Sagiri Isose

Ultrasonographic detection of fasciculations markedly increases diagnostic sensitivity of ALS.

Objectives: To study the utility of muscle ultrasound (US) for detection of fasciculations and its contribution to diagnosis in amyotrophic lateral sclerosis (ALS). Fasciculations are characteristic features of ALS, and US can detect them easily and reliably. New diagnostic criteria for ALS, the Awaji algorithm, reintroduced fasciculations as evidence of acute denervation equivalent to that of fibrillations and positive sharp waves. Methods: In 81 consecutive patients with sporadic ALS, we prospectively performed needle EMG and US in 6 muscles (tongue, biceps brachii, first dorsalis interosseous, paraspinalis, vastus lateralis, and tibialis anterior), and diagnostic category were determined by revised El Escorial criteria and Awaji criteria. Results: Fasciculations were much more frequently detected by US than by EMG in the tongue (60% vs 0%), biceps brachii (88% vs 60%), and tibialis anterior muscles (83% vs 45%). The proportion of the patients with definite or probable ALS was 48% by revised El Escorial criteria and 79% by Awaji criteria using US. Conclusions: Muscle US is a practical and efficient tool to detect fasciculations, particularly in the tongue. A combination of US and EMG substantially increases the diagnostic sensitivity of ALS.

Motor axonal excitability properties are strong predictors for survival in amyotrophic lateral sclerosis

Objective The aim of this study was to investigate whether axonal excitability indices are associated with survival in patients with amyotrophic lateral sclerosis (ALS). Previous nerve excitability studies suggested increased persistent sodium currents in motor axons of patients with ALS, which lead to axonal hyperexcitability and potentially enhance neuronal death. Methods 112 patients with sporadic ALS were followed up until endpoint (death or tracheostomy). Multivariate analyses were performed using the Cox proportional hazard model. Threshold tracking was used to measure multiple axonal excitability indices in median motor axons, such as strength–duration time constant (SDTC; a measure of nodal persistent sodium current). Latent addition was also used to estimate the magnitude of persistent sodium currents. Results The overall median tracheostomy-free survival from onset was 37 months. Prolonged SDTC was strongly associated with shorter survival (adjusted HR 4.07; 95% CI 1.7 to 9.8; p=0.0018) compared with older onset age (>60 years; HR=1.80) and bulbar onset (HR=1.80). Estimated median survival was 34 months in the longer SDTC group and 51 months in the shorter SDTC group. This index was highly statistically significant even after multiple testing adjustments with age and site of onset (bulbar or limb). Latent addition study results were consistent with these findings. Conclusions Axonal persistent sodium currents, estimated by SDTC and latent addition, are strong and independent predictors for shorter survival in patients with ALS. Membrane hyperexcitability is possibly associated with motor neuronal death, and modulation of excessive sodium currents could be a novel therapeutic option for ALS.

Elevated CSF TDP-43 levels in amyotrophic lateral sclerosis: Specificity, sensitivity, and a possible prognostic value

Abstract TAR DNA binding protein of 43 kDa (TDP-43) is likely to be the major pathogenetic protein in amyotrophic lateral sclerosis (ALS). A previous study has shown that levels of TDP-43 in CSF measured by an ELISA are significantly higher for ALS patients than for controls. The aim of this study was to investigate whether elevated CSF TDP-43 levels are specific to ALS, and are associated with clinical profiles in ALS patients. We measured CSF TDP-43 levels by the same ELISA in 27 ALS patients and 50 neurodegenerative or inflammatory disease controls such as Parkinsons disease, multiple sclerosis, and Guillain-Barré syndrome. Results showed that the CSF TDP-43 levels were increased only in ALS patients. Receiver operating characteristic (ROC) analyses showed a sensitivity of 59.3% and a specificity of 96.0%. We also found that lower CSF TDP-43 levels may be associated with shorter survival time. In conclusion, the CSF TDP-43 is a potential biomarker that supports a diagnosis of ALS. Moreover, among ALS patients, lower levels of CSF TDP-43 may reflect the accumulation of TDP-43 in the cortical and spinal motor neurons and thereby shorter survival time, although this should be confirmed in larger prospective studies.

