Frontotemporal lobar degeneration

Adam L. Boxer; John Q. Trojanowski; Virginia M.-Y. Lee; Bruce L. Miller

doi:10.1017/CBO9780511544873.035

34 - Frontotemporal lobar degeneration

from Part VI - Other Dementias

Published online by Cambridge University Press: 04 August 2010

M. Flint Beal ,

Anthony E. Lang and

Albert C. Ludolph

Adam L. Boxer ,

John Q. Trojanowski ,

Virginia M.-Y. Lee and

Bruce L. Miller

Show author details

M. Flint Beal: Affiliation:
Cornell University, New York
Anthony E. Lang: Affiliation:
University of Toronto
Albert C. Ludolph: Affiliation:
Universität Ulm, Germany
Adam L. Boxer: Affiliation:
Memory and Aging Center, Department of Neurology, University of California, San Francisco, CA, USA
John Q. Trojanowski: Affiliation:
Center for Neurodegenerative Disease Research, University of Pennsylvania School of Medicine, Philadelphia, PA, USA
Virginia M.-Y. Lee: Affiliation:
Center for Neurodegenerative Disease Research, University of Pennsylvania School of Medicine, Philadelphia, PA, USA
Bruce L. Miller: Affiliation:
Memory and Aging Center, Department of Neurology, University of California, San Francisco, CA, USA

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Summary

Introduction

Frontotemporal lobar degeneration, formerly called Pick's disease, is a progressive dementia that is associated with focal atrophy of the frontal and/or temporal lobes. For over 100 years, the key clinical and pathological feature of this disease has been recognized to be focal, often asymmetric cortical involvement. Histopathologically, frontotemporal lobar degeneration (FTLD) is distinct from Alzheimer's disease but heterogeneous, even among similar clinical syndromes. Recently, with the advent of specialized immunohistochemical stains and insights gained from molecular genetics, it has been recognized that FTLD is closely related to, and sometimes overlaps with three other neurodegenerative diseases: corticobasal ganglionic degeneration (CBD), progressive supranuclear palsy (PSP), and motor neuron disease (MND). The central role of the microtubule-associated protein, tau, in the pathogenesis of FTLD, has led to classification as a “tauopathy.”

First description and history of FTLD

The first case of what is now called frontotemporal lobar degeneration (FTLD) was described by Arnold Pick in 1892 (Pick, 1892). His subsequent description of six similar patients emphasized a language impairment, which he termed “amnestic aphasia,” and a focal pattern of brain atrophy involving the temporal and/or frontal lobes. A lack of senile plaques and tangles in the brains of similar patients was noted by Alzheimer in 1911. He and Altman provided the first histopathological description of argyrophilic inclusions (later termed Pick bodies) and swollen achromatic cells (later termed Pick cells) (Altman, 1923).

Type: Chapter
Information: Neurodegenerative Diseases
Neurobiology, Pathogenesis and Therapeutics
, pp. 481 - 493

DOI: https://doi.org/10.1017/CBO9780511544873.035 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2005

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References

Ahlijanian, M. K., Barrezueta, N. X., Williams, R. D.et al. (2000). Hyperphosphorylated tau and neurofilament and cytoskeletal disruptions in mice overexpressing human p25, an activator of cdk5. Proc. Natl Acad. Sci., USA, 97, 2910–15CrossRef Google Scholar PubMed

Altman, E. (1923). Uber die eigenartige Krankheitsfalle des spateren Alters. Zeitschrift fur die Gesamte Neurologie und Psychiatrie, 4, 356–85Google Scholar

Alzheimer, A. (1911). Uber eigenartige Krankheitsfalle des spateren Alters. Zeitschrift fur die Gesamte Neurologie und Psychiatrie, 4, 7–44CrossRef Google Scholar

Ames, D., Cummings, J. L., Wirshing, W. C., Quinn, B. & Mahler, M. (1994). Repetitive and compulsive behavior in frontal lobe degenerations. J. Neuropsychiatry Clin. Neurosci., 6, 100–13Google Scholar PubMed

Bak, T. H., O'Donovan, D. G., Xuereb, J. H., Boniface, S. & Hodges, J. R. (2001). Selective impairment of verb processing associated with pathological changes in Brodmann areas 44 and 45 in the motor neurone disease-dementia-aphasia syndrome. Brain, 124, 103–20CrossRef Google Scholar PubMed

