C. Messina

Activation of nuclear factor-κB in inflammatory myopathies and Duchenne muscular dystrophy

Objective: To investigate the immunolocalization and activation of nuclear factor-κB (NF-κB) in polymyositis, dermatomyositis, and Duchenne muscular dystrophy (DMD). Background: NF-κB is a major transcription factor modulating the cellular immune, inflammatory, and proliferative responses. In skeletal muscle it was demonstrated to play a role in the expression of inducible genes in response to oxidative stress and ischemia/reperfusion injury, and also in myonuclear apoptosis and muscle catabolism. Some data suggest that NF-κB may play a role in the pathogenesis of inclusion body myositis. Methods: Muscle samples from five patients each with polymyositis, dermatomyositis, and DMD and 10 normal controls were studied by immunocytochemistry and Western blot of nuclear extracts for the activated form of NF-κB. NF-κB DNA binding activity was studied by electrophoretic mobility shift assay (EMSA). Results: Immunoreactivity for NF-κB was found in the cytoplasm of all regenerating fibers and in 20 to 40% of necrotic fibers. Western blot analysis of nuclear extracts showed a single band corresponding to 65 kd in all patients. EMSA analysis confirmed activation of NF-κB pathway in inflammatory myopathies and, to a lesser extent, also in DMD. Conclusions: These data indicate that nuclear factor-κB pathway is activated in polymyositis, dermatomyositis, and Duchenne muscular dystrophy. It may play a role in modulating the immune response and in regulating myogenesis and muscle repair.

Brain atrophy and lesion load in a large population of patients with multiple sclerosis

Objective: To measure white matter (WM) and gray matter (GM) atrophy and lesion load in a large population of patients with multiple sclerosis (MS) using a fully automated, operator-independent, multiparametric segmentation method. Methods: The study population consisted of 597 patients with MS and 104 control subjects. The MRI parameters were abnormal WM fraction (AWM-f), global WM-f (gWM-f), and GM fraction (GM-f). Results: Significant differences between patients with MS and control subjects included higher AWM-f and reduced gWM-f and GM-f. MRI data showed significant differences between patients with relapsing-remitting and secondary progressive forms of MS. Significant correlations between MRI parameters and between MRI and clinical data were found. Conclusions: Patients with multiple sclerosis have significant atrophy of both white matter (WM) and gray matter (GM); secondary progressive patients have significantly more atrophy of both WM and GM than do relapsing-remitting patients and a significantly higher lesion load (abnormal WM fraction); lesion load is related to both WM and even more to GM atrophy; lesion load and WM and GM atrophy are significantly related to Expanded Disability Status Scale score and age at onset (suggesting that the younger the age at disease onset, the worse the lesion load and brain atrophy); and GM atrophy is the most significant MRI variable in determining the final disability.

Distinct changes in cortical and spinal excitability following high-frequency repetitive TMS to the human motor cortex

It has been shown that high-frequency repetitive transcranial magnetic stimulation (rTMS) to the human primary motor hand area (M1-HAND) can induce a lasting increase in corticospinal excitability. Here we recorded motor evoked potentials (MEPs) from the right first dorsal interosseus muscle to investigate how sub-threshold high-frequency rTMS to the M1-HAND modulates cortical and spinal excitability. In a first experiment, we gave 1500 stimuli of 5 Hz rTMS. At an intensity of 90% of active motor threshold, rTMS produced no effect on MEP amplitude at rest. Increasing the intensity to 90% of resting motor threshold (RMT), rTMS produced an increase in MEP amplitude. This facilitatory effect gradually built up during the course of rTMS, reaching significance after the administration of 900 stimuli. In a second experiment, MEPs were elicited during tonic contraction using weak anodal electrical or magnetic test stimuli. 1500 (but not 600) conditioning stimuli at 90% of RMT induced a facilitation of MEPs in the contracting FDI muscle. In a third experiment, 600 conditioning stimuli were given at 90% of RMT to the M1-HAND. Using two well-established conditioning-test paradigms, we found a decrease in short-latency intracortical inhibition (SICI), and a facilitation of the first peak of facilitatory I-waves interaction (SICF). There was no correlation between the relative changes in SICI and SICF. These results demonstrate that subthreshold 5 Hz rTMS can induce lasting changes in specific neuronal subpopulations in the human corticospinal motor system, depending on the intensity and duration of rTMS. Short 5 Hz rTMS (600 stimuli) at 90% of RMT can selectively shape the excitability of distinct intracortical circuits, whereas prolonged 5 Hz rTMS (≥900 stimuli) provokes an overall increase in excitability of the corticospinal output system, including spinal motoneurones.

