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ABSTRACT: There is no consensus on the pathologic conditions or severity implied by the term "hippocampal sclerosis" (HS). In this study, a panel of experienced neuropathologists evaluated inter-rater agreement for pathologic diagnoses in the hippocampus and proposes consensus recommendations on the use of the term "HS." In a coordinating group of 251 cases of HS selected from a large autopsy cohort (1,388; 18%), we identified 5 patterns of degenerative or vascular pathology. Four independent neuropathologists assessed a single set of hematoxylin and eosin-stained sections following descriptive definitions to classify the appearances and assign the diagnosis of HS, if appropriate. Diagnostic agreement (range, 36%-70%) was highest for vascular lesions. Subsequent joint review of all cases highlighted the need to identify neurodegenerative lesions using immunohistochemistry. Initial agreement in assigning the diagnosis of HS varied from 0% to 86%. After a joint review, the group recommended that the term "HS" should be applied to all cases with complete/near-complete neuronal loss and gliosis in the subfields of the cornu Ammonis but not to hippocampal microinfarction. Therefore, the etiology of HS must be defined in association with a neurodegenerative process or as "lacking neurodegenerative markers," a pathologic condition presumed to arise from hypoxic/ischemic mechanisms.
Journal of neuropathology and experimental neurology. 05/2013;
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Irina Alafuzoff,
Ellen Gelpi,
Safa Al-Sarraj,
Thomas Arzberger,
Johannes Attems,
Istvan Bodi,
Nenad Bogdanovic,
Herbert Budka,
Orso Bugiani,
Elisabet Englund, [......],
Camelia Monoranu,
Piero Parchi,
Efstratios Patsouris,
Wolfgang Roggendorf,
Annemieke Rozemuller,
Danielle Seilhean,
Nathalie Streichenberger,
Dietmar R Thal,
Stephen B Wharton,
Hans Kretzschmar
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ABSTRACT: Here, we summarise the results after carrying out a large survey regarding the assessment of vascular alterations, both vessel changes and vascular lesions in an inter-laboratory setting. In total, 32 neuropathologists from 22 centres, most being members of BrainNet Europe (BNE), participated by filling out a questionnaire with emphasis on assessment of common vascular alterations seen in the brains of aged subjects. A certain level of harmonisation has been reached among BNE members regarding sectioning of the brain, harvesting of brain tissue for histology and staining used when compared to the survey carried out in 2006 by Pantoni and colleagues. The most significant variability was seen regarding the assessment of severity and of clinical significance of vascular alterations. Two strategies have recently been recommended regarding the assessment of vascular alterations in aged and demented subjects. The National Institute on Aging - Alzheimer's Association (NIA-AA) recommends the assessment of hippocampal sclerosis, vascular brain injury and microvascular lesions in 12 regions. Although this strategy will be easy to follow, the recommendations do not inform how the load of observed alterations should be assessed and when the observed lesions are of significance. Deramecourt and his colleagues recommend an assessment and semiquantitative grading of various pathologies in 4 brain regions. This strategy yielded a total score of 0 to 20 as an estimate of pathology load. It is, however, not clear which score is considered to be of clinical significance. Furthermore, in several BNE trials the semiquantitative assessment has yielded poor agreement rates; an observation that might negatively influence the strategy proposed by Deramecourt and his colleagues. In line with NIA-AA, a dichotomised approach of easily recognisable lesions in a standardised set of brain regions harvested for neuropathological assessment and applying reproducible sampling and staining strategies is recommended by BNE. However, a simple strategy regarding assessment of load of alteration is urgently needed to yield reproducible, and at the same time, comparable results between centres.
Experimental gerontology 06/2012; 47(11):825-33. · 3.34 Impact Factor
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Maria Zellner,
Michael Baureder,
Eduard Rappold,
Peter Bugert,
Nicole Kotzailias,
Rita Babeluk,
Roland Baumgartner,
Johannes Attems,
Christopher Gerner, Kurt Jellinger,
Erich Roth,
Rudolf Oehler,
Ellen Umlauf
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ABSTRACT: Monoamine oxidase-B (Mao-B) catalysing the breakdown of the neurotransmitter dopamine, is known to be involved in the pathophysiology of Parkinson's (PD) and Alzheimer's disease (AD). Increased brain Mao-B activity is associated with AD. This alteration can also be seen in platelets, albeit the cause has hitherto remained elusive. To gain a deeper understanding of the etiology of AD, the platelet proteome was characterised, (2D DIGE pH6-9, including Mao-B) from 150 individuals: 34 AD, 13 vascular dementia, 15 non-demented PD patients, 49 matched controls, 18 oldest old and 21 young individuals. One significant change was noted after applying false discovery rate with the upregulation of the Mao-B expression (30% adjusted P value<0.001; effect size 1.31) in AD compared to age- and sex-matched controls. In contrast, Mao-B levels were unchanged in PD to matched controls. Western blot and mRNA analyses verified these findings. Moreover, Mao-B concentration correlated with age in the cognitive healthy individuals (r=0.53; P<0.001) and PD patients but not in those suffering from AD (r=-0.03; P=0.874). Mao-B activity correlated with the increased Mao-B protein expression in AD (r=0.81; P=0.016). We suggest that Mao-B platelet protein level may serve as a biomarker for age-related dementia, especially AD.