Bird, T. D. & Schellenberg, G. D. (2001). The case of the missing tau, or, why didn't the mRNA bark?Ann. Neurol., 49, 144–53.0.CO;2-J>CrossRef Google Scholar PubMed

Bozeat, S., Gregory, C. A., Ralph, M. A. & Hodges, J. R. (2000). Which neuropsychiatric and behavioural features distinguish frontal and temporal variants of frontotemporal dementia from Alzheimer's disease?J. Neurol. Neurosurg. Psychiatr., 69, 178–86CrossRef Google Scholar PubMed

Broe, M., Hodges, J. R., Schofield, E., Shepherd, C. E., Kril, J. J. & Halliday, G. M. (2003). Staging disease severity in pathologically confirmed cases of frontotemporal dementia. Neurology, 60, 1005–11CrossRef Google Scholar PubMed

Brun, A. (1987). Frontal lobe degeneration of non-Alzheimer type. I. Neuropathology. Arch. Gerontol. Geriatr., 6, 193–208CrossRef Google Scholar PubMed

Bussiere, T., Hof, P. R., Mailliot, C.et al. (1999). Phosphorylated serine 422 on tau proteins is a pathological epitope found in several diseases with neurofibrillary degeneration. Acta Neuropathol. (Berl.), 97, 221–30Google Scholar PubMed

Caselli, R. J., Windebank, A. J., Petersen, R. C.et al. (1993). Rapidly progressive aphasic dementia and motor neuron disease. Ann. Neurol., 33, 200–7CrossRef Google Scholar PubMed

Chan, D., Fox, N. C., Jenkins, R., Scahill, R. I., Crum, W. R. & Rossor, M. N. (2001a). Rates of global and regional cerebral atrophy in AD and frontotemporal dementia. Neurology, 57, 1756–63CrossRef Google Scholar

Chan, D., Fox, N. C., Scahill, R. I.et al. (2001b). Patterns of temporal lobe atrophy in semantic dementia and Alzheimer's disease. Ann. Neurol., 49, 433–42CrossRef Google Scholar

Chow, T. W., Miller, B. L., Hayashi, V. N. & Geschwind, D. H. (1999). Inheritance of frontotemporal dementia. Arch. Neurol., 56, 817–22CrossRef Google Scholar PubMed

Constantinidis, J., Fichard, J. & Tissot, R. (1974). Pick's disease. Histological and clincial correlations. Eur. Neurol., 11, 208–17CrossRef Google Scholar

Dickson, D. W. (2001). Neuropathology of Pick's disease. Neurology, 56(Suppl 4), S16–20CrossRef Google Scholar PubMed

Dickson, D. W., Bergeron, C., Chin, S. S.et al. (2002). Office of Rare Diseases neuropathologic criteria for corticobasal degeneration. J. Neuropathol. Exp. Neurol., 61, 935–46CrossRef Google Scholar PubMed

Dubois, B., Slachevsky, A., Litvan, I. & Pillon, B. (2000). The FAB: a Frontal Assessment Battery at bedside. Neurology, 55, 1621–6CrossRef Google Scholar PubMed

Edwards-Lee, T., Miller, B. L., Benson, D. F.et al. (1997). The temporal variant of frontotemporal dementia. Brain, 120, 1027–40CrossRef Google Scholar PubMed

Evans, J. J., Heggs, A. J., Antoun, N. & Hodges, J. R. (1995). Progressive prosopagnosia associated with selective right temporal lobe atrophy. A new syndrome?Brain, 118, 1–13CrossRef Google Scholar PubMed

Forno, L. S., Langston, J. W., Herrick, M. K., Wilson, J. D. & Murayama, S. (2002). Ubiquitin-positive neuronal and tau 2-positive glial inclusions in frontotemporal dementia of motor neuron type. Acta Neuropathol. (Berl.), 103, 599–606CrossRef Google Scholar PubMed

Galton, C. J., Gomez-Anson, B., Antoun, N.et al. (2001a). Temporal lobe rating scale: application to Alzheimer's disease and frontotemporal dementia. J. Neurol. Neurosurg. Psychiatr., 70, 165–73CrossRef Google Scholar

