Olfactory dysfunction and parasympathetic dysautonomia in Parkinson’s disease

Objective

Olfactory impairment occurs early in Parkinson’s disease (PD), as may dysautonomia. We investigated the relationship between olfaction and dysautonomia as well as other non-motor manifestations of PD.

Methods

Olfaction [University of Pennsylvania Smell Identification Test (UPSIT)], autonomic function in the pupillary (constriction and redilation velocity) and cardiac systems (resting low- and high-frequency heart rate variability (LF and HF HRV), positional changes in systolic blood pressure), neuropsychiatric function [Mini-mental Status Exam (MMSE)], Hamilton Depression Scale, activities of daily living [(ADLs), Schwab and England ADLs scale], quality of life [Short Form-36 health survey, PD Questionnaire 39 (PDQ-39)], and other non-motor symptoms [Non-motor Symptoms Scale (NMSS)] were simultaneously assessed in 33 participants (15 PD, 18 controls). Group comparisons, Spearman’s coefficients and non-parametric rank-based regression were employed to characterize relationships between olfaction and non-motor features.

Results

Smell scores were lower in the PD group and correlated positively with pupil constriction velocity and HF HRV. Smell scores were correlated negatively with PDQ-39 and gastrointestinal items of the NMSS and positively with MMSE and Schwab and England ADLs. These correlated measures were not significant terms in regression models of smell scores in which age and PD diagnosis were significant and accounted for over half of the variability (R-squared 0.52–0.58).

Interpretation

This study suggests olfactory involvement occurs with parasympathetic dysautonomia in the pupillary and cardiovascular systems, involving both age-related and PD-related processes. Other non-motor features are concurrently involved, supporting the notion that aging and PD have widespread effects involving discrete portions of the autonomic and olfactory systems.     

Forehead sympathetic skin responses in determining autonomic involvement in Parkinson’s disease

ObjectiveThe purpose of this study was to evaluate forehead sympathetic skin response (SSR) and demonstrate any differences with extremity SSR in determining autonomic nervous system (ANS) involvement in patients with Parkinson’s disease (PD).MethodsTwenty early stage, 20 advanced stage idiopathic PD patients and 20 healthy controls participated in this study. SSR of forehead, hands and feet, heart rate variability (HRV), orthostatic intolerance, QT intervals and dysautonomic symptoms were evaluated.ResultsAbsent forehead SSR was determined unilaterally in 4, bilaterally in 7 early stage patients, and unilaterally in 4, bilaterally in 8 advanced stage PD patients; there was significant difference between early and advanced stage PD and control groups in terms of the lack of SSR (p = 0.000). Absent extremity SSR was determined in at least 1 extremity of 3 advanced stage PD patients, and none of the early stage PD patients. No difference was noted in HRV at rest between early and advanced stage PD and control groups (p = 0.218); but HRV at deep breathing was lower in both early and advanced PD patients compared to controls (p = 0.014, p = 0.002, respectively).ConclusionForehead SSR is more sensitive in determining ANS dysfunction not only in late but also in early stage of PD.SignificanceWith further supportive research, forehead SSR might be used as a simple diagnostic electrophysiological test in the early diagnosis of ANS dysfunction enabling proper treatment and increasing the quality of life of PD patients.     

Parkinson’s disease and dopaminergic neurons

Totally three articles focusing on gene therapy of Parkinson’s disease, the effect of levodopa on toxicity of dopaminergic neurons in substantia nigra and striatum, and the effect of rifampicin on reducing Parkinson’s disease-induced dopaminergic neuronal apoptosis     

