| scholarly article | Q13442814 |
| review article | Q7318358 |
| P6179 | Dimensions Publication ID | 1048475307 |
| P356 | DOI | 10.1007/S11910-015-0573-X |
| P698 | PubMed publication ID | 26077130 |
| P2093 | author name string | Donna C Tippett | |
| P2860 | cites work | Speech and language therapy for aphasia following stroke | Q24197761 |
| Using transcranial direct-current stimulation to treat stroke patients with aphasia | Q24606821 | ||
| The pathobiology of vascular dementia | Q27006033 | ||
| Dorsal and ventral streams: a framework for understanding aspects of the functional anatomy of language | Q28252051 | ||
| The cortical organization of speech processing | Q28297888 | ||
| Heart disease and stroke statistics--2011 update: a report from the American Heart Association | Q29547236 | ||
| Maps and streams in the auditory cortex: nonhuman primates illuminate human speech processing | Q29619526 | ||
| Speech facilitation by left inferior frontal cortex stimulation. | Q30468608 | ||
| Language systems in normal and aphasic human subjects: functional imaging studies and inferences from animal studies | Q30786172 | ||
| The latest on functional imaging studies of aphasic stroke | Q33218420 | ||
| Ischemia in broca area is associated with broca aphasia more reliably in acute than in chronic stroke | Q33686072 | ||
| Neural substrates of word generation during stroke recovery: the influence of cortical hypoperfusion | Q33794722 | ||
| Severe Broca's aphasia without Broca's area damage | Q33794832 | ||
| Physiological basis of transcranial direct current stimulation | Q33827227 | ||
| Direct current stimulation promotes BDNF-dependent synaptic plasticity: potential implications for motor learning | Q33830514 | ||
| Separate neural subsystems within 'Wernicke's area'. | Q33929467 | ||
| The roles of occipitotemporal cortex in reading, spelling, and naming | Q33940607 | ||
| Improvement in aphasia scores after stroke is well predicted by initial severity | Q34066439 | ||
| Reorganizing the intrinsic functional architecture of the human primary motor cortex during rest with non-invasive cortical stimulation | Q34150082 | ||
| Relationship between lesion extent in 'Wernicke's area' on computed tomographic scan and predicting recovery of comprehension in Wernicke's aphasia | Q34191040 | ||
| The Factors Associated with Good Responses to Speech Therapy Combined with Transcranial Direct Current Stimulation in Post-stroke Aphasic Patients. | Q34268454 | ||
| Improved picture naming in chronic aphasia after TMS to part of right Broca's area: an open-protocol study | Q34402756 | ||
| Aphasia or Neglect after Thalamic Stroke: The Various Ways They may be Related to Cortical Hypoperfusion | Q34540676 | ||
| Paul Broca's historic cases: high resolution MR imaging of the brains of Leborgne and Lelong | Q34615252 | ||
| Aphasia: progress in the last quarter of a century | Q34647863 | ||
| Diffusion-perfusion mismatch: an opportunity for improvement in cortical function | Q34954564 | ||
| Stroke Recovery: Surprising Influences and Residual Consequences | Q35249075 | ||
| The function of the left anterior temporal pole: evidence from acute stroke and infarct volume. | Q35275353 | ||
| Mechanisms of recovery from aphasia: evidence from positron emission tomography studies. | Q35449694 | ||
| Influence of transcortical d-c currents on cortical neuronal activity. | Q51294807 | ||
| Introducing graph theory to track for neuroplastic alterations in the resting human brain: a transcranial direct current stimulation study. | Q51649970 | ||
| Values in practice and practising values. | Q52119357 | ||
| Cathodal transcranial direct current stimulation of the right Wernicke's area improves comprehension in subacute stroke patients. | Q53421988 | ||
| Intensity of Aphasia Therapy, Impact on Recovery * Aphasia Therapy Works! | Q55899027 | ||
| Aphasia during the acute phase in ischemic stroke | Q57219899 | ||
| Epidemiology of Aphasia Attributable to First Ischemic Stroke | Q59328456 | ||
| Re-examining the brain regions crucial for orchestrating speech articulation | Q62839688 | ||
| MR perfusion imaging reveals regions of hypoperfusion associated with aphasia and neglect | Q74333066 | ||
| "Diffusion-clinical mismatch" is associated with potential for early recovery of aphasia | Q81489557 | ||
| Predicting outcome after stroke: the role of aphasia | Q84350389 | ||
| Aphasia: Current Concepts in Theory and Practice | Q93605832 | ||
| Asyntactic comprehension, working memory, and acute ischemia in Broca's area versus angular gyrus | Q36074385 | ||
| Formal education, socioeconomic status, and the severity of aphasia after stroke. | Q36109013 | ||
