Dissociation of cerebrospinal fluid amyloid-ß and tau levels in patients with prolonged posttraumatic disorders of consciousness.

BACKGROUND: Traumatic brain injury (TBI) is a major risk factor for Alzheimer's disease (AD). Although the mechanisms that lead to AD after a TBI are unclear, we hypothesize that changes in amyloid-ß (Aß) metabolism and abnormal tau phosphorylation are reasonable candidates. OBJECTIVE: To investigate Aß and tau dynamics in the chronic phase of TBI. METHODS: We evaluated Aß1-42, total tau (t-tau), and phosphorylated tau (p-tau) levels in the cerebrospinal fluid (CSF) of 15 patients who developed a prolonged disorder of consciousness after a severe TBI (mean time from TBI 271.6 ± 176.5 days). RESULTS: Reduced Aß1-42 levels (median 258 pg/ml, range 90-833.6) were observed in 14/15 patients (93.3%) with severe post-TBI disorders of consciousness. These CSF analysis data did not correlate with time since TBI or with the patients' level of consciousness as determined by the Coma Recovery Scale Revised. Normal t-tau levels (median 95.2 pg/ml, range 52-256.9) were found in all patients. Normal p-tau levels (median 22.2 pg/ml, range 14-72) were observed in 14/15 patients, with just a single patient having a slightly increased p-tau level. CONCLUSION: The present findings show that Aß and tau are differently affected in the chronic phase of severe TBI.

Risk Factors Associated With Peripheral Neuropathy in Heart Failure Patients Candidates for Transplantation.

INTRODUCTION: Peripheral neuropathy can affect patients with heart failure, though its prevalence is unknown. After heart transplantation, it can influence the postoperative course and quality of life, but screening for neuromuscular disease is not routinely performed. OBJECTIVE: The aim of this study was to identify the factors associated with neuropathy in a population of patients with heart failure who are candidates for heart transplantation. STUDY DESIGN: Data regarding patients' clinical history, including recent hospitalizations, were collected. All patients underwent a complete neurological examination and a neurophysiological protocol including nerve conduction studies and concentric needle electromyography. RESULTS: Thirty-two patients were included in the study, and neuropathy was diagnosed in 10 (31.3%). Neuropathy was associated with the number of admissions ( P = .023; odds ratio [OR]: 1.96) and the total number of days of hospitalization in the year prior to inclusion in the study ( P = .010; OR: 1.03). The majority of hospitalizations occurred in the step-down unit (85%), with acute heart failure the leading cause of admission (42%). CONCLUSIONS: This study shows that neuropathy is frequent in patients with advanced heart failure and that hospitalization for cardiac care, also in the absence of intensive care, is a marker of high risk of neurologic damage. These data can help physicians in selecting and managing candidates for transplantation and can guide decisions on the best immunosuppressive regimen or rehabilitation strategy.

Pain assessment with the revised nociception coma scale and outcomes of patients with unresponsive wakefulness syndrome: results from a pilot study.

The aim of this study was to evaluate whether standardized responses to nociceptive pain, assessed with the revised Nociception Coma Scale (NCS-R), were correlated with the outcomes of patients with unresponsive wakefulness syndrome (UWS) 6 months after admission to a rehabilitation department. We recruited 24 consecutive patients with UWS. Patients' consciousness levels were assessed with the revised Coma Recovery Scale (CRS-R) at admission and 6 months later, and their CRS-R scores were correlated with the NCS-R scores at admission. Ten of the 24 patients with UWS recovered consciousness after 6 months. The NCS-R score at admission was correlated with the CRS-R score at admission (P = 0.02), but not after 6 months (P = 0.6). Patients with and without consciousness improvement after 6 months showed no significant difference in the NCS-R total score and sub-scores at admission (P values > 0.05). In conclusion, the correlation between NCS-R and CRS-R scores at admission suggests that the standardized assessment of pain parallels patients' levels of consciousness, and may be helpful in the clinical evaluation of patients with UWS. Pain response assessed with the NCS-R was not related to the 6-month outcomes of patients with UWS.

Prolonged Cerebrospinal Fluid Neurofilament Light Chain Increase in Patients with Post-Traumatic Disorders of Consciousness.