Cardiac parasympathetic dysfunction in the early phase of Parkinson’s disease

Cardiac parasympathetic function is strongly affected by aging. Although sympathetic dysfunction has been well documented in Parkinson’s disease (PD), cardiac parasympathetic dysfunction has not been well studied. The objective of this study was to clarify the development of cardiac parasympathetic dysfunction in the early phase of PD and to explore the age-corrected correlation between cardiac parasympathetic dysfunction and cardiac sympathetic dysfunction. We reviewed 25 healthy controls and 56 patients with idiopathic PD of Hoehn and Yahr stages I–III. We evaluated cardiac parasympathetic function using the Valsalva ratio, the baroreflex sensitivity (BRS) and the coefficient of variation of RR intervals in the resting state (resting-CVRR) and during deep breathing (DB-CVRR). In addition, we measured cardiac ¹²³I-metaiodobenzylguanidine (MIBG) uptake to investigate the relationship between cardiac sympathetic and parasympathetic dysfunction in PD. Compared with healthy controls, patients with PD showed significantly decreased cardiac parasympathetic parameters (resting-CVRR 2.8 ± 1.3 vs. 1.7 ± 0.6%, p < 0.001; DB-CVRR 5.8 ± 2.3 vs. 3.8 ± 1.7%, p < 0.001; Valsalva ratio 1.52 ± 0.26 vs. 1.34 ± 0.17, p < 0.01; BRS 10.6 ± 9.5 vs. 5.0 ± 5.4 ms/mmHg, p < 0.01). In particular, resting-CVRR and DB-CVRR were significantly decreased in the early phase of PD. In age-corrected analyses, none of the parasympathetic indices correlated with the delayed cardiac ¹²³I-MIBG uptake. These observations indicate that cardiac parasympathetic dysfunction occurs in the early phase of PD, but not necessarily in parallel with cardiac sympathetic dysfunction.     

Spinal cord lesions in sporadic Parkinson’s disease

In this autopsy-based study, α-synuclein immunohistochemistry and lipofuscin pigment-Nissl architectonics in serial sections of 100?μm thickness were used to investigate the spinal cords and brains of 46 individuals: 28 patients with clinically and neuropathologically confirmed Parkinson’s disease, 6 cases with incidental Lewy body disease, and 12 age-matched controls. α-Synuclein inclusions (particulate aggregations, Lewy neurites/bodies) in the spinal cord were present between neuropathological stages 2–6 in all cases whose brains were staged for Parkinson’s disease-related synucleinopathy. The only individuals who did not have Lewy pathology in the spinal cord were a single stage 1 case (incidental Lewy body disease) and all controls. Because the Parkinson’s disease-related lesions were observable in the spinal cord only after Lewy pathology was seen in the brain, it could be concluded that, within the central nervous system, sporadic Parkinson’s disease does not begin in the spinal cord. In addition: (1) α-Synuclein-immunoreactive axons clearly predominated over Lewy bodies throughout the spinal cord and were visible in medial and anterior portions of the anterolateral funiculus. Their terminal axons formed dense α-synuclein-immunoreactive networks in the gray matter and were most conspicuous in the lateral portions of layers 1, 7, and in the cellular islands of layer 9. (2) Notably, this axonopathy increased remarkably in density from cervicothoracic segments to lumbosacral segments of the cord. (3) Topographically, it is likely that the spinal cord α-synuclein immunoreactive axonal networks represent descending projections from the supraspinal level setting nuclei (locus coeruleus, lower raphe nuclei, magnocellular portions of the reticular formation). (4) Following the appearance of the spinal cord axonal networks, select types of projection neurons in the spinal cord gray matter displayed α-synuclein-immunoreactive inclusions: chiefly, nociceptive neurons of the dorsal horn in layer 1, sympathetic and parasympathetic preganglionic neurons in layer 7, the cellular pools of α-motoneurons in layer 9, and the smaller motoneurons in Onuf’s nucleus in layer 9 (ventral horn). The spinal cord lesions may contribute to clinical symptoms (e.g., pain, constipation, poor balance, lower urinary tract complaints, and sexual dysfunction) that occur during the premotor and motor phases of sporadic Parkinson’s disease.     