Local steroid treatment in idiopathic carpal tunnel syndrome: short- and long-term efficacy.

A clinical and electrophysiological study evaluated the usefulness of local steroid therapy for carpal tunnel syndrome (CTS). To evaluate the efficacy of local steroid therapy 32 patients (53 nerves) were randomly assigned to one of two groups: one (27 nerves) received 15 mg methylprednisolone acetate injected locally and the other (26 nerves) received the same amount of saline solution. The injections were repeated after a week. Clinical and electrophysiological findings were evaluated, double blind, at regular intervals. A clear-cut efficacy of steroid treatment was found. Only 8% of nerves were not benefitted while a marked early improvement was observed in most of the nerves. In order to appraise the long-term effect of local steroid treatment on CTS, 53 patients (91 nerves) were studied and followed up by means of clinical and electrophysiological examinations performed every 2 months for 2 years. The benefit of steroid treatment was transient. About 50% of the nerves became worse within 6 months and 90% within 18 months. Only a small percentage (8%) of the nerves remained improved at the 2-years follow-up. The clinical features were not useful in foretelling the duration of the improvement, which appeared to be related to the antidromic SAP latency.

Muscle Rearrangement in Patients with Hemiparesis after Stroke: An Electrophysiological and Morphological Study

Skeletal muscle changes were evaluated in patients suffering from hemiparesis after stroke. Concentric needle EMG and single fiber EMG of the paretic gastrocnemius medialis muscle were performed. Maximal amplitude of H, T and M responses in calf muscles of both the affected and the unaffected sides were determined by usual electrophysiological techniques. Muscle biopsy of the lateral gastrocnemius muscle of the affected side was performed to determine the distribution of fiber types and fiber sizes. Fibrillation activity and positive sharp waves occurred in paretic muscles in patients with more recent hemiparesis while the duration of motor unit potentials was prolonged in patients with long-lasting disease. The H/M ratio was increased on the paretic side. The percentage of type 1 fibers was augmented in most patients with normal mean diameter and low atrophy factor. The percentage of type 2 fibers was reduced with decreased mean diameters and with a high atrophy factor. Such changes may be related to inactivity or transsynaptic degeneration of type 2 motoneurons as a consequence of the interruption of the corticospinal tract. Increased percentage of type 1 fibers may be due to a collateral reinnervation process or a motor unit type transformation.

Cardiovascular reflex tests ☆: Assessment of age-adjusted normal range

To assess the relationship between aging and autonomic control of heart rate and blood pressure, cardiovascular reflex tests were performed in 70 healthy volunteers in the age range 25-71 years. R-R interval variation, heart rate change with deep breathing, 30/15 ratio and blood pressure response to standing appeared significantly declining with age. For each test we calculated the P0.99 and P0.01 confidence limits for individual observations. On the other hand, Valsalva ratio and the blood pressure response to sustained handgrip appeared to be unrelated to age. These results suggest that there is an age-dependent degradation of the mechanisms involved in the cardiovascular reflexes. The assessment of age-adjusted normal values improves the criteria for delineating abnormal from normal results in individual testing of autonomic function.

Correlation between fatigue and brain atrophy and lesion load in multiple sclerosis patients independent of disability.