Journal of proteomics 01/2012; 75(7):2080-92. · 5.07 Impact Factor
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ABSTRACT: J. Attems, A. Thomas and K. Jellinger (2012) Neuropathology and Applied Neurobiology38, 582-590 Correlations between cortical and subcortical tau pathology Aim: Recent studies indicate that tau pathology in Alzheimer's disease (AD) does not initially manifest in the cerebral cortex but in selected subcortical nuclei, in particular the locus ceruleus (LC). In this study we correlate both olfactory and brainstem tau pathology with neuritic Braak stages. Methods: We examined 239 unselected autopsy cases (57.3% female, 42.7% male; aged 55-102, mean 82.8 ± 9.7 SD years; AD, 44.8%; non-demented controls, 31.8%; Parkinson's disease, 5.0%; dementia with Lewy bodies, 2.5%; AD + Lewy body disease, 15.9%). Neuropathological examination according to standardized methods included immunohistochemistry and semiquantitative assessment of tau lesions in LC, substantia nigra (SN), dorsal motor nucleus of nervus vagus (dmX), and olfactory bulb (OB). Results: In Braak stage 0, tau pathology (usually very sparse pretangle material) was seen in the OB in 52.9% and in the SN/LC in 44%. The prevalence of OB and subcortical tau pathology increased with increasing Braak stages and reached 100% in OB, SN and LC and 95.2% in dmX in Braak stage VI, respectively. The severity of tau pathology in OB and subcortical nuclei significantly (P < 0.001) correlated with Braak stages and these correlations remained statistically significant when controlling for concomitant α-synuclein pathology in the respective regions. Conclusions: Our finding of an increase in both prevalence and severity of OB, LC, SN and dmX tau pathology in AD with increasing Braak stages suggests that these regions become increasingly involved during AD progression rather than representing sites initially affected by AD-associated tau pathology.
Neuropathology and Applied Neurobiology 11/2011; 38(6):582-90. · 3.80 Impact Factor
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Kurt Jellinger
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ABSTRACT: Mild cognitive impairment in Parkinson disease (PD-MCI) shows heterogeneity in the clinical presentation, neuropsychology, neuroimaging, and neuropathology, suggesting abnormal metabolic network activities involving several cortical and subcortical systems. Prospective studies using specific biomarkers, including amyloid imaging and CSF biomarkers are important for the diagnosis and prognostic assessment of early cognitive deficits in PD patients.
Acta Neurovegetativa 09/2011; 119(3):381-2. · 2.73 Impact Factor
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Kurt Jellinger
Neuropathology 08/2011; 32(1):110-1. · 2.02 Impact Factor
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Reinhold Schmidt,
Helena Schmidt,
Johannes Haybaeck,
Marisa Loitfelder,
Serge Weis,
Margherita Cavalieri,
Stephan Seiler,
Christian Enzinger,
Stefan Ropele,
Timo Erkinjuntti,
Leonardo Pantoni,
Philip Scheltens,
Franz Fazekas, Kurt Jellinger
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ABSTRACT: White matter changes occur endemically in routine magnetic resonance imaging (MRI) scans of elderly persons. MRI appearance and histopathological correlates of white matter changes are heterogeneous. Smooth periventricular hyperintensities, including caps around the ventricular horns, periventricular lining and halos are likely to be of non-vascular origin. They relate to a disruption of the ependymal lining with subependymal widening of the extracellular space and have to be differentiated from subcortical and deep white matter abnormalities. For the latter a distinction needs to be made between punctate, early confluent and confluent types. Although punctate white matter lesions often represent widened perivascular spaces without substantial ischemic tissue damage, early confluent and confluent lesions correspond to incomplete ischemic destruction. Punctate abnormalities on MRI show a low tendency for progression, while early confluent and confluent changes progress rapidly. The causative and modifying pathways involved in the occurrence of sporadic age-related white matter changes are still incompletely understood, but recent microarray and genome-wide association approaches increased the notion of pathways that might be considered as targets for therapeutic intervention. The majority of differentially regulated transcripts in white matter lesions encode genes associated with immune function, cell cycle, proteolysis, and ion transport. Genome-wide association studies identified six SNPs mapping to a locus on chromosome 17q25 to be related to white matter lesion load in the general population. We also report first and preliminary data that demonstrate apolipoprotein E (ApoE) immunoreactivity in white matter lesions and support epidemiological findings indicating that ApoE is another factor possibly related to white matter lesion occurrence. Further insights come from modern MRI techniques, such as diffusion tensor and magnetization transfer imaging, as they provide tools for the characterization of normal-appearing brain tissue beyond what can be expected from standard MRI scans. There is a need for additional pre- and postmortem studies in humans, including these new imaging techniques.