Markedly upregulated serum interleukin-12 as a novel biomarker in POEMS syndrome.

Objective: To systematically study abnormalities in cytokine profiles in polyneuropathy, organomegaly, endocrinopathy, M-protein, and skin changes (POEMS) syndrome, which has been increasingly recognized as a cause of demyelinating neuropathy associated with plasma cell dyscrasia and elevated serum level of vascular endothelial growth factor (VEGF). Methods: In this case-control study, we measured serum levels of 27 cytokines in patients with POEMS syndrome using a multiplex suspension array system, and compared them with those of controls. In 10 patients, serial changes after treatment were analyzed. Results: Interleukin (IL)–12 as well as VEGF levels were markedly increased (p < 0.0001) in all the patients (n = 23). Ten kinds of other proinflammatory cytokines such as IL-6 and tumor necrosis factor–α were also significantly increased in the POEMS syndrome group, but in some patients the serum levels of such cytokines remained within the normal ranges. After treatments, the IL-12 as well as VEGF levels significantly decreased with clinical improvements (p > 0.01 and p > 0.05, respectively). Conclusions: Our findings suggest that serum IL-12 is a biomarker of the disease activity in POEMS syndrome. The overproduction of IL-12, as well as VEGF, is likely to play an important role in the pathogenesis of the disorder, and could contribute to the peripheral nerve demyelination in POEMS syndrome.

Utility of the distal compound muscle action potential duration for diagnosis of demyelinating neuropathies

To assess the significance of distal compound muscle action potential (CMAP) duration for diagnosis of demyelinating neuropathies, electrophysiologic data were reviewed from 471 subjects, including 145 normal controls, 60 patients with chronic inflammatory demyelinating polyneuropathy (CIDP), 205 with other neuropathy, and 61 with amyotrophic lateral sclerosis (ALS). The duration of distally evoked CMAP was measured in the median, ulnar, tibial, and peroneal nerves. Optimal cut‐off values were calculated with receiver‐operating characteristic (ROC) curves. In comparison of normal controls and CIDP patients, ROC analyses showed the sufficient area under the curves (82‐93%). When the cut‐off values in the detection of demyelination were determined as the point with 98% specificity vs. normal on the ROC curves (median, 6.6 ms; ulnar, 6.7 ms; peroneal, 7.6 ms; tibial, 8.8 ms), the sensitivity was 77% for CIDP, with a specificity of 90% vs. ALS and 95% vs. diabetic neuropathy. The distal CMAP duration is a useful index for the detection of distal demyelination. We suggest the above cut‐off values for each nerve as one of the electrodiagnostic criteria for demyelinating neuropathies, preferentially affecting the distal nerve terminals, such as CIDP.

Awaji ALS criteria increase the diagnostic sensitivity in patients with bulbar onset

OBJECTIVE To assess whether Awaji criteria improve the sensitivity of diagnosis for amyotrophic lateral sclerosis (ALS). In Awaji ALS criteria, fasciculation potentials are regarded as evidence of acute denervation in the presence of chronic neurogenic changes on needle electromyography. METHODS We reviewed clinical and neurophysiological data of 113 consecutive patients who were suspected as suffering ALS. The six muscles (trapezius, biceps, first dorsal interosseous, T10-paraspinalis, vastus lateralis, and tibialis anterior muscles) were examined by EMG, focusing on the presence of fasciculation potentials. The sensitivity of revised El Escorial (R-EEC) and Awaji criteria was compared. RESULTS Probable or definite ALS was diagnosed in 61% of the patients by R-EEC and 71% by Awaji criteria. By applying Awaji criteria; (1) 17 of the 44 patients categorized as possible ALS by R-EEC reached to probable/definite ALS, 11 of whom had bulbar onset, (2) in 48 patients with bulbar onset, the proportion of probable/definite ALS increased from 59% to 82%, (3) in 62 patients with limb onset, the proportion of probable/definite ALS was 61% (63% by R-EEC). CONCLUSIONS Awaji criteria improve the sensitivity of ALS diagnosis in patients with bulbar onset, but not in those with limb onset. SIGNIFICANCE Accepting fasciculation potentials as evidence of acute denervation increases the diagnostic sensitivity of ALS, particularly in patients with bulbar onset, and contributes to early diagnosis.