BACKGROUND Fatigue is a major problem in multiple sclerosis (MS), and its association with MRI features is debated. OBJECTIVE To study the correlation between fatigue and lesion load, white matter (WM), and grey matter (GM), in MS patients independent of disability. METHODS We studied 222 relapsing remitting MS patients with low disability (scores <or=2 at the Kurtzke Expanded Disability Status Scale). Lesion load, WM and GM were measured by fully automated, operator-independent, multi-parametric segmentation method. T1 and T2 lesion volume were also measured by a semi-automated method. Fatigue was assessed by the Fatigue Severity Scale (FSS), and patients divided in high-fatigue (FSS>or=5; n=197) and low-fatigue groups (FSS<or=4; n=25). RESULTS High-fatigue patients showed significantly higher abnormal white matter fraction (AWM-f), T1 and T2 lesion loads, and significant lower WM-f, and GM-f. Multivariate analysis showed that high FSS was significantly associated with lower WM-f, and GM-f. Females and highly educated patients were significantly less fatigued. CONCLUSION These results suggest that among MS patients with low disability those with high-fatigue show higher WM and GM atrophy and higher lesion load, and that female sex and higher levels of education may play a protective role towards fatigue. Furthermore, they suggest that in MS, independent of disability, WM and GM atrophy is a risk factor to have fatigue.

Cardiovascular autonomic dysfunction in multiple sclerosis is likely related to brainstem lesions

Impairment of cardiovascular autonomic reflexes has been described in multiple sclerosis (MS), and believed reflecting dysfunction of reflex pathways located within the central nervous system. A battery of cardiovascular autonomic tests were performed in 40 patients with definite MS: R-R interval variation test, deep breathing, Valsalva manoeuvre, blood pressure and heart rate responses to standing, sustained handgrip. The results were evaluated by Bayesian analysis, a pattern recognition technique. The patients had also magnetic resonance imaging (MRI) of brain and in 19 subjects of cervical spinal cord. Deep breathing test and sustained handgrip test produced most frequently abnormal results (17.5% and 40%, respectively). However, only 4 patients (10% had two or more tests abnormal, with a very variable pattern. Evaluation by Bayesian analysis revealed 7 patients (17.5%) with definite autonomic dysfunction. A correlation was found between the confidence level obtained by Bayesian analysis, as index of autonomic function, and the Kurtzke brainstem FS score (r = 0.43, P < 0.01). There was a significant association between presence of autonomic dysfunction and clinical (P < 0.02) and MRI (P < 0.005) evidence of brainstem lesions.

Corticospinal Excitability During Motor Imagery of a Simple Tonic Finger Movement in Patients With Writer's Cramp

Motor imagery (MI) is the mental rehearsal of a motor act without overt movement. Using transcranial magnetic stimulation (TMS), we tested the effect of MI on corticospinal excitability in patients with writers cramp. In 10 patients with writers cramp and 10 healthy controls, we applied focal TMS over each primary motor area and recorded motor evoked potentials (MEPs) from contralateral hand and arm muscles while participants imagined a tonic abduction of the index finger contralateral to the stimulated hemisphere. In healthy controls and patients, the MEP amplitude in the relaxed first dorsal interosseus muscle (FDI) showed a muscle‐specific increase during MI; however, the increase was less pronounced in patients than in healthy controls. In addition, in patients but not in controls, the MEP amplitude also increased in hand and forearm muscles not involved in the imagined movement. This abnormal spread of facilitation was observed in the affected and unaffected upper limb. MI of simple hand movements is less efficient and less focussed in patients with writers cramp than it is in normal subjects.

Limb-girdle myasthenia: clinical, electrophysiological and morphological features in familial and autoimmune cases

Limb-girdle myasthenia is an uncommon disease and includes familial and autoimmune forms. Patients present proximal muscle weakness and wasting, and sometimes fatigability, without cranial nerve involvement and fluctuations. We observed, during a 15-year period, nine subjects with limb-girdle myasthenia, (24-55 years; 8 males, 1 female) who constituted 3.2% of 281 myasthenic patients attending our department. All had previously received a diagnosis different from myasthenia. Diagnosis of limb-girdle myasthenia was established by clinical, muscle biopsy and electrophysiological assessment including repetitive nerve stimulation and single fiber electromyography. Five patients had the familial form with tubular aggregates in skeletal muscle; four patients had the autoimmune form. Patients with the familial form had a good response to acetylcholinesterase inhibitors, and the patients with the autoimmune form responded to immunotherapy. Our findings reinforce the opportunity to suspect limb-girdle myasthenia in unclassifiable proximal myopathies and to differentiate familial from autoimmune cases, especially for therapeutic implications.