The mechanisms involved in secondary brain injury after the acute phase of severe traumatic brain injury (TBI) are largely unknown. Ongoing axonal degeneration, consequent to the initial trauma, may lead to secondary brain injury. To test this hypothesis, we evaluated the cerebrospinal fluid (CSF) level of neurofilament light chain (NF-L), a proposed marker of axonal degeneration, in 10 patients who developed a severe disorder of consciousness after a TBI, including 7 in a minimally conscious state and 3 with unresponsive wakefulness syndrome (time since brain injury, 309 ± 169 days). CSF NF-L level was measured with a commercially available NF-L enzyme-linked immunosorbent assay. CSF NF-L level was very high in all 10 patients, ranging from 2.4- to 60.5-fold the upper normal limit (median value, 4458 pg/mL; range, 695-23,000). Moreover, NF-L level was significantly higher after a severe TBI than in a reference group of 9 patients with probable Alzheimer's disease, a population with elevated levels of CSF NF-L attributed to neuronal degeneration (median value, 1173 pg/mL; range, 670-3643; p < 0.01). CSF NF-L level was correlated with time post-TBI (p = 0.04). These results demonstrate prolonged secondary brain injury, suggesting that patients exhibit ongoing axonal degeneration up to 19 months after a severe TBI.

Longitudinal Assessment of Clinical Signs of Recovery in Patients with Unresponsive Wakefulness Syndrome after Traumatic or Nontraumatic Brain Injury.

Although clinical examination is the gold standard for differential diagnosis between unresponsive wakefulness syndrome (UWS) and minimally conscious state (MCS), clinical signs denoting the first occurrence of conscious behavior in patients with UWS have not been clarified. In this prospective single-center cohort study, 31 consecutive patients with UWS after traumatic brain injury (TBI) (17 patients) or non-TBI were assessed with the Coma Recovery Scale Revised (CRS-R) at admission to a rehabilitation department and after 1, 2, 3, 6, and 12 months. Of the 21 patients who recovered consciousness during the study, 90.5% recovered consciousness within the first 3 months. At the first diagnosis of emergence from UWS, 52.4% of patients showed signs of awareness in only one CRS-R subscale. In particular, 42.9% of patients showed conscious behaviors on the visual CRS-R subscale (23.8% showed visual fixation and 19.1% showed visual pursuit), and 9.5% showed conscious behaviors on the motor CRS-R subscale (half showed localization to a noxious stimulus and half showed object manipulation). Moreover, 23.8% of patients had conscious behaviors on two CRS subscales, always involving the visual and motor CRS-R subscales. The remaining patients showed conscious behaviors on more than two CRS-R subscales. In conclusion, visual fixation and visual pursuit are the commonest early clinical signs denoting MCS. When emerging from UWS, patients with TBI often showed more signs of consciousness and had higher CRS-R scores than patients with non-TBI.

EEG epileptiform abnormalities at admission to a rehabilitation department predict the risk of seizures in disorders of consciousness following a coma.

BACKGROUND: Seizures affect about a quarter of patients with disorders of consciousness (DOC) after a coma. AIMS: We investigated whether the presence of epileptiform abnormalities (EAs) in the electroencephalogram (EEG) of patients with DOC may predict the occurrence of seizures. Moreover, we evaluated whether EAs have a prognostic role in these patients. METHODS: This was a retrospective single-center cohort study of patients hospitalized between January 2005 and December 2014 in a rehabilitation department (mean time from acute brain injury: 46.1 days). We analyzed 30-minute EEGs at admittance for 112 patients with unresponsive wakefulness syndrome (UWS) or in a minimally conscious state (MCS), then compared occurrence of seizures over the following three months across patients with absent, unilateral, and bilateral EAs (generalized or bilateral independent). Outcomes at three months were assessed in the same groups using the Coma Recovery Scale Revised. RESULTS: Epileptiform abnormalities were observed in 38 patients (33.9%). Of these, 25 were unilateral, and 13 were bilateral. Seizures occurred in 84.6% of patients with bilateral EAs, which was significantly higher than in patients without EAs (10.8%, p<0.001) or with unilateral EAs (24%, p=0.001). The presence of EAs was not related to etiology or different DOC and did not significantly affect outcomes at three months. CONCLUSIONS: Patients with EAs at admission to a rehabilitation department have an increased risk of seizures. Specifically, most patients with bilateral EAs had seizures within the following 3 months. Evaluation of EAs in EEGs of patients with DOC may give valuable information in the management of antiepileptic drug treatment.

