scholarly article | Q13442814 |
P50 | author | Steven Laureys | Q676661 |
Athena Demertzi | Q42374683 | ||
Andrea Soddu | Q81385472 | ||
Olivia Gosseries | Q89851264 | ||
Caroline Schnakers | Q91788056 | ||
Audrey Vanhaudenhuyse | Q91951273 | ||
Marie-Aurélie Bruno | Q93038094 | ||
P2860 | cites work | Unresponsive wakefulness syndrome: a new name for the vegetative state or apallic syndrome | Q21245260 |
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The brain's default network: anatomy, function, and relevance to disease | Q27860961 | ||
Neurogenesis in the neocortex of adult primates | Q28145880 | ||
Detecting awareness in the vegetative state | Q28262523 | ||
Wandering minds: the default network and stimulus-independent thought | Q28284032 | ||
Two Distinct Neuronal Networks Mediate the Awareness of Environment and of Self | Q29400493 | ||
Baseline brain activity fluctuations predict somatosensory perception in humans | Q30497232 | ||
How should functional imaging of patients with disorders of consciousness contribute to their clinical rehabilitation needs? | Q31076910 | ||
Intrinsic brain activity in altered states of consciousness: how conscious is the default mode of brain function? | Q33347996 | ||
Exploring altered consciousness states by magnetic resonance imaging in brain injury | Q33427591 | ||
Magnetic resonance spectroscopy and diffusion tensor imaging in coma survivors: promises and pitfalls | Q33509700 | ||
Reaching across the abyss: recent advances in functional magnetic resonance imaging and their potential relevance to disorders of consciousness | Q33509702 | ||
Neuroimaging after coma. | Q33513225 | ||
Default network connectivity reflects the level of consciousness in non-communicative brain-damaged patients | Q33570026 | ||
Willful modulation of brain activity in disorders of consciousness | Q34096737 | ||
The minimally conscious state: definition and diagnostic criteria | Q34113688 | ||
Positive outcomes in traumatic brain injury-vegetative state: patients treated with bromocriptine | Q34179118 | ||
Persistent vegetative state after brain damage. A syndrome in search of a name | Q34202137 | ||
Residual cerebral activity and behavioural fragments can remain in the persistently vegetative brain | Q34523358 | ||
Possible axonal regrowth in late recovery from the minimally conscious state. | Q34545127 | ||
Auditory processing in severely brain injured patients: differences between the minimally conscious state and the persistent vegetative state | Q34545650 | ||
Conscious, preconscious, and subliminal processing: a testable taxonomy | Q34566374 | ||
Behavioural improvements with thalamic stimulation after severe traumatic brain injury | Q34658790 | ||
Beyond phrenology: what can neuroimaging tell us about distributed circuitry? | Q34674851 | ||
Do vegetative patients retain aspects of language comprehension? Evidence from fMRI. | Q34683027 | ||
Medical aspects of the persistent vegetative state (2). | Q34727842 | ||
Sensory stimulation of brain-injured individuals in coma or vegetative state: results of a Cochrane systematic review | Q34795566 | ||
Brain, conscious experience and the observing self | Q35587536 | ||
Do we need stimulation programs as a part of nursing care for patients in "persistent vegetative state"? A conceptual analysis. | Q35633548 | ||
Brain function in coma, vegetative state, and related disorders | Q35868672 | ||
Behavioral evaluation of consciousness in severe brain damage | Q36268939 | ||
Intrathecal baclofen in the treatment of post-stroke central pain, dystonia, and persistent vegetative state. | Q36907024 | ||
Deep brain stimulation and cognition: moving from animal to patient | Q36997040 | ||
Amantadine enhancement of arousal and cognition after traumatic brain injury | Q37062704 | ||
Is there anybody in there? Detecting awareness in disorders of consciousness | Q37318156 | ||
Recovery of consciousness after brain injury: a mesocircuit hypothesis | Q37642984 | ||
Awakenings and awareness recovery in disorders of consciousness: is there a role for drugs? | Q37775609 | ||
The vegetative state | Q37777260 | ||
Functional connectivity in the default network during resting state is preserved in a vegetative but not in a brain dead patient. | Q39989286 | ||
Predictors of outcome in prolonged posttraumatic disorders of consciousness and assessment of medication effects: A multicenter study. | Q40439066 | ||
Tracking the recovery of consciousness from coma | Q41665205 | ||
Breakdown of within- and between-network resting state functional magnetic resonance imaging connectivity during propofol-induced loss of consciousness | Q42872386 | ||
Cortical processing of noxious somatosensory stimuli in the persistent vegetative state | Q44177593 | ||
Cerebral processing in the minimally conscious state. | Q45057251 | ||
Measuring the effect of amantadine in chronic anoxic minimally conscious state | Q46803275 | ||
Assessment of visual pursuit in post-comatose states: use a mirror | Q46803278 | ||
Late recovery after traumatic, anoxic, or hemorrhagic long-lasting vegetative state | Q48162412 | ||
Cerebral response to patient's own name in the vegetative and minimally conscious states | Q48235252 | ||
Hypnotic modulation of resting state fMRI default mode and extrinsic network connectivity | Q48237593 | ||
Impaired effective cortical connectivity in vegetative state: preliminary investigation using PET. | Q48246371 | ||
Sensory stimulation programme to improve recovery in comatose patients | Q48328300 | ||
Hypnotic induction decreases anterior default mode activity. | Q48449152 | ||
Early morphologic and spectroscopic magnetic resonance in severe traumatic brain injuries can detect "invisible brain stem damage" and predict "vegetative states". | Q48544865 | ||
Diffusion tensor MR imaging in diffuse axonal injury. | Q48608556 | ||
Deep brain stimulation therapy for a persistent vegetative state. | Q48622481 | ||
The neural correlate of (un)awareness: lessons from the vegetative state. | Q48706037 | ||
The effects of increased rehabilitation therapy after brain injury: results of a prospective controlled trial. | Q48756145 | ||
Neuroimaging and disorders of consciousness: envisioning an ethical research agenda. | Q48882332 | ||
Perception of pain in the minimally conscious state with PET activation: an observational study. | Q48892936 | ||
Disorders of consciousness: Moving from passive to resting state and active paradigms. | Q51840475 | ||
Identifying the default-mode component in spatial IC analyses of patients with disorders of consciousness | Q57835237 | ||
Auditory processing in the vegetative state | Q60041144 | ||
Restoration of thalamocortical connectivity after recovery from persistent vegetative state | Q60041147 | ||
[Deep cerebral stimulation in patients with post-traumatic vegetative state. 25 cases] | Q72139557 | ||
The neuropathology of the vegetative state after an acute brain insult | Q73929283 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | consciousness | Q7087 |
neuroplasticity | Q849491 | ||
P304 | page(s) | 245 | |
P577 | publication date | 2010-01-01 | |
P1433 | published in | Frontiers in Psychology | Q2794477 |
P1476 | title | Neural plasticity lessons from disorders of consciousness | |
P478 | volume | 1 |
Q30378896 | A pilot study into the effects of music therapy on different areas of the brain of individuals with unresponsive wakefulness syndrome. |
Q55392466 | Effects of 20 Hz Repetitive Transcranial Magnetic Stimulation on Disorders of Consciousness: A Resting-State Electroencephalography Study. |
Q48623630 | Long-term outcome of patients with disorders of consciousness with and without epileptiform activity and seizures: a prospective single centre cohort study. |
Q35031799 | What brain plasticity reveals about the nature of consciousness: commentary |
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