Brain iron accumulation in Wilson disease: a post mortem 7 Tesla MRI - histopathological study.

AIMS: In Wilson disease (WD), T2/T2*-weighted (T2*w) MRI frequently shows hypointensity in the basal ganglia that is suggestive of paramagnetic deposits. It is currently unknown whether this hypointensity is related to copper or iron deposition. We examined the neuropathological correlates of this MRI pattern, particularly in relation to iron and copper concentrations. METHODS: Brain slices from nine WD and six control cases were investigated using a 7T-MRI system. High-resolution T2*w images were acquired and R2* parametric maps were reconstructed using a multigradient recalled echo sequence. R2* was measured in the globus pallidus (GP) and the putamen. Corresponding histopathological sections containing the lentiform nucleus were examined using Turnbull iron staining, and double staining combining Turnbull with immunohistochemistry for macrophages or astrocytes. Quantitative densitometry of the iron staining as well as copper and iron concentrations were measured in the GP and putamen and correlated with R2* values. RESULTS: T2*w hypointensity in the GP and/or putamen was apparent in WD cases and R2* values correlated with quantitative densitometry of iron staining. In WD, iron and copper concentrations were increased in the putamen compared to controls. R2* was correlated with the iron concentration in the GP and putamen, whereas no correlation was observed for the copper concentration. Patients with more pronounced pathological severity in the putamen displayed increased iron concentration, which correlated with an elevated number of iron-containing macrophages. CONCLUSIONS: T2/T2*w hypointensity observed in vivo in the basal ganglia of WD patients is related to iron rather than copper deposits.

Can we use peripheral tissue biopsies to diagnose Parkinson's disease? A review of the literature.

Phosphorylated α-synuclein (phosαSYN) containing inclusions in neurons (Lewy bodies, LB) and nerve terminals (Lewy neurites, LN), the pathological hallmark of Parkinson's disease (PD), are not confined to the central nervous system, but have also been reported in peripheral tissues. However, the usefulness of αSYN/phosαSYN detection in tissues accessible to biopsies as a reliable biomarker for prodromal PD remains unclear. A systematic review of studies using biopsies of skin, olfactory and gastrointestinal (GI) tissues was conducted to evaluate the sensitivity and specificity of both αSYN and phosαSYN staining in PD patients. Data analysis was hampered by the diversity of the methods used, e.g. choice of biopsy sites, tissue processing, staining protocols and evaluation of the findings. Tissue obtained from GI tract/salivary glands (13 post-mortem, 13 in vivo studies) yielded the highest overall sensitivity and specificity compared to skin (three post-mortem, eight in vivo studies) and olfactory mucosa/bulb (six post-mortem studies, one in vivo study). In contrast to phosαSYN, αSYN was more consistently detectable in peripheral tissues of healthy controls. GI tract/salivary glands appear to be the most promising candidate tissue for peripheral biopsy-taking. phosαSYN is considered as the marker of choice to delineate pathological aggregates from normal αSYN regularly found in peripheral neural tissues. However, the sensitivity and specificity of phosαSYN are not yet acceptable for using phosαSYN as a reliable peripheral biomarker for PD in clinical routine. Further refinement regarding the interpretation of the peripheral αSYN/phosαSYN burden and the phenotypical definition of peripheral LB/LN is needed to optimize screening methods for prodromal PD.

Extragenetic factors and clinical penetrance of DYT1 dystonia: an exploratory study.

Factors modifying the clinical penetrance of DYT1 dystonia are incompletely defined. Particularly, the contribution of extragenetic factors has been subject to only limited investigation and remains largely unexplored. A possible effect of childhood infections has been proposed, and the effect of other factors, such as perinatal adversity and trauma, has not been systematically investigated. We performed an exploratory analysis of the exposure to perinatal adversity, childhood infections, general anaesthesia and trauma comparing 39 manifesting carriers of the ∆GAG mutation, 23 non-manifesting carriers and 48 non-carriers from a multi-centre European series of 28 families with DYT1 dystonia, by means of a self-completed questionnaire and clinical interview. Detailed information on perinatal adversities (pre-term birth, complications at natural delivery, urgent caesarean section), previous childhood infections, and prior general anaesthesia or physical trauma was recorded. A positive association between a history of complications of vaginal delivery and manifestation of dystonia was detected, which was not confounded by age, gender, or education level (odds ratio 8.47, 95 % confidence interval 1.45-49.4, p = 0.02). We could not observe any significant association between presence of dystonia and the other investigated variables. Comparing non-manifesting carriers to non-carriers, the presence of the ∆GAG mutation per se was not associated with any of the environmental exposures explored. Perinatal adversities might modulate the clinical penetrance of DYT1 dystonia; their interaction with known genetic factors modifying penetrance of this condition should be investigated in new, larger collaborative studies.