Occurrence of neuropathies in patients with severe heart failure before and after heart transplantation.

Neuropathies may affect heart reinnervation and functional outcome after heart transplantation (HT). In this study, neurological evaluations, standard nerve conduction studies, and electromyography were performed in 32 HT candidates without a previous history of neuromuscular disorder. Ten patients underwent HT and were revaluated 3 months later. We found that before HT 10 (31.3%) patients had sensorimotor polyneuropathy (18.8%) or sensory polyneuropathy (12.5%). After HT, the percentage of patients with a neuromuscular disorder increased to 70%, most of them showing new or worsening neuropathies or neuromyopathies. The most sensitive abnormality that indicated neuromuscular involvement after HT was a reduction of the compound muscle action potential (CMAP) of the deep peroneal nerve. In conclusion, neuromuscular disorders are common in HT candidates, and they further increase in occurrence after HT. A reduction of the deep peroneal nerve CMAP amplitude after HT may help to identify patients who need a more detailed neurophysiological evaluation. The diagnosis of neuromuscular disorders before and after HT may contribute to the development of more accurate therapeutic and rehabilitative strategies for these patients.

EEG predictors of outcome in patients with disorders of consciousness admitted for intensive rehabilitation.

OBJECTIVE: This study examined the prognostic value of standard EEG in patients with unresponsive wakefulness syndrome (UWS) or in a minimally conscious state (MCS). METHODS: EEGs recorded at admission in 106 patients with UWS or in a MCS were analyzed retrospectively. EEG amplitude, dominant frequency, and reactivity to stimuli were correlated to patient outcomes according to the Coma Recovery Scale Revised (CRS-R). In 101 patients, data were integrated to generate a novel Amplitude-Frequency-Reactivity (AFR) scale, with scores ranging from 3 to 7. RESULTS: Patients with reduced amplitudes showed less improvement in CRS-R scores at 3 months compared to patients with normal amplitudes. Delta, theta, and alpha frequencies were associated with the least, intermediate, and the greatest improvement in CRS-R scores, respectively. Patients with EEG reactivity showed greater improvements in CRS-R scores than patients without reactivity. The AFR scores for these patients were correlated with outcomes. CONCLUSIONS: Reduced EEG amplitudes and delta frequencies correlated with worse clinical outcomes, while alpha frequencies and reactivity correlated with better outcomes. AFR scores allowed more delineated descriptions of outcomes in patients with normal amplitude, theta frequency, and no reactivity. SIGNIFICANCE: Standard EEG descriptors are related to the 3-month outcomes in patients with disorders of consciousness.

Long-lasting coma.

In this report, we describe the case of a patient who has remained in a comatose state for more than one year after a traumatic and hypoxic brain injury. This state, which we refer to as long-lasting coma (LLC), may be a disorder of consciousness with significantly different features from those of conventional coma, the vegetative state, or brain death. On the basis of clinical, neurophysiological and neuroimaging data, we hypothesize that a multilevel involvement of the ascending reticular activating system is required in LLC. This description may be useful for the identification of other patients suffering from this severe disorder of consciousness, which raises important ethical issues.

Increased transcranial direct current stimulation after effects during concurrent peripheral electrical nerve stimulation.