Cardiac sympathetic denervation in Parkinson’s disease patients with SWEDDs

Dopamine transporter scans of some patients who have been clinically diagnosed with Parkinson’s disease (PD) fail to reveal abnormal dopaminergic functioning and are referred to as scans without evidence of dopaminergic deficits (SWEDDs). In this study, we investigated the differences between SWEDDs patients and PD patients using ¹²³I-metaiodobenzylguanidine (MIBG) scans. This study enrolled 20 patients with SWEDDs, 30 patients with early PD and 50 healthy controls. Cardiac ¹²³I-MIBG scans were performed on all subjects, and parameters including the early and delayed heart-to-mediastinum ratios (H/M) and the washout rate were compared among the three groups. The mean delayed H/M ratio in the PD group (mean ± standard deviation, 1.45 ± 0.23) was the lowest of the three groups, and the scans in the group without evidence of dopaminergic deficits exhibited a lower mean delayed H/M ratio (2.15 ± 0.48) than the control group (2.56 ± 0.55) (p < 0.05). The intermediate status of cardiac MIBG uptake in the SWEDDs patients in our study may have been due to the heterogeneity of the SWEDDs patients; some of these patients had Parkinsonism with unknown characteristics, some may have had early PD with false-negative dopamine transporter imaging, and some have had primary dystonia that was misdiagnosed as PD. These uncharacterised SWEDDs patients accounted for a larger proportion of the heterogeneous SWEDDs than observed in previous studies, but our results suggest that cardiac ¹²³I-MIBG scans may help to differentiate patients with SWEDDs from patients with PD.     

Parkinson’s disease in patients and obligate carriers of Gaucher disease

BackgroundGaucher disease is an autosomal recessive disorder caused by glucocerebrosidase gene mutations. Accumulating evidence from several Parkinson’s disease cohorts of varying ethnicities suggests that glucocerebrosidase mutations even in the heterozygous state (carriers) may be a susceptibility factor for Parkinson’s. Very few studies have analyzed the frequency of Parkinson’s in carriers and individuals with Gaucher disease.ObjectiveTo determine frequency of Parkinson’s in patients with Gaucher disease and obligate carriers of glucocerebrosidase mutations and compare it with a control group.MethodsA questionnaire was completed by 100 Ashkenazi Jewish Gaucher patients followed at our center and 109 ethnicity-matched controls with no personal or family history of Gaucher disease.ResultsFrequency of Parkinson’s was higher in Gaucher patients (8/100) than in controls (0/109; P = 0.0024). Frequency of Parkinson’s in obligate carriers (11/200) was higher than controls (6/218), but the difference was not statistically significant (P = 0.215). Average age of onset of Parkinson’s was earlier in Gaucher patients (57.2) than the general population and in obligate carriers (60) when compared with controls (76.8; P = 0.01). The L444P genotype was more frequent in Gaucher patients who reported a parent with Parkinson’s (36.40%) than those who did not (4.50%).ConclusionOur study suggests that the risk for developing Parkinson’s may be higher in affected versus carriers of glucocerebrosidase mutations and suggests that L444P may pose a higher risk of developing Parkinson’s than other mutations. It also confirms previous findings that the age of onset of Parkinson’s associated with glucocerebrosidase mutations is earlier than in the general population.     

Depression and apathy in Parkinson’s disease

This article provides an update on depression and apathy in Parkinson’s disease (PD), both of which are common but often misunderstood. The diagnosis of depression in PD can be challenging and we still do not have solid evidence on which to base our treatment decisions. Apathy is most commonly seen in the setting of dementia or depression but emerging evidence suggests that it may be a core feature of PD. There are conflicting reports about the effects of deep brain stimulation (DBS) on mood and apathy, but studies suggest that at least some patients may develop depression and apathy after the procedure. Although we are making strides toward a better understanding of depression and apathy in PD, it is clear that more research is needed about these non-motor features.     

Cardiac sympathetic innervation in Parkinson’s disease versus multiple system atrophy

Purpose

The aims of this study were to evaluate the diagnostic accuracy of the dual imaging method combining cardiac iodine-¹²³-metaiodobenzylguanidine single-photon emission computed tomography combined with low-dose chest computed tomography compared to routine cardiac scintigraphy, and assess regional differences in tracer distribution and the relationships between imaging and autonomic function in Parkinson’s disease and multiple system atrophy.

Methods

A prospective study including 19 Parkinson’s disease and 12 multiple system atrophy patients was performed. Patients underwent clinical evaluation, iodine-¹²³-metaiodobenzylguanidine single-photon emission computed tomography combined with chest computed tomography, planar scintigraphy, and cardiovascular autonomic function tests.