Neuroimaging features of neurodegeneration with brain iron accumulation.

NBIA characterizes a class of neurodegenerative diseases that feature a prominent extrapyramidal movement disorder, intellectual deterioration, and a characteristic deposition of iron in the basal ganglia. The diagnosis of NBIA is made on the basis of the combination of representative clinical features along with MR imaging evidence of iron accumulation. In many cases, confirmatory molecular genetic testing is now available as well. A number of new subtypes of NBIA have recently been described, with distinct neuroradiologic and clinical features. This article outlines the known subtypes of NBIA, delineates their clinical and radiographic features, and suggests an algorithm for evaluation.

Secondary dystonia--clinical clues and syndromic associations.

Dystonic syndromes can be divided into primary and secondary forms. Diagnosis of secondary dystonic syndromes can be challenging as causes are multifold. They include brain lesions of various origins, metabolic disease, neurodegenerative conditions, or following exposure to drugs or toxins. However, characteristic investigational findings may be directive in the diagnostic process and facilitate making the correct diagnosis and thus allow initiating the ideal treatment. In this article, we point out some clinical clues and syndromic associations which may be helpful in the approach to a patient with dystonia.

C2orf37 mutational spectrum in Woodhouse-Sakati syndrome patients.

Woodhouse-Sakati syndrome (WSS) is a rare autosomal recessive disorder that encompasses hypogonadism, deafness, alopecia, mental retardation, diabetes mellitus and progressive extrapyramidal defects. The syndrome is caused by mutation of the C2orf37 gene. Here we studied a cohort of seven new cases from three ethnic backgrounds, presenting with the hallmarks of WSS, in an effort to extend the mutational spectrum of this disorder. Genetic analysis revealed a novel mutation in each of the four families investigated, of which three were nonsense mutations and the fourth was a splice site ablation. We also examined a separate collection of 11 cases presenting with deafness and dystonia, two constituents of WSS, but found no pathogenic changes. This study doubles the number of known mutations for this disorder, confirms that truncating mutations in C2orf37 are the only known cause of WSS, and suggests that mutations in this gene do not contribute significantly to cases presenting with isolated elements of WSS such as deafness and dystonia. The lack of correlation between clinically expressivity of WSS and the site of the eight truncating mutations strongly supports that they are equally null, while the intrafamilial variability argues for an important role of modifiers in this disease.

THAP1 mutations (DYT6) are an additional cause of early-onset dystonia.

BACKGROUND: The clinical phenotype of DYT6 consists mainly of primary craniocervical dystonia. Recently, the THAP1 gene was identified as the cause of DYT6, where a total of 13 mutations have been identified in Amish-Mennonite and European families. METHODS: We sequenced the THAP1 gene in a series of 362 British, genetically undetermined, primary dystonia patients (78 with focal, 186 with segmental, and 98 with generalized dystonia) and in 28 dystonia-manifesting DYT1 patients and 176 normal control individuals. RESULTS: Nine coding mutations were identified in the THAP1 gene. Two were small deletions, 2 were nonsense, and 5 were missense. Eight mutations were heterozygous, and 1 was homozygous. The main clinical presentation of cases with THAP1 mutations was early-onset (<30 years) dystonia in the craniocervical region or the limbs (8 of 9 patients). There was phenotypic variability with laryngeal or oromandibular dystonia present in 3 cases. Four of 9 THAP1 cases developed generalized dystonia. CONCLUSIONS: The number of THAP1 mutations has been significantly expanded, indicating an uncommon but important cause of dystonia. Coding mutations account for 9 of 362 dystonia cases, indicating a mutation frequency of 2.5% of dystonia cases in the population that we have screened. The majority of cases reported here with THAP1 mutations had craniocervical- or limb-onset segmental dystonia, but we also identified 1 homozygous THAP1 mutation, associated initially with writer's dystonia and then developing segmental dystonia. Three of our patients had a nonsense or frameshift THAP1 mutation and the clinical features of laryngeal or oromandibular dystonia. These data suggest that early-onset dystonia that includes the involvement of the larynx or face is frequently associated with THAP1 mutations.

Genotype-phenotype interactions in primary dystonias revealed by differential changes in brain structure.