In this study we tested the hypothesis whether a lasting change in the excitability of cortical output circuits can be obtained in healthy humans by combining a peripheral nerve stimulation during a concomitant depolarization and/or hyperpolarization of motor cortex. To reach this aim we combined two different neurophysiological techniques each of them able to induce a lasting increase of cortical excitability by them self: namely median nerve repetitive electrical stimulation (rEPNS) and transcranial direct current stimulation (tDCS). Ten normal young volunteers were enrolled in the present study. All subjects underwent five different protocols of stimulation: (1, 2) tDCS alone (anodal or cathodal); (3) Sham tDCS plus rEPNS; (4, 5) anodal or cathodal tDCS plus rEPNS. The baseline MEP amplitude from abductor pollicis brevis (APB) and flexor carpi radialis (FCR) muscle, the FCR H-reflex were compared with that obtained immediately after and 10, 20, 30, 60 min after the stimulation protocol. Anodal tDCS alone induced a significant transient increase of MEP amplitude immediately after the end of stimulation while anodal tDCS + rEPNS determined MEP changes which persisted for up 60 min. Cathodal tDCS alone induced a significant reduction of MEP amplitude immediately after the end of stimulation while cathodal tDCS + rEPNS prolonged the effects for up to 60 min. Sham tDCS + rEPNS did not induce significant changes in corticospinal excitability. Anodal or cathodal tDCS + rEPNS and sham tDCS + rEPNS caused a lasting facilitation of H-reflex. These findings suggest that by providing afferent input to the motor cortex while its excitability level is increased or decreased by tDCS may be a highly effective means for inducing an enduring bi-directional plasticity. The mechanism of this protocol may be complex, involving either cortical and spinal after effects.

Emerging from an unresponsive wakefulness syndrome: brain plasticity has to cross a threshold level.

Unresponsive wakefulness syndrome (UWS, previously known as vegetative state) occurs after patients survive a severe brain injury. Patients suffering from UWS have lost awareness of themselves and of the external environment and do not retain any trace of their subjective experience. Current data demonstrate that neuronal functions subtending consciousness are not completely reset in UWS; however, they are reduced below the threshold required to experience consciousness. The critical factor that determines whether patients will recover consciousness is the distance of their neuronal functions from this threshold level. Recovery of consciousness occurs through functional and/or structural changes in the brain, i.e., through neuronal plasticity. Although some of these changes may occur spontaneously, a growing body of evidence indicates that rehabilitative interventions can improve functional outcome by promoting adaptive functional and structural plasticity in the brain, especially if a comprehensive neurophysiological theory of consciousness is followed. In this review we will focus on the pathophysiological mechanisms involved in UWS and on the plastic changes operating on the recovery of consciousness.

A range of antiepileptic drugs do not affect the recovery of consciousness in vegetative and minimally conscious states.

Since most antiepileptic drugs (AEDs) have cognitive effects, the aim of this study was to evaluate the influence of AED therapy on the recovery of consciousness in 103 consecutive patients in a vegetative or minimally conscious state (VS, MCS). The levels of cognitive functioning (LCF) score was retrospectively compared after a three-month period of rehabilitation between patients who were medicated (n=54) and patients who were not medicated (n=49) with AEDs. Mean LCF scores in AED-medicated and nonmedicated patients were 2.2±0.7 and 2.3±0.8 at admission and 3.8±2.2 and 3.7±2.1 after three months, respectively (p values>0.05). These results did not change when we compared patients with the same etiology separately, with the same disorder of consciousness only, or patients treated with only one or more than one AED. In conclusion, AEDs did not affect the recovery of consciousness in a large cohort of patients in a VS or MCS following an acute brain injury.

Brain-derived neurotrophic factor (Val66Met) polymorphism does not influence recovery from a post-traumatic vegetative state: a blinded retrospective multi-centric study.

Brain-derived neurotrophic factor (BDNF) is a neurotrophin that influences neuronal plasticity throughout life. Emergence from a vegetative state (VS) after a traumatic brain injury (TBI) implies that the brain undergoes plastic changes. A common polymorphism in the BDNF gene--BDNF Val66Met (referred to herein as BDNF(Met))--impairs cognitive function in healthy subjects. The aim of this study was to determine whether the BDNF(Met) polymorphism plays a role in the recovery of consciousness and cognitive functions in patients in a VS after a TBI. Fifty-three patients in a VS 1 month after a TBI were included in the study and genotyped for the BDNF(Met) polymorphism. Scores of levels of cognitive functioning (LCF) at 1, 3, 6, and 12 months post-TBI were retrospectively compared in patients without (Val group), and with (Met group), the BDNF(Met) polymorphism. The BDNF(Met) polymorphism was detected in 20 out of the 53 patients. The mean LCF scores in the Val and Met groups were 1.6±0.5 and 1.4±0.5 at 1 month, 2.3±0.7 and 2.5±1.2 at 3 months, 3.3±1.7 and 3.5±1.7 at 6 months, and 4±1.9 and 3.9±1.8 at 12 months, respectively (p>0.05). The percentages of patients in the Val and Met groups who emerged from the VS were 36.4% and 30% at 3 months, 66.3% and 70% at 6 months, and 70% and 87.5% at 12 months (p>0.05), respectively. These findings provide evidence that the BDNF(Met) polymorphism is not involved in cognitive improvement in patients with a VS following TBI. Future studies should focus on the role of other BDNF polymorphisms in the recovery from a VS.

