| P50 | author | John Hodges | Q64710931 |
| | Michael Hornberger | Q37839070 |
| | Cristian E. Leyton | Q38330283 |
| | Sharon A. Savage | Q40457535 |
| | Kirrie J. Ballard | Q48187649 |
| | Adam P. Vogel | Q48801412 |
| P2860 | cites work | Classification of primary progressive aphasia and its variants | Q24594803 |
| | Connected speech production in three variants of primary progressive aphasia | Q24627430 |
| | Characterizing a neurodegenerative syndrome: primary progressive apraxia of speech | Q24632112 |
| | “Mini-mental state” | Q25938989 |
| | A treatment for dysprosody in childhood apraxia of speech | Q28291886 |
| | Speech errors in progressive non-fluent aphasia | Q30476001 |
| | Abeta amyloid and glucose metabolism in three variants of primary progressive aphasia | Q30486197 |
| | The logopenic/phonological variant of primary progressive aphasia | Q30487374 |
| | Primary progressive aphasia: a tale of two syndromes and the rest | Q30514205 |
| | Diagnostic Assessment of Childhood Apraxia of Speech Using Automatic Speech Recognition (ASR) Methods. | Q30541149 |
| | Syndromes dominated by apraxia of speech show distinct characteristics from agrammatic PPA. | Q30544788 |
| | Neural mechanisms of autonomic, affective, and cognitive integration | Q31014069 |
| | Influence of continual biofeedback on jaw pursuit-tracking in healthy adults and in adults with apraxia plus aphasia | Q48920784 |
| | Motor programming in apraxia of speech | Q50452222 |
| | Automatic method of pause measurement for normal and dysarthric speech. | Q51726666 |
| | Measures of native and non-native rhythm in a quantity language. | Q52039459 |
| | Progressive apraxia of speech as a window into the study of speech planning processes. | Q52610309 |
| | Apraxia of speech and phonological errors in the diagnosis of nonfluent/agrammatic and logopenic variants of primary progressive aphasia. | Q52630385 |
| | Loudness predicts prominence: Fundamental frequency lends little | Q55967898 |
| | Planning speech one syllable at a time: the reduced buffer capacity hypothesis in apraxia of speech | Q57588592 |
| | Syllable frequency and syllable structure in the spontaneous speech production of patients with apraxia of speech | Q58185616 |
| | Apraxia of speech in degenerative neurologic disease | Q58298014 |
| | Quantitative characterizations of speech rhythm: syllable-timing in Singapore English | Q74067452 |
| | The role of the right anterior insular cortex in the right hemisphere preponderance of stimulus-preceding negativity (SPN): an fMRI study | Q82702026 |
| | An overview on Primary Progressive Aphasia and its variants | Q31050207 |
| | Cortical interactions underlying the production of speech sounds | Q31051483 |
| | Progressive nonfluent aphasia and its characteristic motor speech deficits | Q33311113 |
| | Apraxia in progressive nonfluent aphasia | Q33766378 |
| | Alzheimer and frontotemporal pathology in subsets of primary progressive aphasia. | Q33805339 |
| | Progressive non-fluent aphasia is associated with hypometabolism centred on the left anterior insula | Q33967616 |
| | Syndromes of nonfluent primary progressive aphasia: a clinical and neurolinguistic analysis | Q34099186 |
| | Progressive logopenic/phonological aphasia: erosion of the language network | Q34143302 |
| | Population-based norms for the Mini-Mental State Examination by age and educational level | Q34363883 |
| | Longitudinal assessment of Aβ and cognition in aging and Alzheimer disease | Q34606557 |
| | Toward an acoustic typology of motor speech disorders | Q35562335 |
| | Development of methodology for conducting clinical trials in frontotemporal lobar degeneration | Q37300553 |
| | Clinicopathological and imaging correlates of progressive aphasia and apraxia of speech | Q37356674 |
| | Neural basis of interpersonal traits in neurodegenerative diseases | Q37396349 |
| | Difficulties in automatic speech recognition of dysarthric speakers and implications for speech-based applications used by the elderly: a literature review | Q37779086 |
| | An fMRI investigation of syllable sequence production. | Q38406650 |
| | The role of the left mesial frontal cortex in fluent speech: evidence from a case of left supplementary motor area hemorrhage | Q38455044 |
| | Distinguishing subtypes in primary progressive aphasia: application of the Sydney language battery | Q38455084 |
| | Subtypes of progressive aphasia: application of the International Consensus Criteria and validation using β-amyloid imaging. | Q38484728 |
| | Amyloid imaging results from the Australian Imaging, Biomarkers and Lifestyle (AIBL) study of aging | Q43062420 |
| | Identification of dysarthria types based on perceptual analysis | Q45079670 |
| | Speech acoustic markers of early stage and prodromal Huntington's disease: a marker of disease onset? | Q45289933 |
| | Common and unique gray matter correlates of episodic memory dysfunction in frontotemporal dementia and Alzheimer's disease | Q45805391 |
| | Acoustic analysis of the effects of sustained wakefulness on speech. | Q46726274 |
| | Developmental trajectory for production of prosody: lexical stress contrastivity in children ages 3 to 7 years and in adults | Q47945971 |
| | Syllable frequency and syllable structure in apraxia of speech | Q48104506 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P4510 | describes a project that uses | Praat | Q378530 |
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | primary progressive aphasia | Q18767 |
| P304 | page(s) | e89864 | |
| P577 | publication date | 2014-02-28 | |
| P1433 | published in | PLOS One | Q564954 |
| P1476 | title | Logopenic and nonfluent variants of primary progressive aphasia are differentiated by acoustic measures of speech production | |
| P478 | volume | 9 | |