Acta Neuropathologica 06/2011; 122(2):171-85. · 9.32 Impact Factor
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ABSTRACT: The prevalence of hippocampal lesions such as hippocampal infarcts have not been studied in detail even though hippocampal alterations are known to be associated with various clinical conditions such as age-related degenerative disorders and epilepsy. Methods: Here we defined the hippocampal infarcts and assessed the prevalence of this lesion in large unselected population of 1,245 subjects age ranging from 1 to 99 years (mean age 79 ± 1 S.E.M). Furthermore, we assessed the association of these lesions with various cardio- and cerebro-vascular disorders and other neurodegenerative lesions. The prevalence of hippocampal infarct in the study population of 1,245 subjects was 12%, increasing to 13% when only those with a clinically diagnosed cognitive impairment (n = 311) were analyzed. Large hemispheric brain infarcts were seen in 31% of the study subjects and these lesions were strongly associated with cardiovascular risk factors such as hypertension (43%), coronary disease (32%), myocardial infarct (22%), atrial fibrillation (20%), and heart failure (20%). In contrast, hippocampal infarcts displayed a significant association only with large hemispheric brain infarct, heart failure, and cardiovascular index as assessed postmortem. It is noteworthy that only widespread hippocampal infarcts were associated with clinical symptoms of cognitive impairment or epilepsy. The surprisingly low prevalence of 12% of hippocampal infarcts in aged population found here and the failure to detect an association between this lesion and various cerebro- cardio-vascular lesions is intriguing. Whether susceptibility to ischemia in line with susceptibility to neuronal degeneration in this region is influenced by still undetermined risk- factors need further investigation. Furthermore it should be noted that the size of the hippocampal tissue damage, i.e., small vs. large cystic infarcts is of significance regarding clinical alterations.
Hippocampus 03/2011; 21(3):281-7. · 5.18 Impact Factor
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ABSTRACT: Neuropathological features in Alzheimer's Disease (AD) include the presence of hyperphosphorylated forms of the microtubule-associated tau protein (tau) in hippocampal neurones. Numerous studies indicate a neuroprotective effect of calcium-binding proteins (Ca2+ binding proteins) in neurodegenerative diseases (e.g., AD). Secretagogin is a newly described Ca2+ binding protein that is produced by pyramidal neurones of the human hippocampus. Recently, secretagogin expressing hippocampal neurones were demonstrated to resist tau-induced pathology in AD in contrast to the majority of neighbouring neurones. This suggested a neuroprotective effect of secretagogin in hippocampal neurones. Here, we investigated secretagogin expression in wild type (wt) mice as well as in hemizygous and homozygous P301L tau transgenic (tg) mice, which show pronounced and widespread tau pathology in hippocampal neurones. Secretagogin expression was analyzed at the immunohistochemical and biochemical levels in brains of age-matched wt and hemi- and homozygous tau tg mice. In wt mice hippocampal secretagogin-immunoreactive neurones were invariably detected, while immunoreactivity was much lower (P < 0.001) in tau tg mice. Of note, hippocampal secretagogin immunoreactivity was absent in 62.5% of homozygous tau tg mice. In line with this finding, Western blot analysis demonstrated a significant reduction in protein expression levels of secretagogin in homozygous tau tg compared to wt mice. Our results suggest that increased levels of tau negatively influence secretagogin expression in the hippocampus of tau tg mice.
