Minimally conscious state

A minimally conscious state (MCS) is a disorder of consciousness distinct from persistent vegetative state and locked-in syndrome. Unlike persistent vegetative state, patients with MCS have partial preservation of conscious awareness. MCS is a relatively new category of disorders of consciousness. The natural history and longer term outcome of MCS have not yet been thoroughly studied. The prevalence of MCS was estimated to be 112,000 to 280,000 adult and pediatric cases. A minimally conscious state (MCS) is a disorder of consciousness distinct from persistent vegetative state and locked-in syndrome. Unlike persistent vegetative state, patients with MCS have partial preservation of conscious awareness. MCS is a relatively new category of disorders of consciousness. The natural history and longer term outcome of MCS have not yet been thoroughly studied. The prevalence of MCS was estimated to be 112,000 to 280,000 adult and pediatric cases. Because minimally conscious state is a relatively new criterion for diagnosis, there are very few functional imaging studies of patients with this condition. Preliminary data has shown that overall cerebral metabolism is less than in those with conscious awareness (20-40% of normal) and is slightly higher but comparable to those in vegetative states. Activation in the medial parietal cortex and adjacent posterior cingulate cortex are brain regions that seem to differ between patients in MCS and those from vegetative states. These areas are most active during periods of conscious waking and are least active when in altered states of consciousness, such as general anesthesia, propofol, hypnotic state, dementia, and Wernicke–Korsakoff syndrome. Auditory stimulation induced more widespread activation in the primary and pre-frontal associative areas of MCS patients than vegetative state patients. There were also more cortiocortical functional connectivity between the auditory cortex and a large network of temporal and prefrontal cortices in MCS than vegetative states. These findings encourage treatments based on neuromodulatory and cognitive revalidation therapeutic strategies for patients with MCS. One study used diffusion tensor imaging (DTI) in two case studies. They found that there were widespread cerebral atrophy in both patients. The lateral ventricles were increased in size, and the corpus callosum and the periventricular white matter were diminished. The DTI maps showed that there was significant reduction of volume in the medial corpus callosum and other parts of the brain compared to normal subjects. They also found markedly lower diffusion values in white matter and increased cerebral spinal fluid compartments. Cortical injuries at this level provides a particular favorable environment for sprouting of new axons to occur in the intact areas of the cortex, which may explain some of the greater recovery rates in minimally conscious state patients. The axonal regrowth has been correlated with functional motor recovery. The regrowth and rerouting of the axons may explain some of the changes to brain structure. These findings support the efforts to prospectively and longitudinally characterize neuroplasticity in both brain structure and function following severe injuries. Utilizing DTI and other neuroimaging techniques may further shed light on the debates on long-distance cortical rewiring and may lead to better rehabilitation strategies. Some areas of the brain that are correlated with the subjective experience of pain were activated in MCS patients when noxious stimulation was present. Positron emission tomography (PET) scans found increased blood flow to the secondary sensory cortex, posterior parietal cortex, premotor cortex, and the superior temporal cortex. The pattern of activation, however, was with less spatial extent. Some parts of the brain were less activated than normal patients during noxious stimulus processing. These were the posterior cingulate, medial prefrontal cortex, and the occipital cortex. Even though functional brain imaging can objectively measure changes in brain function during noxious stimulation, the role of different areas of the brain in pain processing is only partially understood. Furthermore, there is still the problem of the subjective experience. MCS patients by definition cannot consistently and reliably communicate their experiences. Even if they were able to answer the question 'are you in pain?', there would not be a reliable response. Further clinical trials are needed to access the appropriateness of the use of analgesia in patients with MCS. A functional magnetic resonance imaging (fMRI) study found that minimally conscious state patients showed activation in auditory networks when they heard narratives that had personally meaningful content that were read forwards by a familiar voice. These activations were not seen when the narratives were read backwards. Another study compared patients in vegetative state and minimally conscious state in their ability to recognize language. They found that some patients in minimally conscious state demonstrated some evidence of preserved speech processing. There was more activation in response to sentences compared to white noise. Minimally conscious state (MCS) is defined as a condition of severely altered consciousness in which minimal but definite behavioral evidence of self or environmental awareness is demonstrated. Although MCS patients are able to demonstrate cognitively mediated behaviors, they occur inconsistently. They are, however, reproducible or can be sustained long enough to be differentiated from reflexive behavior. Because of this inconsistency, extended assessment may be required to determine if a simple response (e.g. a finger movement or a blink) occurred because of a specific environmental event (e.g. a command to move the finger or to blink) or was merely a coincidental behavior. Distinguishing between VS and MCS is often difficult because the diagnosis is dependent on observation of behavior that show self or environmental awareness and because those behavioral responses are markedly reduced. One of the more common diagnostic errors involving disorders of consciousness is mistaking MCS for VS which may lead to serious repercussions related to clinical management.