| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Esteban Fridman | Q43146738 |
| P2093 | author name string | Nicholas D Schiff | |
| P2860 | cites work | Mechanisms for selection of basic motor programs – roles for the striatum and pallidum | Q22337301 |
| A default mode of brain function | Q24544311 | ||
| General anesthesia, sleep, and coma | Q24611495 | ||
| Awakenings from persistent vegetative state: report of three cases with parkinsonism and brain stem lesions on MRI | Q24672169 | ||
| Stimulation of dopa decarboxylase activity in striatum of healthy human brain secondary to NMDA receptor antagonism with a low dose of amantadine | Q28374675 | ||
| Dopamine agonist therapy in low-response children following traumatic brain injury | Q30441709 | ||
| Thalamic nuclei after human blunt head injury | Q33246729 | ||
| Default network connectivity reflects the level of consciousness in non-communicative brain-damaged patients | Q33570026 | ||
| Regional cerebral metabolic patterns demonstrate the role of anterior forebrain mesocircuit dysfunction in the severely injured brain | Q33674407 | ||
| From unresponsive wakefulness to minimally conscious PLUS and functional locked-in syndromes: recent advances in our understanding of disorders of consciousness | Q33933165 | ||
| Electrical stimulation of the ventral tegmental area induces reanimation from general anesthesia | Q33958035 | ||
| Neuronal deactivation explains decreased cerebellar blood flow in response to focal cerebral ischemia or suppressed neocortical function | Q34065223 | ||
| Coma and consciousness: paradigms (re)framed by neuroimaging | Q34121442 | ||
| Paramedian thalamic and midbrain infarcts: Clinical and neuropathological study | Q52224711 | ||
| Akinetic rnutism from hypothalamic damage: Successful treatment with dopamine agonists | Q72512734 | ||
| The intralaminar and midline nuclei of the thalamus. Anatomical and functional evidence for participation in processes of arousal and awareness | Q78493818 | ||
| Positive outcomes in traumatic brain injury-vegetative state: patients treated with bromocriptine | Q34179118 | ||
| Distribution of dopamine D2-like receptors in the human thalamus: autoradiographic and PET studies | Q34277944 | ||
| Impact of network activities on neuronal properties in corticothalamic systems | Q34296211 | ||
| Activation of orbital and medial prefrontal cortex by methylphenidate in cocaine-addicted subjects but not in controls: relevance to addiction. | Q34411360 | ||
| Possible axonal regrowth in late recovery from the minimally conscious state. | Q34545127 | ||
| Cognitive activation by central thalamic stimulation: the yerkes-dodson law revisited | Q34633145 | ||
| Behavioural improvements with thalamic stimulation after severe traumatic brain injury | Q34658790 | ||
| The neurobiology of sleep: genetics, cellular physiology and subcortical networks | Q34770328 | ||
| Striatal origin of the pathologic beta oscillations in Parkinson's disease | Q35105211 | ||
| Catecholamine influences on dorsolateral prefrontal cortical networks | Q35132548 | ||
| Active emergence from propofol general anesthesia is induced by methylphenidate | Q35920648 | ||
| The hypothalamic integrator for circadian rhythms | Q36062621 | ||
| Activation of D1 dopamine receptors induces emergence from isoflurane general anesthesia | Q36481520 | ||
| Evaluation of [(11)C]MRB for assessment of occupancy of norepinephrine transporters: Studies with atomoxetine in non-human primates | Q37009798 | ||
| Central thalamic contributions to arousal regulation and neurological disorders of consciousness | Q37203776 | ||
| Potential network mechanisms mediating electroencephalographic beta rhythm changes during propofol-induced paradoxical excitation | Q37281437 | ||
| Common resting brain dynamics indicate a possible mechanism underlying zolpidem response in severe brain injury | Q37323380 | ||
| Rapid neocortical dynamics: cellular and network mechanisms | Q37466841 | ||
| Recovery of consciousness after brain injury: a mesocircuit hypothesis | Q37642984 | ||
| Disorders of consciousness after acquired brain injury: the state of the science | Q38182339 | ||
| Zolpidem and restoration of consciousness. | Q39270457 | ||
| The noradrenaline transporter as site of action for the anti-Parkinson drug amantadine. | Q39430978 | ||
| Dopamine (3-hydroxytyramine) and brain function | Q40035585 | ||
| Dopamine modulates the responsivity of mediodorsal thalamic cells recorded in vitro. | Q42465306 | ||
| Trajectories of cholinergic pathways within the cerebral hemispheres of the human brain | Q42466036 | ||
| A PET study with [11-C]raclopride in Parkinson's disease: preliminary results on the effect of amantadine on the dopaminergic system | Q42508133 | ||
| Continuous subcutaneous apomorphine for severe disorders of consciousness after traumatic brain injury | Q43126417 | ||
| Critical involvement of the thalamus and precuneus during restoration of consciousness with physostigmine in humans during propofol anaesthesia: a positron emission tomography study | Q44027582 | ||
| Amantadine increases L-DOPA-derived extracellular dopamine in the striatum of 6-hydroxydopamine-lesioned rats | Q44413952 | ||
| Effects of subanesthetic ketamine on regional cerebral glucose metabolism in humans | Q44869809 | ||
| Efficacy of methylphenidate in the rehabilitation of attention following traumatic brain injury: a randomised, crossover, double blind, placebo controlled inpatient trial. | Q46211925 | ||
| The effects of methylphenidate on command following and yes/no communication in persons with severe disorders of consciousness: a meta-analysis of n-of-1 studies. | Q48088942 | ||
| Clinical and imaging evidence of zolpidem effect in hypoxic encephalopathy | Q48243848 | ||
| A role for the default mode network in the bases of disorders of consciousness. | Q48350754 | ||
| Placebo-controlled trial of amantadine for severe traumatic brain injury | Q48636008 | ||
| Origin of slow cortical oscillations in deafferented cortical slabs | Q48710233 | ||
| Preserved feedforward but impaired top-down processes in the vegetative state. | Q51569585 | ||
| P304 | page(s) | 172-177 | |
| P577 | publication date | 2014-10-03 | |
| P1433 | published in | Current Opinion in Neurobiology | Q15763572 |
| P1476 | title | Neuromodulation of the conscious state following severe brain injuries | |
| P478 | volume | 29 |
| Q89358696 | Abnormal Effective Connectivity of the Anterior Forebrain Regions in Disorders of Consciousness |
| Q38817621 | Central thalamic deep brain stimulation to support anterior forebrain mesocircuit function in the severely injured brain |
| Q90503908 | Challenges and demand for modeling disorders of consciousness following traumatic brain injury |
| Q58658420 | Measuring states of pathological (un)consciousness: research dimensions, clinical applications, and ethics |
| Q90038947 | Presynaptic dopamine deficit in minimally conscious state patients following traumatic brain injury |
| Q104472027 | Recovery from disorders of consciousness: mechanisms, prognosis and emerging therapies |
| Q57539380 | Restorative Neurology, Rehabilitation and Brain Injury |
| Q42756800 | Robust modulation of arousal regulation, performance, and frontostriatal activity through central thalamic deep brain stimulation in healthy nonhuman primates |
| Q37461961 | Stratification of unresponsive patients by an independently validated index of brain complexity |
| Q90023608 | Therapeutic interventions in patients with prolonged disorders of consciousness |
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