| Trajectory of functional decline before and after ischemic stroke: the Northern Manhattan Study | Q36113512 | ||
| The use of standardized tests for individuals with cognitive-communication disorders | Q36309831 | ||
| Lesion analysis of cortical regions associated with the comprehension of Nonreversible and Reversible yes/no questions. | Q36457803 | ||
| Recovery from aphasia following brain injury: the role of reorganization. | Q36626128 | ||
| Transcranial magnetic stimulation and aphasia rehabilitation | Q36660869 | ||
| Predictors and assessment of cognitive dysfunction resulting from ischaemic stroke | Q36668079 | ||
| Role of aphasia in discharge location after stroke | Q36919586 | ||
| Translational research in aphasia: from neuroscience to neurorehabilitation | Q37071418 | ||
| Predicting outcome and recovery after stroke with lesions extracted from MRI images | Q37185699 | ||
| Distinct mechanisms and timing of language recovery after stroke. | Q37691756 | ||
| Post-stroke aphasia prognosis: a review of patient-related and stroke-related factors | Q37852123 | ||
| How the ventral pathway got lost: and what its recovery might mean | Q37856492 | ||
| Vessel occlusion, penumbra, and reperfusion - translating theory to practice | Q38261013 | ||
| A common system for the comprehension and production of narrative speech. | Q38394236 | ||
| Neural regions essential for distinct cognitive processes underlying picture naming. | Q38398822 | ||
| Enhancing picture naming with transcranial magnetic stimulation | Q38401357 | ||
| Object activation in semantic memory from visual multimodal feature input | Q38436803 | ||
| Reperfusion of specific brain regions by raising blood pressure restores selective language functions in subacute stroke | Q38436951 | ||
| Transcranial direct current stimulation improves word retrieval in healthy and nonfluent aphasic subjects. | Q38498846 | ||
| Cortical evoked potential and extracellular K+ and H+ at critical levels of brain ischemia | Q39133981 | ||
| Longitudinal trends in aphasia in the United States | Q39805350 | ||
| Auckland Stroke Outcomes Study. Part 2: Cognition and functional outcomes 5 years poststroke. | Q39821708 | ||
| Open questions on the mechanisms of neuromodulation with applied and endogenous electric fields | Q39821727 | ||
| Relatively normal repetition performance despite severe disruption of the left arcuate fasciculus | Q42239015 | ||
| Subcortical damage and white matter disconnection associated with non-fluent speech | Q42827840 | ||
| Modulating cortico-striatal and thalamo-cortical functional connectivity with transcranial direct current stimulation | Q43679002 | ||
| Something to talk about: enhancement of linguistic cohesion through tdCS in chronic non fluent aphasia. | Q43916243 | ||
| Pharmacological approach to the mechanisms of transcranial DC-stimulation-induced after-effects of human motor cortex excitability | Q44147102 | ||
| A pilot randomized trial of induced blood pressure elevation: effects on function and focal perfusion in acute and subacute stroke | Q44514843 | ||
| Transcranial direct current stimulation improves naming reaction time in fluent aphasia: a double-blind, sham-controlled study | Q47582673 | ||
| Neural networks essential for naming and word comprehension | Q48244423 | ||
| Polarization of the human motor cortex through the scalp | Q48416973 | ||
| Neural regions essential for writing verbs | Q48431141 | ||
| Restoring cerebral blood flow reveals neural regions critical for naming. | Q48456364 | ||
| Reorganization of the somatosensory cortex after amputation of the index finger | Q48508250 | ||
| Dynamics of language reorganization after stroke | Q48567740 | ||
| Restoring blood pressure reperfused Wernicke's area and improved language | Q48955658 | ||
| Long-lasting changes in the level of the electrical activity of the cerebral cortex produced bypolarizing currents. | Q51291670 | ||
| P433 | issue | 8 | |
| P921 | main subject | aphasia | Q2836 |
| P304 | page(s) | 49 | |
| P577 | publication date | 2015-08-01 | |
| P1433 | published in | Current Neurology and Neuroscience Reports | Q18206211 |
| P1476 | title | Update in Aphasia Research | |
| P478 | volume | 15 |
| Q92367708 | Assessment of the quality and content of clinical practice guidelines for post-stroke rehabilitation of aphasia |
| Q98577136 | Constraint-induced aphasia therapy for patients with aphasia: A systematic review |
| Q38851749 | Transcranial direct current stimulation in post stroke aphasia and primary progressive aphasia: Current knowledge and future clinical applications |
Search more.