Galton, C. J., Patterson, K., Graham, K.et al. (2001b). Differing patterns of temporal atrophy in Alzheimer's disease and semantic dementia. Neurology, 57, 216–25CrossRef Google Scholar

Garrard, P. & Hodges, J. R. (2000). Semantic dementia: clinical, radiological and pathological perspectives. J. Neurol., 247, 409–22CrossRef Google Scholar PubMed

Geschwind, D. H., Robidoux, J., Alarcon, M.et al. (2001). Dementia and neurodevelopmental predisposition: cognitive dysfunction in presymptomatic subjects precedes dementia by decades in frontotemporal dementia. Ann. Neurol., 50, 741–6CrossRef Google Scholar PubMed

Graham, K. S., Simons, J. S., Pratt, K. H., Patterson, K. & Hodges, J. R. (2000). Insights from semantic dementia on the relationship between episodic and semantic memory. Neuropsychologia, 38, 313–24CrossRef Google Scholar PubMed

Gregory, C. A., Serra-Mestres, J. & Hodges, J. R. (1999). Early diagnosis of the frontal variant of frontotemporal dementia: how sensitive are standard neuroimaging and neuropsychologic tests?Neuropsychiatry Neuropsychol. Behav. Neurol., 12, 128–35Google Scholar PubMed

Grossman, M. (2001). A multidisciplinary approach to Pick's disease and frontotemporal dementia. Neurology, 56, S1–2CrossRef Google Scholar

Grossman, M. (2002). Progressive aphasic syndromes: clinical and theoretical advances. Curr. Opin. Neurol., 15, 409–13CrossRef Google Scholar PubMed

Hardy, J. & Gwinn-Hardy, K. (1998). Genetic classification of primary neurodegenerative disease. Science, 282, 1075–9CrossRef Google Scholar PubMed

Harvey, R. J. (1998). Young onset dementia: epidemiology, clinical symptoms, family burden, support and outcome. Dementia Research Group, Imperial College School of Medicine, London

Higuchi, M., Ishihara, T., Zhang, B.et al. (2002). Transgenic mouse model of tauopathies with glial pathology and nervous system degeneration. Neuron, 35, 433–46CrossRef Google Scholar PubMed

Hodges, J. R. (2001). Frontotemporal dementia (Pick's disease): clinical features and assessment. Neurology, 56, S6–10CrossRef Google Scholar PubMed

Hodges, J. R. & Graham, K. S. (2001). Episodic memory: insights from semantic dementia. Phil. Trans. R. Soc. Lond. B. Biol. Sci., 356, 1423–34Google Scholar PubMed

Hodges, J. R. & Miller, B. (2001). The classification, genetics and neuropathology of frontotemporal dementia. Introduction to the special topic papers: Part I. Neurocase, 7, 31–5CrossRef Google Scholar PubMed

Hodges, J. R. & Patterson, K. (1996). Nonfluent progressive aphasia and semantic dementia: a comparative neuropsychological study. J. Int. Neuropsychol. Soc., 2, 511–24CrossRef Google Scholar PubMed

Hodges, J. R., Patterson, K., Oxbury, S. & Funnell, E. (1992). Semantic dementia. Progressive fluent aphasia with temporal lobe atrophy. Brain, 115, 1783–806CrossRef Google Scholar PubMed

Hodges, J. R., Graham, N. & Patterson, K. (1995). Charting the progression in semantic dementia: implications for the organisation of semantic memory. Memory, 3, 463–95CrossRef Google Scholar PubMed

Hof, P. R., Nimchinsky, E. A., Buee-Scherrer, V.et al. (1994). Amyotrophic lateral sclerosis/parkinsonism–dementia complex of Guam: quantitative neuropathology, immunohistochemical analysis of neuronal vulnerability, and comparison with related neurodegenerative disorders. Acta Neuropathol., 88, 397–404CrossRef Google Scholar PubMed

Hoffman, J. M., Welsh-Bohmer, K. A., Hanson, M.et al. (2000). FDG PET imaging in patients with pathologically verified dementia. J. Nucl. Med., 41, 1920–8Google Scholar PubMed

Hong, M., Zhukareva, V., Vogelsberg-Ragaglia, V.et al. (1998). Mutation-specific functional impairments in distinct tau isoforms of hereditary FTDP-17. Science, 282, 1914–17CrossRef Google Scholar PubMed

