OBJECTIVE: To correlate clinical diagnosis and genetic features with different pathological substrates in patients with frontotemporal lobar degeneration (FTLD) and corticobasal degeneration (CBD). METHODS: 32 cases with pathological proven FTLD or CBD were selected. Patients were classified clinically as frontotemporal dementia (FTD), progressive nonfluent aphasia (PNFA), semantic dementia (SD), CBD or FLTD with motor neuron disease (FLTDMND). Coding exons 1 and 9-13 of MAPT and exons 0-12 of the PGRN gene were screened by direct sequencing. Regarding the neuropathological findings, cases were classified as tau-positive, ubiquitinpositive tau-negative (FTLD-U), neuronal intermediate filaments inclusions disease (NIFID), dementia lacking distinctive histology (DLDH) or CBD. RESULTS: 17 patients were clinically diagnosed with FTD. Ten showed tau pathology, 3 FTLD-U, 1 NIFID and 3 DLDH. All patients clinically classified as FTLD-MND (6 patients) or SD (3 patients) were FTLD-U. Tau-positive pathology was the substrate of the three patients with PNFA. All three patients classified clinically as CBD presented neuropathologic features of CBD. The three individuals with familial history of early onset FTD and tau-positive pathology carried the P301L mutation in the MAPT gene. One out of 3 cases with FTLD-U and intranuclear inclusions carried a mutation in the PGRN gene. CONCLUSIONS: We found that pathology underlying sporadic FTD is heterogeneous and not predictable. MAPT mutations and clinical diagnosis of PNFA and CBD were associated with tau-positive pathology. The presence of signs of lower MND and SD correlated with FTLD-U.A genetic study of MAPT is only recommended when familial history of early onset DFT is present.
OBJECTIVE: To correlate clinical diagnosis and genetic features with different pathological substrates in patients with frontotemporal lobar degeneration (FTLD) and corticobasal degeneration (CBD). METHODS: 32 cases with pathological proven FTLD or CBD were selected. Patients were classified clinically as frontotemporal dementia (FTD), progressive nonfluent aphasia (PNFA), semantic dementia (SD), CBD or FLTD with motor neuron disease (FLTDMND). Coding exons 1 and 9-13 of MAPT and exons 0-12 of the PGRN gene were screened by direct sequencing. Regarding the neuropathological findings, cases were classified as tau-positive, ubiquitinpositive tau-negative (FTLD-U), neuronal intermediate filaments inclusions disease (NIFID), dementia lacking distinctive histology (DLDH) or CBD. RESULTS: 17 patients were clinically diagnosed with FTD. Ten showed tau pathology, 3 FTLD-U, 1 NIFID and 3 DLDH. All patients clinically classified as FTLD-MND (6 patients) or SD (3 patients) were FTLD-U. Tau-positive pathology was the substrate of the three patients with PNFA. All three patients classified clinically as CBD presented neuropathologic features of CBD. The three individuals with familial history of early onset FTD and tau-positive pathology carried the P301L mutation in the MAPT gene. One out of 3 cases with FTLD-U and intranuclear inclusions carried a mutation in the PGRN gene. CONCLUSIONS: We found that pathology underlying sporadic FTD is heterogeneous and not predictable. MAPT mutations and clinical diagnosis of PNFA and CBD were associated with tau-positive pathology. The presence of signs of lower MND and SD correlated with FTLD-U.A genetic study of MAPT is only recommended when familial history of early onset DFT is present.
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