Acta Neurovegetativa 03/2011; 118(5):737-45. · 2.73 Impact Factor
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ABSTRACT: An association between plasma Amyloid beta peptides (Aβ) with blood lipids was reported in cross-sectional studies. The present study examined the 5-year prospective association of atherosclerotic risk factors with plasma Aβ42 in 440 elderly persons without both Alzheimer's disease (AD) or mild cognitive impairment (MCI) at baseline. Persons in the highest tertile of total cholesterol (TC) or LDL-C at baseline showed low plasma Aβ42 at 5 years. Regression analysis confirmed TC and LDL-C as negative predictors of Aβ42 (p = 0.001). An increase over 5 years of HDL-C was a negative predictor and the presence of an APOE ε4 allele was a positive predictor for decrease of Aβ42 in converters to MCI. In converters to AD, increase of both TC and of HbA1c were positive predictors of Aβ42 levels at 5 years. Analysis of covariance showed a positive association between Δ-TC, Δ-LDL-C, Δ-HbA1c, and levels of Aβ42 at 5 years (p = 0.006; 0.013 and 0.027 resp.) in converters to AD independently on lipid-lowering treatment. The association of vascular risk factors TC, LDL-C, and HbA1c with higher Aβ42 levels might, after confirmation in other cohorts, influence the development of lifestyle interventions concerning plasma Aβ42 and AD.
Acta Neurovegetativa 02/2011; 118(5):663-72. · 2.73 Impact Factor
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ABSTRACT: Immunocytochemistry for transactive response binding protein-43 (TDP43) was assessed in the granular cell layer of the dentate gyrus in 250 cases displaying hippocampal pathology identified by haematoxylin-eosin staining. 18%, nearly one in five displayed TDP43 immunoreactive pathology in the granular cell layer of hippocampus. This percentage increased to 43% when only subjects with hippocampal pathology other than vascular in origin were included. When only subjects with severe Alzheimer's disease-related pathology were included, 42% displayed TDP43-immunoreactive pathology, increasing to 60% when concomitant Alzheimer's disease and α-synuclein pathology were present. Within this setting, TDP43-immunoreactive pathology was observed to be present in 6% of subjects with hippocampal pathology but without any cognitive impairment. Our findings justify assessment of TDP43 pathology in every case where a pathological alteration is observed in the hippocampus using a routine stain.
Acta Neurovegetativa 01/2011; 118(5):683-9. · 2.73 Impact Factor
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ABSTRACT: Depression in the elderly might represent a prodromal phase of Alzheimer disease (AD). High levels of plasma amyloid beta-42 (Aβ42) were found in prestages of AD and also in depressed patients in cross-sectional studies. This study examined the association of emerging late-onset depression (LOD) and AD with plasma Aβ42 in a sample of never depressed and not demented persons at baseline.
Prospective 5-year longitudinal study.
A community dwelling of older adults (N = 331) from the Vienna Transdanube Aging study.
Laboratory measurements, cognitive functioning, and depressive symptoms were assessed at baseline, 2.5, and 5 years follow-ups.
After exclusion of converters to AD, regression analysis revealed that higher plasma Aβ42 at baseline was a positive predictor for conversion to first episode of LOD. Independent of whether persons with mild cognitive impairment (MCI) at 2.5 years were included or excluded into regressions, higher plasma Aβ42 at baseline was a significant predictor for the development of probable or possible AD at 5 years. Higher conversion to AD was also associated with male gender but not with either higher scores on the Geriatric Depression Scale (GDS), with stroke or cerebral infarction nor apolipoprotein E ε4 allele. No association was found for an interaction between plasma Aβ42 levels and GDS.
Higher plasma Aβ42 at baseline predicted the development of first episode of LOD and conversion to probable or possible AD. Emerging depression as measured by scores on GDS at the 2.5-year follow-up, either alone or as an interaction factor with plasma Aβ42, failed to predict the conversion to AD at 5 years.
The American journal of geriatric psychiatry: official journal of the American Association for Geriatric Psychiatry 11/2010; 18(11):973-82. · 3.35 Impact Factor
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ABSTRACT: Cerebral amyloid angiopathy (CAA) may result from focal to widespread amyloid-β protein (Aβ) deposition within leptomeningeal and intracortical cerebral blood vessels. In addition, pericapillary Aβ refers to Aβ depositions in the glia limitans and adjacent neuropil, whereas in capillary CAA Aβ depositions are present in the capillary wall. CAA may cause lobar intracerebral haemorrhages and microbleeds. Hypoperfusion and reduced vascular autoregulation due to CAA might cause infarcts and white matter lesions. CAA thus causes vascular lesions that potentially lead to (vascular) dementia and may further contribute to dementia by impeding the clearance of solutes out of the brain and transport of nutrients across the blood brain barrier. Severe CAA is an independent risk factor for cognitive decline. The clinical diagnosis of CAA is based on the assessment of associated cerebrovascular lesions. In addition, perivascular spaces in the white matter and reduced concentrations of both Aβ(40) and Aβ(42) in cerebrospinal fluid may prove to be suggestive for CAA. Transgenic mouse models that overexpress human Aβ precursor protein show parenchymal Aβ and CAA, thus corroborating the current concept of CAA pathogenesis: neuronal Aβ enters the perivascular drainage pathway and may accumulate in vessel walls due to increased amounts and/or decreased clearance of Aβ, respectively. We suggest that pericapillary Aβ represents early impairment of the perivascular drainage pathway while capillary CAA is associated with decreased transendothelial clearance of Aβ. CAA plays an important role in the multimorbid condition of the ageing brain but its contribution to neurodegeneration remains to be elucidated.