Hosler, B. A., Siddique, T., Sapp, P. C.et al. (2000). Linkage of familial amyotrophic lateral sclerosis with frontotemporal dementia to chromosome 9q21–q22. J. Am. Med. Assoc., 284, 1664–9CrossRef Google Scholar PubMed

Hutton, M. (2001). Missense and splice site mutations in tau associated with FTDP-17: multiple pathogenic mechanisms. Neurology, 56, S21–5CrossRef Google Scholar PubMed

Hutton, M., Lewis, J., Dickson, D., Yen, S. H. & McGowan, E. (2001). Analysis of tauopathies with transgenic mice. Trends Mol. Med., 7, 467–70CrossRef Google Scholar PubMed

Ishihara, T., Hong, M., Zhang, B.et al. (1999). Age-dependent emergence and progression of a tauopathy in transgenic mice overexpressing the shortest human tau isoform. Neuron, 24, 751–62CrossRef Google Scholar PubMed

Jackson, G. R., Wiedau-Pazos, M., Sang, T. K.et al. (2002). Human wild-type tau interacts with wingless pathway components and produces neurofibrillary pathology in Drosophila. Neuron, 34, 509–19CrossRef Google Scholar PubMed

Jackson, M., Lennox, G. & Lowe, J. (1996). Motor neurone disease-inclusion dementia. Neurodegeneration, 5, 339–50CrossRef Google Scholar PubMed

Kertesz, A., Martinez-Lage, P., Davidson, W. & Munoz, D. G. (2000). The corticobasal degeneration syndrome overlaps progressive aphasia and frontotemporal dementia. Neurology, 55, 1368–75CrossRef Google Scholar PubMed

Knopman, D. S., Mastri, A. R., Frey, W. H., Sung, J. H. & Rustan, T. (1990). Dementia lacking distinctive histologic features: a common non-Alzheimer degenerative dementia. Neurology, 40, 251–6CrossRef Google Scholar PubMed

Kovach, M. J., Waggoner, B., Leal, S. M.et al. (2001). Clinical delineation and localization to chromosome 9p13.3–p12 of a unique dominant disorder in four families: hereditary inclusion body myopathy, Paget disease of bone, and frontotemporal dementia. Mol. Genet. Metab., 74, 458–75CrossRef Google Scholar PubMed

Levy, M. L., Miller, B. L., Cummings, J. L., Fairbanks, L. A. & Craig, A. (1996). Alzheimer disease and frontotemporal dementias. Behavioral distinctions. Arch. Neurol., 53, 687–90CrossRef Google Scholar PubMed

Lewis, J., McGowan, E., Rockwood, J.et al. (2000). Neurofibrillary tangles, amyotrophy and progressive motor disturbance in mice expressing mutant (P301L) tau protein. Nat. Genet., 25, 402–5CrossRef Google Scholar PubMed

Litvan, I. (2001). Therapy and management of frontal lobe dementia patients. Neurology, 56, S41–5CrossRef Google Scholar PubMed

Lomen-Hoerth, C., Anderson, T. & Miller, B. (2002) The overlap of amyotrophic lateral sclerosis and frontotemporal dementia. Neurology, 59, 1077–9CrossRef Google Scholar PubMed

Lomen-Hoerth, C., Murphy, J., Langmore, S., Kramer, J. H., Olney, R. K. & Miller, B. (2003). Are amyotrophic lateral sclerosis patients cognitively normal?Neurology, 60, 1094–7CrossRef Google Scholar PubMed

Love, S., Bridges, L. R. & Case, C. P. (1995). Neurofibrillary tangles in Niemann–Pick disease type C. Brain, 118, 119–29CrossRef Google Scholar PubMed

Lucas, J. J., Hernandez, F., Gomez-Ramos, P., Moran, M. A., Hen, R. & Avila, J. (2001). Decreased nuclear beta-catenin, tau hyperphosphorylation and neurodegeneration in GSK-3beta conditional transgenic mice. EMBO J., 20, 27–39CrossRef Google Scholar PubMed

Lund, and Manchester Groups (1994). Clinical and neuropathological criteria for frontotemporal dementia. J. Neurol. Neurosurg. Psychiatr., 57, 416–18Google Scholar