Patients in a vegetative state following traumatic brain injury display a reduced intracortical modulation.

OBJECTIVE: Patients in coma who fail to wake develop a condition known as a vegetative state (VS). While we know that some cortical activities exist in patients in VS, it remains unclear whether interneuronal modulation can be abnormal in the cerebral cortex of these patients. The aim of the study was to evaluate the inhibitory and excitatory interneuronal circuits in patients in VS following a traumatic brain injury. METHODS: Cortical excitability was studied in 5 VS patients and in 10 healthy subjects using paired pulses transcranial magnetic stimulation (TMS). Resting motor threshold and intracortical inhibition and facilitation at short intervals (2 and 10 ms, respectively) were evaluated. Two patients were studied again after their level of consciousness transitioned into a minimally conscious state (MCS). RESULTS: Both intracortical inhibition and facilitation were significantly reduced in patients compared to healthy subjects (p<0.05). In addition, these results did not significantly change in the 2 patients who evolved into a MCS. CONCLUSIONS: This is the first report showing an abnormal cortical excitability in patients in VS. SIGNIFICANCE: Our findings suggest a pathophysiological base for future work aiming to restore the lack of interneuronal transmission in patients in VS.

Neuromuscular involvement in vegetative and minimally conscious states following acute brain injury.

The aim of this study was to evaluate the presence of neuromuscular involvement in patients in vegetative and minimally conscious states (VS, MCS) following acute brain injury. Twenty-two patients (11 in VS, 11 in MCS) admitted to a rehabilitation department underwent nerve conduction, electromyography (EMG) for spontaneous activity and direct muscle stimulation (DMS). Twenty (90.9%) showed abnormal nerve conduction studies, 19 (86.4%) had spontaneous EMG activity, and 7 (31.8%) had abnormal DMS. The time spent in the intensive care unit correlated significantly with the amplitude of the compound muscle action potential of the ulnar nerve and with the amplitude of the sensory nerve action potential of the sural nerve (p < 0.05). No significant differences were found between patients in VS and MCS. Neurophysiological data indicative of neuromuscular involvement are common in patients in VS and MCS. This study underlines the need to implement strategies to prevent and to treat neuromuscular complications in patients in VS and MCS.

Usefulness of standard EEG in predicting the outcome of patients with disorders of consciousness after anoxic coma.

Although standard EEG is performed routinely in patients with disorders of consciousness after coma, its prognostic value is still debated. The aim of the present study was to evaluate the role of standard EEG in predicting the recovery of cognitive functioning in patients affected by severe disturbances of consciousness after coma caused by cerebral anoxia. A standard EEG was recorded at admission to our Rehabilitation Department in 15 patients experiencing impaired consciousness because of cerebral anoxia. We quantified EEG abnormalities using the Synek scale (1988). Cognitive functioning was measured with the levels of cognitive functioning scale at the time of admission and after 3 months of recovery. EEG scores were significantly correlated with both levels of cognitive functioning scores at admission (P = 0.004) and change in levels of cognitive functioning score after 3 months (P < 0.001). The first correlation confirms the relationship between EEG and cognitive functioning, while the second correlation indicates the prognostic value of EEG in cognitive outcome. In conclusion, standard EEG is a simple and readily available tool with significant prognostic value in patients with disorders of consciousness after coma caused by cerebral anoxia.

Motor cortex abnormalities in amyotrophic lateral sclerosis with transcranial direct-current stimulation.