Our understanding of how genotype determines phenotype in primary dystonia is limited. Familial young-onset primary dystonia is commonly due to the DYT1 gene mutation. A critical question, given the 30% penetrance of clinical symptoms in DYT1 mutation carriers, is why the same genotype leads to differential clinical expression and whether non-DYT1 adult-onset primary dystonia, with and without family history share pathophysiological mechanisms with DYT1 dystonia. This study examines the relationship between dystonic phenotype and the DYT1 gene mutation by monitoring whole-brain structure using voxel-based morphometry. We acquired magnetic resonance imaging data of symptomatic and asymptomatic DYT1 mutation carriers, of non-DYT1 primary dystonia patients, with and without family history and control subjects with normal DYT1 alleles. By crossing the factors genotype and phenotype we demonstrate a significant interaction in terms of brain anatomy confined to the basal ganglia bilaterally. The explanation for this effect differs according to both gene and dystonia status: non-DYT1 adult-onset dystonia patients and asymptomatic DYT1 carriers have significantly larger basal ganglia compared to healthy subjects and symptomatic DYT1 mutation carriers. There is a significant negative correlation between severity of dystonia and basal ganglia size in DYT1 mutation carriers. We propose that differential pathophysiological and compensatory mechanisms lead to brain structure changes in non-DYT1 primary adult-onset dystonias and DYT1 gene carriers. Given the range of age of onset, there may be differential genetic modulation of brain development that in turn determines clinical expression. Alternatively, a DYT1 gene dependent primary defect of motor circuit development may lead to stress-induced remodelling of the basal ganglia and hence dystonia.

Olfaction in patients with suspected parkinsonism and scans without evidence of dopaminergic deficit (SWEDDs).

BACKGROUND: Positron emission tomography and single photon emission computed tomography scanning have 87-94% sensitivity and 80-100% specificity to differentiate patients with Parkinson's disease (PD) from control subjects and patients with essential (ET) or atypical tremor. More than 10% of patients diagnosed as early PD can have scans without evidence of dopaminergic deficiency (SWEDDs). This study investigated whether smell tests can help identify possible cases with SWEDDs. METHODS: The 40 item University of Pennsylvania Smell Test (UPSIT) was used to evaluate the sense of smell in 21 SWEDDs patients. Twenty-six ET patients, 16 patients with a diagnosis of idiopathic adult onset dystonia (D), 191 non-demented PD patients and 136 control subjects were also tested. Multiple regression analyses were used to compare the mean UPSIT score in the SWEDDs group with the other four groups (ET, D, PD and controls) after adjusting for the effects of relevant covariates. RESULTS: The mean UPSIT score for the SWEDDs group was greater than in the PD group (p<0.001) and not different from the mean UPSIT in the control (p = 0.7), ET (p = 0.4) or D (p = 0.9) groups. Smell tests indicated a high probability of PD in only 23.8% of SWEDDs as opposed to 85.3% of PD patients. CONCLUSIONS: In a patient with suspected PD, a high PD probability on smell testing favours the diagnosis of PD, and a low PD probability strengthens the indication for dopamine transporter imaging.

BDNF val66met influences time to onset of levodopa induced dyskinesia in Parkinson's disease.

BACKGROUND: Levodopa induced dyskinesias (LID) are a common problem which ultimately limit the effective treatment of patients with Parkinson's disease (PD). There is accumulating evidence that LID develop due to abnormal synaptic plasticity, which is in turn influenced by the release of brain derived neurotrophic factor (BDNF). METHODS: The influence of a common functional polymorphism of the BDNF gene on the risk of developing dyskinesias in a large cohort of patients with PD (n = 315), who were independently and variably treated with levodopa and/or other dopaminergic treatments, was investigated. RESULTS: Patients with the met allele of BDNF, associated with lower activity dependent secretion of BDNF, were at significantly higher risk of developing dyskinesias earlier in the course of treatment with dopaminergic agents (hazard ratio for each additional met allele 2.12, p = 0.001), which persisted following adjustment for potential confounding variables. CONCLUSION: This functional polymorphism may help predict which individuals are most at risk of LID and is consistent with the known actions of BDNF on synaptic plasticity in the striatum.

Neurophysiological evidence for cerebellar dysfunction in primary focal dystonia.

Recent studies have suggested that there may be functional and structural changes in the cerebellum of patients with adult onset primary focal dystonia. The aim of this study was to establish whether there is any neurophysiological indicator of abnormal cerebellar function, using the classic eyeblink conditioning paradigm. This paradigm at short intervals is dependent on the olivo-cerebellar circuit and does not require cerebral and basal ganglia structures. Eyeblink conditioning was performed by pairing an auditory tone with a supraorbital nerve stimulus with a delay interval of 400 ms in 12 patients with primary focal dystonia (seven cervical dystonias, five focal hand dystonias) and eight healthy controls. Healthy controls produced more conditioned eyeblink responses than patients with focal dystonia, indicating an abnormality of associative learning in this patient population. This study provides neurophysiological evidence for functional changes in the olivo-cerebellar pathway of patients with primary focal dystonia. Further work needs to be done to determine if these changes are primary, secondary or epiphenomenal to the disease.

[Dystonia]. / Dystonien.