Results

Co-registration of single-photon emission computed tomography and chest computed tomography resulted in three groups with distinct patterns of tracer uptake: homogeneous, non-homogeneously reduced and absent. There was a significant difference in group allocation among patients with multiple system atrophy and Parkinson’s disease (p?=?0.001). Most multiple system atrophy patients showed homogeneous uptake, and the majority of Parkinson’s disease patients showed absent cardiac tracer uptake. We identified a pattern of heterogeneous cardiac tracer uptake in both diseases with reductions in the apex and the lateral myocardial wall. Sympathetic dysfunction reflected by a missing blood pressure overshoot during Valsalva manoeuvre correlated with cardiac tracer distribution in Parkinson’s disease patients (p?<?0.001).

Conclusions

The diagnostic accuracy of the dual imaging method and routine cardiac scintigraphy were similar. Anatomical tracer allocation provided by the dual imaging method of cardiac iodine-¹²³-metaiodobenzylguanidine single-photon emission computed tomography and chest computed tomography identified a heterogeneous subgroup of Parkinson’s disease and multiple system atrophy patients with reduced cardiac tracer uptake in the apex and the lateral wall. Sympathetic dysfunction correlated with cardiac imaging in Parkinson’s disease patients.

     

Brain-derived neurotrophic factor and substantia nigra dopaminergic neurons in Parkinson’s disease☆

Parkinson＇s disease （PD） is a chronic, progressive neurodegenerative central nervous system disease which occurs in the substantia nigra-corpus striatum system. The main pathological feature of PD is selective dopaminergic neuronal loss with distinctive Lewy bodies in populations of surviving dopaminergic neurons. In the clinical and neuropathological diagnosis of PD, brain-derived neurotrophic factor mRNA expression in the substantia nigra pars compacta is reduced by 70%, and surviving dopaminergic neurons in the PD substantia nigra pars compacta express less brain-derived neurotrophic factor （BDNF） mRNA （20%） than their normal counterparts. In recent years, knowledge surrounding the relationship between neurotrophic factors and PD has increased, and detailed pathogenesis of the role of neurotrophic factors in PD becomes more important.     

Impact of drooling in Parkinson’s disease

Drooling is a well known problem in patients with Parkinson's disease (PD). The aim of this study was to investigate the severity and consequences of drooling in PD. A comprehensive drooling questionnaire was sent to 105 PD outpatients, who had volunteered drooling during a previous questionnaire (n = 216). Among 63 patients who responded and confirmed drooling, 27% experienced severe saliva loss. Social and emotional consequences were reported by 17% to 77% of patients, and significantly more often by those with severe drooling. We conclude that drooling is a frequent, disabling and apparently undertreated symptom of PD. History taking ought to be detailed and specific to understand the full impact of drooling for an individual patient. Therapeutic options should be evaluated more intensively.     

Pharmacotherapy of Parkinson’s disease in Germany

Treatment standards or guidelines have been developed for most features of Parkinson’s disease (PD). However, data on the actual treatment that is put into practice are scarce. In 2000, a nationwide survey on the topic of sudden onset of sleep (SOS) in PD was initiated among the members of the German patient support group (deutsche Parkinson–Vereinigung, dPV). A part of this mailed questionnaire survey covering the antiparkinsonian and concomitant medication of the participants is presented here. This study analyses data sets from more than 6,500 PD patients. The mean dopaminergic dose was equivalent to 599 ± 387 mg levodopa/die. The most frequently administered drugs were levodopa (94.2 %), dopamine agonists (DA) (71.7 %), amantadine (40.1 %), selegiline (27.6 %), entacapone (20.4 %), budipine (12.3 %), and anticholinergics (11.8 %). Costs of pharmacotherapy were estimated to be approximately € 399 million/year in Germany. PD drug therapy in general strongly depended on age, disease duration, and the level of care. The treatment guidelines were apparently not consistently followed underlining the need for their continuous propagation throughout the medical community. In addition our data suggest that non–motor symptoms in PD are not adequately treated and that concomitant sedative medication contributes to the occurrence of SOS.     