Mann, D. M., South, P. W., Snowden, J. S.et al. (1993). Dementia of frontal lobe type: neuropathology and immunohistochemistry, J. Neurol. Neurosurg. Psychiatr., 56(6), 605–14CrossRef Google Scholar PubMed

Masliah, E., Terry, R. D., Alford, M. & DeTeresa, R. (1990). Quantitative immunohistochemistry of synaptophysin in human neocortex: an alternative method to estimate density of presynaptic terminals in paraffin sections. J. Histochem. Cytochem., 38, 837–44CrossRef Google Scholar PubMed

McKhann, G. M., Albert, M. S., Grossman, M., Miller, B., Dickson, D. & Trojanowski, J. (2001). Clinical and pathological diagnosis of frontotemporal dementia. Arch. Neurol., 58, 1803–9CrossRef Google Scholar PubMed

Mendez, M. F., Selwood, A., Mastri, A. R. & Frey, W. H. (1993). Pick's disease versus Alzheimer's disease: a comparison of clinical characteristics. Neurology, 43, 289–92CrossRef Google Scholar PubMed

Mesulam, M. M. (1982). Slowly progressive aphasia without generalized dementia. Ann. Neurol., 11, 592–8CrossRef Google Scholar PubMed

Mesulam, M. M. (2001). Primary progressive aphasia. Ann. Neurol., 49, 425–32CrossRef Google Scholar PubMed

Miller, B., Cummings, J., Boone, K.et al. (1995a). Clinical and neurobehavioral characteristics of fronto-temporal dementia and Alzheimer disease. Neurology, 45, A318Google Scholar

Miller, B. L., Boone, K., Mishkin, F., Swartz, J. R., Koras, N. & Kushii, J. (1998a). Clinical and neuropsychological features of frontotemporal dementia. In Pick's Disease and Pick Complex, ed., A. Kertesz & D. Munoz. New York: Wiley-Liss. pp. 23–33

Miller, B. L., Cummings, J., Mishkin, F.et al. (1998b). Emergence of artistic talent in frontotemporal dementia. Neurology, 51, 978–82CrossRef Google Scholar

Miller, B. L., Cummings, J. L., Villanueva-Meyer, J.et al. (1991). Frontal lobe degeneration: clinical, neuropsychological, and SPECT characteristics. Neurology, 41, 1374–82CrossRef Google Scholar PubMed

Miller, B. L., Darby, A. L., Swartz, J. R., Yener, G. G. & Mena, I. (1995b). Dietary changes, compulsions and sexual behavior in frontotemporal degeneration. Dementia, 6, 195–9Google Scholar

Miller, B. L. & Gearhart, R. (1999). Neuroimaging in the diagnosis of frontotemporal dementia. Dement. Geriatr. Cogn. Disord., 10, 71–4CrossRef Google Scholar

Miller, B. L., Ikonte, C., Ponton, M. (1997). A study of the Lund-Manchester research criteria for frontotemporal dementia: clinical and single-photon emission CT correlations. Neurology, 48, 937–42CrossRef Google Scholar PubMed

Miller, B. L., Seeley, W. W., Mychack, P., Rosen, H. J., Mena, I. & Boone, K. (2001). Neuroanatomy of the self: evidence from patients with frontotemporal dementia. Neurology, 57, 817–21CrossRef Google Scholar PubMed

Morris, H. R., Khan, M. N., Janssen, J. C.et al. (2001). The genetic and pathological classification of familial frontotemporal dementia. Arch Neurol, 58, 1813–16CrossRef Google Scholar PubMed

Mummery, C. J., Patterson, K., Price, C. J., Ashburner, J., Frackowiak, R. S. & Hodges, J. R. (2000). A voxel-based morphometry study of semantic dementia: relationship between temporal lobe atrophy and semantic memory. Ann. Neurol., 47, 36–453.0.CO;2-L>CrossRef Google Scholar PubMed

Mummery, C. J., Patterson, K., Wise, R. J. S., Vandenbergh, R., Price, C. J. & Hodges, J. R. (1999). Disrupted temporal lobe connections in semantic dementia. Brain, 122, 61–73CrossRef Google Scholar PubMed

Mychack, P., Kramer, J. H., Boone, K. B. & Miller, B. L. (2001). The influence of right frontotemporal dysfunction on social behavior in frontotemporal dementia. Neurology, 56, S11–15CrossRef Google Scholar PubMed