Neuropathology and Applied Neurobiology 10/2010; 37(1):75-93. · 3.80 Impact Factor
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Kurt Jellinger
Movement Disorders 03/2010; 25(8):1104-5. · 4.51 Impact Factor
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Kurt A Jellinger
Acta Neuropathologica 11/2009; 119(1):151-3. · 9.32 Impact Factor
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Kurt A Jellinger
Journal of Neurology 09/2009; 257(1):142. · 3.47 Impact Factor
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Kurt A Jellinger
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ABSTRACT: Postencephalitic parkinsonism (PEP), a chronic complication of encephalitis lethargica, is a tauopathy characterized by multisystem neuronal loss and gliosis with widespread neurofibrillary lesions composed of both 3- and 4-repeat (3R and 4R) tau isoforms. Previous immunohistochemical studies in a small number of PEP cases demonstrated absence of Lewy bodies as well as the lack of other alpha-synuclein pathology, classifying PEP as a "pure" tauopathy. Neuropathologic examination of 10 brains with clinico-pathologically verified PEP confirmed widespread neurodegeneration in subcortical and brainstem areas associated with multifocal neurofibrillary pathology comprising both 3R and 4R tau. Very rare beta-amyloid deposits were observed in two elderly patients, while Lewy bodies and neurites or any other alpha-synuclein deposits were completely absent. The causes and molecular background of total absence of alpha-synuclein pathology in PEP, in contrast to most other tauopathies, remain as unknown as the pathogenesis of PEP.
Acta Neuropathologica 05/2009; 118(3):371-9. · 9.32 Impact Factor
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Kurt A Jellinger
Acta Neuropathologica 05/2009; 118(1):1-3. · 9.32 Impact Factor
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Kurt A Jellinger
Acta Neuropathologica 02/2009; 117(2):219. · 9.32 Impact Factor
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Kurt A Jellinger
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ABSTRACT: The role of alpha-synuclein (alphaSyn) in schizophrenia is unknown, whereas in a recent animal model of depression, alpha- and gamma-synuclein have been related to its pathophysiology. Previous biochemical studies in Brodmann area 9 showed significant reduction of alphaSyn in both chronic schizophrenia and bipolar disorder. Here, prevalence and cerebral distribution of alphaSyn were examined in 80 autopsy cases of elderly subjects (41 chronic schizophrenia, 12 late live depression/LLD and bipolar disorder/BD, and 27 age-matched controls without neuropsychiatric disorders). Using immunohistochemistry, alphaSyn-positive lesions (Lewy bodies and neurites) were assessed semiquantitatively. Among 41 chronic schizophrenics, all except one showing low neuritic Braak stages (mean 1.46), three brains (7.3%) revealed only few alphaSyn-positive inclusions restricted to medullary nuclei. Among 12 LLD and BD patients with mean Braak stage 2.25, alphaSyn-positive pathology was seen in two cases (16.7%) with clinical LLD, but none in BD. Among 27 controls, showing mean neuritic Braak stage 2.6, seven brains (26%) with higher mean age showed alphaSyn-positive lesions, either isolated in substantia nigra and nucleus basalis of Meynert (n = 2 each), in medullary nuclei, locus ceruleus and substantia nigra (n = 2), with additional involvement of nucleus basalis (n = 1). This first preliminary study in non-demented psychiatric disorders indicates that alphaSyn/Lewy pathology in chronic schizophrenia is significantly less frequent than in clinically healthy elderly people (P < 0.01), showing 10-30% of so-called incidental Lewy body disease. Among chronic affective disorders, according to our small cohort, the incidence of Lewy-pathology in LLD appears to be comparable to a healthy elderly population, whereas its occurence in BD is to be elucidated.
Acta Neuropathologica 02/2009; 117(4):423-7. · 9.32 Impact Factor