Glutamate transport and metabolism in dopaminergic neurons of substantia nigra: implications for the pathogenesis of Parkinson’s disease

Parkinson’s disease (PD) is associated with degeneration of the pigmented dopaminergic neurons located in the ventral mesencephalon. Although the mechanisms by which these neurons degenerate in PD are poorly understood, indirect evidence suggests involvement of glutamatergic mechanisms in the pathogenesis of this disorder. Glutamate, the major excitatory transmitter in the mammalian central nervous system, is known to be neurotoxic when present in excess at the synapses. Two major mechanisms protect neurons from glutamate-induced toxicity: (a) removal of synaptic glutamate via a high affinity uptake carried out by cytoplasmic membrane proteins known as excitatory amino acid transporters (EAAT); and (b) metabolism and recycling of glutamate by synaptic astrocytes via glutamine synthetase, an ATP-requiring reaction. However, when extra-cellular glutamate levels are high (0.5–1.0 mM), glutamate metabolism may be shifted toward the ATP-generating oxidative deamination (glutamate dehydrogenase)-TCA cycle pathway. We have cloned and characterized two human glutamate dehydrogenases (GDH), one of which is nerve tissue specific. This isoenzyme requires ADP for its activity and it may become functional when cellular energy charge is low. We have also cloned three human glutamate transporters. One of these (EAAT3) is neuron specific. In situ hybridization studies using human brain revealed that the pigmented dopaminergic neurons, which degenerate in PD, express EAAT3 at high levels. Primary nerve tissue cultures derived from rat ventral mesencephalon were established and studied for their ability to metabolize glutamate. Results showed that mature cultures expressing high levels of GDH activity were capable of rapidly utilizing glutamate added to the medium at high concentrations (1–1.2 mM). This was associated with little release of aspartate and alanine into the medium. In contrast, immature cultures expressing low GDH activity utilized glutamate at lower rates while releasing substantial amounts of aspartate and alanine into the medium. These data suggest that immature mesencephalic cells metabolize a substantial fraction of the glutamate they take up from the medium via the transamination pathway, compared to mature mesencephalic cultures. Immunocytochemical studies on these cultures revealed that dopaminergic neurons (identified by their tyrosine hydroxylase content) showed intense staining for GDH. Furthermore, inhibition of GDH expression by antisense oligonucleotides was toxic to cultured mesencephalic neurons, with dopaminergic neurons being affected at the early stages of this inhibition. Hence, the dense expression by dopaminergic neurons of proteins in-volved in the transport and metabolism of glutamate may serve particular biological needs intrinsic to these cells. Further studies are required to test whether these properties render these neurons vulnerable to excitotoxic mechanisms or to abnormalities of glutamate metabolism.

     

Olfaction in Parkinson’s disease: methods of assessment and clinical relevance

Several neurological conditions have been reported to be associated with peripheral or central deficits of olfactory system. In recent years particular emphasis has been placed on the early and severe olfactory impairment in Parkinson’s disease (PD), in which limited neuropathological studies have revealed a marked dopaminergic deficit in the olfactory tubercles. Moreover, indirect evidence suggests that dysfunction of the dopaminergic pathways from mesencephalon to the piriform cortex may play a role in olfactory impairment in PD. A large number of clinical studies have reported that olfactory loss in idiopathic PD is bilateral, present in hemiparkinsonism, unrelated to the stage or clinical subtype of the disease, and independent of antiparkinsonian medication. In addition, major olfactory alterations have been reported in familial PD and dementia with Lewy bodies but not in progressive supranuclear palsy and essential tremor. These findings might stimulate further research targeted to determine the biological substrate of dissimilar olfactory performances in these movement disorders. The present review summarizes standardized procedures for the assessment of olfactory acuity (detection threshold), identification (multiple choice odor naming), discrimination (differentiation between similar/dissimilar odorants), and memory (recognition of a substance previously smelled). Specific suggestions concerning the psychometric and neuropsychological evaluation of PD patients are provided. Received: 17 April 1999/Received in revised form: /29 September 1999/Accepted: 1 October 1999     

Clinical and demographic correlates of apathy in Parkinson’s disease

Journal of Neurology - To better understand the demographic, neuropsychiatric, cognitive, and motor predictors of apathy in Parkinson’s disease (PD). 112 participants (Mage = 68.53 years;...