Dystonia, a hyperkinetic movement disorder, is characterized by involuntary muscle spasms leading to abnormal postures. Dystonic syndromes are classified by etiology (primary vs. secondary), age of onset (early vs. late onset) or spread of symptoms (focal, segmental, generalized). Clinically, young-onset dystonia is rare, often inherited and tends to spread to become generalized. In contrast, adult-onset dystonia is frequent, typically sporadic and remains focal. In recent years, 15 genes associated with dystonia have been identified and classified as DYT loci. Of these, DYT1 is the most frequent, causing early-onset generalized dystonia. Pathophysiology remains ill understood but basal ganglia dysfunction is thought to play an important role. Treatment remains symptom-oriented. A trial of levodopa is recommended in young-onset cases. In focal forms, botulinum toxin injections are helpful. Anticholinergics may be beneficial. In severe cases deep brain stimulation may be considered.

Neuropathology of primary adult-onset dystonia.

BACKGROUND: Idiopathic adult-onset primary dystonia usually affects the upper body and remains focal. Underlying mechanisms are unknown, and there are only limited neuropathologic studies in the literature. Recently, ubiquitinated perinuclear inclusion bodies were found in the brainstem of patients with DYT1-related dystonia. In X-linked recessive dystonia-parkinsonism, neuronal loss in the striosome compartment of the striatum has been described. However, it was unclear whether these changes are characteristic of these particular disorders or an epiphenomenon of dystonic conditions in general. METHODS: Six cases of adult-onset dystonia and four controls were studied using immunohistochemistry to determine the presence of inclusion bodies immunoreactive for torsinA, ubiquitin, and laminA/C in the brainstem. The distribution of calcineurin expressing neurons in the striatum was also determined to ascertain whether there is loss of neurons in the striosome compartment. RESULTS: In contrast to early-onset dystonia, neuronal inclusions immunoreactive for torsinA, ubiquitin, and laminA/C were not present in the brainstem nuclei. There was no apparent loss of the striatal striosome compartment. CONCLUSION: Our findings suggest that the underlying mechanism in the adult-onset primary torsion dystonia is different from that of early-onset DYT1-related dystonia and also DYT3 X-linked recessive dystonia-parkinsonism. Alternative mechanisms may underpin the pathophysiology of adult-onset primary dystonia.

Phenotypic homogeneity of the Huntington disease-like presentation in a SCA17 family.

We describe clinical and genetic analysis of a family with spinocerebellar ataxia 17 (SCA17) presenting with a Huntington disease-like (HDL) syndrome. Clinically diagnosed, HD is genetically heterogeneous. Differential diagnosis includes SCA17. However, SCA17 HDL presentation has been observed only sporadically or in solitary individuals within a family. HDL phenotypic homogeneity in SCA17 has not been described. SCA17 can present with a HDL syndrome in multiple family members.

Severe tongue protrusion dystonia: clinical syndromes and possible treatment.

We describe intermittent or sustained severe involuntary tongue protrusion in patients with a dystonic syndrome. Speech, swallowing, and breathing difficulties can be severe enough to be life threatening. Causes include neuroacanthocytosis, pantothenate kinase-associated neurodegeneration, Lesch-Nyhan syndrome, and postanoxic and tardive dystonia. The pathophysiology of intermittent severe tongue protrusion remains unknown. Tongue protrusion dystonia is often unresponsive to oral drugs but may benefit from botulinum toxin injections into the genioglossus muscle. Bilateral deep brain pallidal stimulation was beneficial in two cases.

Familial dopa-responsive cervical dystonia.

The authors present four cases from two unrelated families with young-onset predominant cervical dystonia with a dramatic sustained response to levodopa. Onset age was 12 years (range 9 to 15). Additional symptoms included postural hand tremor and laryngeal dystonia. Genetic testing for GTP cyclohydrolase I, tyrosine hydroxylase, and sepiapterin reductase was negative. These cases may represent new forms of dopa-responsive dystonia. Levodopa is advisable in all patients with young-onset cervical dystonia.

Improved detection of varicella zoster infection with a spin amplification shell vial technique and blind passage.

BACKGROUND: Among the methods available for the diagnosis of varicella zoster virus (VZV) infections, only tissue culture yields an isolate available for antiviral susceptibility testing or pathogenesis studies. However, conventional tube tissue culture (TC) has a low sensitivity. OBJECTIVE: To increase the recovery rate of VZV in tissue culture. STUDY DESIGN: Clinical specimens submitted for VZV isolation were processed by TC and rapid shell vial (SV) techniques followed by a blind passage (BP). For SV, two incubation times and two mAbs, directed against viral-early or immediate-early antigens, were compared. RESULTS: Isolation of VZV using the SV stained at 72 h postinoculation was more sensitive (88-96%) than TC (50-67%), or the SV technique at 48 h (66-70%). It was also more rapid than TC (9.6 days). The comparison of mAbs yielded similar results in SV. Blind passage of SV at 7 days postinoculation further increased detection. CONCLUSIONS: SV combined with BP is the method of choice for VZV isolation.