Neary, D., Snowden, J. S., Gustafson, L.et al. (1998). Frontotemporal lobar degeneration: a consensus on clinical diagnostic criteria. Neurology, 51, 1546–54CrossRef Google Scholar PubMed

Onari, K. & Spatz, H. (1926). Anatomische Beitrage zur Lehre von der Pickschen umschriebene-Grosshirnriden-Atrophie (‘Picksche Krankheit’). Zeitschrift fur die Gesamte Neurologie und Psychiatrie, 101, 470–511CrossRef Google Scholar

Patterson, K., Lambon Ralph, M. A., Hodges, J. R. & McClelland, J. L. (2001). Deficits in irregular past-tense verb morphology associated with degraded semantic knowledge. Neuropsychologia, 39, 709–24CrossRef Google Scholar PubMed

Perry, R. J. & Hodges, J. R. (2000). Differentiating frontal and temporal variant frontotemporal dementia from Alzheimer's disease. Neurology, 54, 2277–84CrossRef Google Scholar PubMed

Perry, R. J. & Miller, B. L. (2001). Behavior and treatment in frontotemporal dementia. Neurology, 56, S46–51CrossRef Google Scholar PubMed

Pick, A. (1892). Uber die Beziehungen der senilen Hirnantropie zur aphasie. Prager Medizinishe Wochenschrift, 17, 165–7Google Scholar

Pollock, N. J., Mirra, S. S., Binder, L. I., Hansen, L. A. & Wood, J. G. (1986). Filamentous aggregates in Pick's disease, progressive supranuclear palsy, and Alzheimer's disease share antigenic determinants with microtubule-associated protein, tau. Lancet, 2, 1211CrossRef Google Scholar PubMed

Probst, A., Gotz, J., Wiederhold, K. H.et al. (2000). Axonopathy and amyotrophy in mice transgenic for human four-repeat tau protein. Acta Neuropathol. (Berl.), 99, 469–81CrossRef Google Scholar PubMed

Rakowicz, W. P. & Hodges, J. R. (1998). Dementia and aphasia in motor neuron disease: an underrecognised association?J. Neurol. Neurosurg. Psychiatr., 65, 881–9CrossRef Google Scholar PubMed

Rankin, K. P., Kramer, J. H., Mychack, P. & Miller, B. L. (2003). Double dissociation of social functioning in frontotemporal dementia. Neurology, 60, 266–71CrossRef Google Scholar PubMed

Rascovsky, K., Salmon, D. P., Ho, G. J.et al. (2002). Cognitive profiles differ in autopsy-confirmed frontotemporal dementia and AD. Neurology, 58, 1801–8CrossRef Google Scholar PubMed

Ratnavalli, E., Brayne, C., Dawson, K. & Hodges, J. R. (2002). The prevalence of frontotemporal dementia. Neurology, 58, 1615–21CrossRef Google Scholar PubMed

Reed, L. A., Grabowski, T. J., Schmidt, M. L.et al. (1997). Autosomal dominant dementia with widespread neurofibrillary tangles. Ann. Neurol., 42, 564–72CrossRef Google Scholar PubMed

Rinne, J. O., Laine, M., Kaasinen, V., Norvasuo-Heila, M. K., Nagren, K. & Helenius, H. (2002). Striatal dopamine transporter and extrapyramidal symptoms in frontotemporal dementia. Neurology, 58, 1489–93CrossRef Google Scholar PubMed

Rosen, H. J., Gorno-Tempini, M. L., Goldman, W. P. (2002a). Patterns of brain atrophy in frontotemporal dementia and semantic dementia. Neurology, 58, 198–208CrossRef Google Scholar

Rosen, H. J., Hartikainen, K. M., Jagust, W.et al. (2002b). Utility of clinical criteria in differentiating frontotemporal lobar degeneration (FTLD) from AD. Neurology, 58, 1608–15CrossRef Google Scholar

Rosen, H. J., Kramer, J. H., Gorno-Tempini, M. L., Schuff, N., Weiner, M. & Miller, B. L. (2002c). Patterns of cerebral atrophy in primary progressive aphasia. Am. J. Geriatr. Psychiatr., 10, 89–97CrossRef Google Scholar