The aim of this study was to identify a neurophysiological marker of upper motoneuron involvement in patients with sporadic amyotrophic lateral sclerosis (ALS). For this purpose we evaluated the after-effects of transcranial direct-current stimulation (tDCS) on excitability of the motor cortex of eight ALS patients and eight healthy controls. Healthy controls showed a transient polarity-specific change in corticospinal excitability of about +/-45%, with anodal tDCS inducing facilitation and cathodal tDCS leading to inhibition, whereas no change could be induced in ALS patients after either type of tDCS. It is likely that the lack of tDCS after-effects in ALS is the result of alterations of the motoneuronal membrane or, alternatively, may represent an electrophysiological correlate of disordered glutamate neurotransmission. Further studies are warranted to confirm these results. The present findings may lead to a new, reliable electrophysiological marker of upper motoneuronal involvement in ALS.

Rapid-rate paired associative stimulation of the median nerve and motor cortex can produce long-lasting changes in motor cortical excitability in humans.

Repetitive transcranial magnetic stimulation (rTMS) or repetitive electrical peripheral nerve stimulation (rENS) can induce changes in the excitability of the human motor cortex (M1) that is often short-lasting and variable, and occurs only after prolonged periods of stimulation. In 10 healthy volunteers, we used a new repetitive paired associative stimulation (rPAS) protocol to facilitate and prolong the effects of rENS and rTMS on cortical excitability. Sub-motor threshold 5 Hz rENS of the right median nerve was synchronized with submotor threshold 5 Hz rTMS of the left M1 at a constant interval for 2 min. The interstimulus interval (ISI) between the peripheral stimulus and the transcranial stimulation was set at 10 ms (5 Hz rPAS10ms) or 25 ms (5 Hz rPAS25ms). TMS was given over the hot spot of the right abductor pollicis brevis (APB) muscle. Before and after rPAS, we measured the amplitude of the unconditioned motor evoked potential (MEP), intracortical inhibition (ICI) and facilitation (ICF), short- and long-latency afferent inhibition (SAI and LAI) in the conditioned M1. The 5 Hz rPAS25ms protocol but not the 5 Hz rPAS10ms protocol caused a somatotopically specific increase in mean MEP amplitudes in the relaxed APB muscle. The 5 Hz rPAS25ms protocol also led to a loss of SAI, but there was no correlation between individual changes in SAI and corticospinal excitability. These after-effects were still present 6 h after 5 Hz rPAS25ms. There was no consistent effect on ICI, ICF and LAI. The 5 Hz rENS and 5 Hz rTMS protocols failed to induce any change in corticospinal excitability when given alone. These findings show that 2 min of 5 Hz rPAS25ms produce a long-lasting and somatotopically specific increase in corticospinal excitability, presumably by sensorimotor disinhibition.

Enhanced long-term potentiation-like plasticity of the trigeminal blink reflex circuit in blepharospasm.

Benign essential blepharospasm (BEB) is a focal cranial dystonia affecting eye closure. Here, we tested the hypothesis that BEB is associated with abnormal plasticity of the neuronal circuits mediating reflex blinks. In patients with BEB and healthy age-matched controls, we used the conditioning protocol introduced by Mao and Evinger (2001) to induce long-term potentiation (LTP)-like plasticity in trigeminal wide dynamic range neurons of the blink reflex circuit. High-frequency trains of electrical stimuli were repeatedly given over the right supraorbital nerve (SO) and timed to coincide with the R2 response elicited by a preceding SO stimulus. High-frequency stimulation (HFS) resulted in a long-lasting and input-specific potentiation of the R2 response in both groups, yet the facilitation of the R2 response was markedly increased in patients relative to controls. Botulinum toxin (BTX) injections in both orbicularis oculi muscles normalized the previously enhanced LTP-like plasticity of the R2 response. The increased responsiveness to HFS provides first-time evidence that LTP-like plasticity is increased in the trigeminal reflex circuit of patients affected by BEB. The results also show that the enhanced modifiability is not fixed in BEB, because BTX injections can transiently restore normal LTP-like plasticity. We propose that an abnormal corneal input induced by excessive blinking exacerbates increased LTP-like plasticity in BEB. BTX treatment removes the latter and restores plasticity toward normal values. Our results support the concept that maladaptive reorganization contributes to the pathophysiology of focal dystonias.