the measurements of regional cerebral blood flow in the thalamus and cerebellum may be helpful in screening for the differential diagnosis of parkinsonian syndrome. © 2011 Movement Disorder Society     

Pathological correlates of extrapyramidal signs in Alzheimer's disease

Extrapyramidal signs frequently accompany Alzheimer's disease (AD), but the pathological substrate remains unknown. Clinical and postmortem information from patients with AD, Parkinson's disease, or progressive supranuclear palsy and control subjects seen at a large tertiary medical center between 1989 and 1994 was examined. AD patients who had taken neuroleptics and AD brains that also contained Lewy bodies were excluded. The presence of extrapyramidal signs was determined using the Unified Parkinson's Disease Rating Scale. Sections of basal ganglia, subthalamic nucleus, and substantia nigra were examined for neurofibrillary tangles and neuropil threads and the nigra for neuronal numbers. Patients with AD (with or without extrapyramidal signs) did not show neuronal loss in the nigra compared to control subjects, while both Parkinson's disease and progressive supranuclear palsy brains showed marked depletion. The number of neurofibrillary tangles and neuropil threads was increased in AD (with or without extrapyramidal signs) nigra compared to control tissue, and also in progressive supranuclear palsy nigra, but not Parkinson's disease nigra. The numbers of nigral neurofibrillary tangles and neuropil threads were positively related to extrapyramidal signs in AD. There were no correlations between tangles and threads in the basal ganglia or subthalamic nucleus and extrapyramidal signs in AD. Thus, extrapyramidal signs in AD correlate best with tangle pathology in the nigra and do not require the concomitant presence of Lewy bodies.     

Memory impairment in patients with progressive supranuclear palsy

Verbal memory was compared in 12 patients with progressive supranuclear palsy and 12 healthy control subjects matched for age, sex, and education. Learning, consolidation, and retrieval were significantly impaired in patients with progressive supranuclear palsy. Information scanning, which requires the use of short-term memory processes, remained intact. Duration of symptoms and degree of motor dysfunction correlated with intrusions during learning. No relation between central dopamine metabolism and memory dysfunction could be established.     

Progressive supranuclear palsy: relationship between extrapyramidal disturbances, dementia, and brain neurotransmitter markers

Biochemical markers for the major neurotransmitter systems were measured in the brains of 5 patients who had died with neuropathologically confirmed progressive supranuclear palsy. A marked nigrostriatal dopamine deficiency, observed in 4 of the 5 patients, was sufficient to explain the parkinsonian features (especially bradykinesia) observed in patients with progressive supranuclear palsy. Dopamine concentrations, however, were normal in the nucleus accumbens, hypothalamus, and temporal cortex. Brain noradrenalin, serotonin, gamma-aminobutyric acid, and aspartic acid levels were generally normal. Normal brain choline acetyltransferase activity (the marker enzyme for cholinergic neurons) in the 2 patients with severe dementia suggests that, at least in some patients, the cognitive impairment in this disorder is likely to be related to noncholinergic neurotransmitter system changes. The glutamic acid concentration was elevated in many brain areas in 3 of the 5 patients studied.     

Decrease in a proenkephalin peptide in cerebrospinal fluid in Huntington's disease and progressive supranuclear palsy

The cerebrospinal fluid (CSF) content of Met⁵-enkephalin-Arg-Gly-Leu immunoreactivity was found to be significantly decreased in patients with Huntington's disease and progressive supranuclear palsy. This peptide is derived from the proenkephalin precursor protein and normally is found in high concentrations in the basal ganglia. The decrease in CSF from Huntington's disease patients likely reflects the loss of proenkephalin-containing neurons seen in postmortem analyses of basal ganglia tissue. The decrease in progressive supranuclear palsy, a disease in which dopamine neurons degenerate but enkephalin levels in the basal ganglia are reportedly not decreased, may reflect a functional decline in enkephalinergic neuronal activity secondary to a striatal cholinergic deficit. The results suggest that a substantial portion of the CSF Met⁵-enkephalin-Arg-Gly-Leu immunoreactivity is derived from the basal ganglia and that CSF levels of this peptide can serve as an index of functional or anatomical integrity of proenkephalin synthesizing neurons in the basal ganglia.     

Effects of physostigmine on spatial attention in patients with progressive supranuclear palsy

We tested patients with progressive supranuclear palsy and control subjects on a task of visuopatial attention. Targets preceded by cues on the same side were termed validly cued; and those on the opposite side, invalidly cued. For all subjects, validly cued targets were responded to faster than those that were invalidly cued. The difference between reaction times for invalidly and validly cued targets, which is hypothesized to measure attentional movement, was significantly increased for the patients. The performance of the controls on certain neuropsychological tests was correlated with their attentional ability. These correlations were altered by progressive supranuclear palsy. Physostigmine treatment of the patients induced a speeding of responses to invalidly cued targets as a function of the duration of the disease. These studies show defects in cognition and attention in patients with progressive supranuclear palsy and demonstrate that physostigmine reduces some of the abnormal visual attentional performance.