Rosen, H. J., Lengenfelder, J. & Miller, B. (2000). Frontotemporal dementia. Neurol. Clin., 18, 979–92CrossRef Google Scholar PubMed

Rosso, S. M., Kamphorst, W., Graaf, B. (2001). Familial frontotemporal dementia with ubiquitin-positive inclusions is linked to chromosome 17q21–22. Brain, 124, 1948–57CrossRef Google Scholar PubMed

Rosso, S. M. & Swieten, J. C. (2002). New developments in frontotemporal dementia and parkinsonism linked to chromosome 17. Curr. Opin. Neurol., 15, 423–8CrossRef Google Scholar PubMed

Rossor, M. N., Revesz, T., Lantos, P. L. & Warrington, E. K. (2000). Semantic dementia with ubiquitin-positive tau-negative inclusion bodies. Brain, 123, 267–76CrossRef Google Scholar PubMed

Snowden, J. S., Neary, D., Mann, D. M., Goulding, P. J. & Testa, H. J. (1992). Progressive language disorder due to lobar atrophy. Ann. Neurol., 31, 174–83CrossRef Google Scholar PubMed

Snowden, J. S., Neary, D. & Mann, D. M. A. (1996a). Fronto-temporal dementia. In Fronto-Temporal Lobar Degeneration, ed. J. S. Snowden, D. Neary & D. M. A. Mann, New York: Churchill Livingstone. pp. 1–41

Snowden, J. S., Neary, D. & Mann, D. M. A. (1996b). Semantic dementia. In Fronto-Temporal Lobar Degeneration, ed. J. S. Snowden, D. Neary, & D. M. A. Mann, New York: Churchill Livingstone. pp. 91–114

Stevens, M., Duijn, C. M., Kamphorst, W.et al. (1998). Familial aggregation in frontotemporal dementia. Neurology, 50, 1541–5CrossRef Google Scholar PubMed

Swartz, J. R., Miller, B. L., Lesser, I. M., Booth, R., Darby, A., Wohl, M. & Benson, D. F. (1997a). Behavioral phenomenology in Alzheimer's disease, frontotemporal dementia, and late-life depression: a retrospective analysis. J. Geriatr. Psychiatry Neurol., 10, 67–74CrossRef Google Scholar

Swartz, J. R., Miller, B. L., Lesser, I. M. & Darby, A. L. (1997b). Frontotemporal dementia: treatment response to serotonin selective reuptake inhibitors. J. Clin. Psychiatr., 58, 212–16CrossRef Google Scholar

Talerico, K. A. & Evans, L. K. (2001). Responding to safety issues in frontotemporal dementias. Neurology, 56, S52–5CrossRef Google Scholar PubMed

Trojanowski, J. Q. & Dickson, D. (2001). Update on the neuropathological diagnosis of frontotemporal dementias. J. Neuropathol. Exp. Neurol., 60, 1123–6CrossRef Google Scholar PubMed

Warrrington, E. (1975). Selective impairment of semantic memory. Q. J. Exp. Psychol., 27, 635–7CrossRef Google Scholar

Weintraub, S., Rubin, N. P. & Mesulam, M. M. (1990). Primary progressive aphasia. Longitudinal course, neuropsychological profile, and language features. Arch. Neurol., 47, 1329–35CrossRef Google Scholar PubMed

Wittmann, C. W., Wszolek, M. F., Shulman, J. M.et al. (2001). Tauopathy in Drosophila: neurodegeneration without neurofibrillary tangles. Science, 293, 711–14CrossRef Google Scholar PubMed

Wood, P. L., Etienne, P., Lal, S.et al. (1983). A post-mortem comparison of the cortical cholinergic system in Alzheimer's disease and Pick's disease. J. Neurol. Sci., 62, 211–17CrossRef Google Scholar PubMed

Zhukareva, V., Mann, D., Pickering-Brown, S.et al. (2002). Sporadic Pick's disease: a tauopathy characterized by a spectrum of pathological tau isoforms in gray and white matter. Ann. Neurol., 51, 730–9CrossRef Google Scholar PubMed

Zhukareva, V., Vogelsberg-Ragaglia, V., Deerlin, V. M.et al. (2001). Loss of brain tau defines novel sporadic and familial tauopathies with frontotemporal dementia. Ann. Neurol., 49, 165–753.0.CO;2-3>CrossRef Google Scholar PubMed

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