Differences in excitability properties of FDI and ADM motor axons.

The first dorsal interosseous (FDI) and abductor digiti minimi (ADM) muscles are innervated by the same ulnar nerve, but studies have shown that the former is much more severely affected in amyotrophic lateral sclerosis. In this study, threshold tracking was used to investigate whether membrane properties differ between FDI and ADM motor axons. In 12 normal subjects, compound muscle action potentials were recorded from FDI and ADM after ulnar nerve stimulation at the wrist. The strength–duration time constant was significantly longer in the FDI axons than in the ADM axons, and latent addition studies showed greater threshold changes at the conditioning–test stimulus of 0.2 ms in FDI than in ADM axons. These findings suggest that nodal persistent sodium conductances are more prominent in FDI axons than in ADM axons, and therefore excitability is physiologically higher in FDI axons. Even in the same nerve at the same sites, membrane properties of FDI and ADM motor axons differ significantly, and thus their axonal/neuronal responses to disease may also differ. Muscle Nerve 39: 350–354, 2009

The effects of age, gender, and body mass index on amplitude of sensory nerve action potentials: Multivariate analyses

OBJECTIVE Previous studies have shown that age, gender, and body mass index (BMI) affect amplitude of sensory nerve action potentials (SNAP), but the total effects of multiple factors or the most prominently affected nerves have not been elucidated. This study systematically investigated effects of these factors. METHODS Amplitude of SNAP of the median, ulnar, superficial radial, superficial peroneal, and sural nerves was measured in 105 healthy subjects. The effects of age, gender, and BMI on each nerve were estimated by multivariate linear regression analysis. RESULTS SNAP amplitude decreased with age in all five nerves. Women had greater SNAP amplitude than men in the upper limb nerves (median, ulnar, and radial), but not in the lower limb nerves (peroneal and sural). Similarly, greater BMI was associated with smaller amplitudes in the upper limb nerves, but not in the lower limb nerves. Multivariate analyses showed the three factors explained 50% of the variation in the median nerve, 46% in the ulnar nerve, and 22-32% in the remaining nerves. CONCLUSIONS The effects of age, gender, and BMI on SNAP amplitudes are not identical in different sensory nerves. Age was strongly correlated with SNAP amplitude in the nerves tested, whereas gender and BMI affect amplitudes only in the upper limb nerves. SIGNIFICANCE Age, gender, and BMI should be taken into account in clinical practice, but the extent of influence depends on the sensory nerves examined.

Markedly reduced axonal potassium channel expression in human sporadic amyotrophic lateral sclerosis: An immunohistochemical study

Fasciculations are characteristic features of amyotrophic lateral sclerosis (ALS), suggesting abnormally increased excitability of motor axons. Previous nerve excitability studies have shown reduced axonal potassium currents in ALS patients that may contribute to the hyperexcitability and thereby generation of fasciculations. To clarify changes in axonal ion channel expression in motor axons of ALS, we performed immunohistochemistry of potassium and sodium channels in the C7 and L5 ventral/dorsal roots obtained from five autopsy cases of sporadic ALS. Compared to controls, the immunoreactivity of potassium channels (Kv1.2) was markedly reduced in the ventral roots, but normal in the dorsal roots of all the ALS patients. Nodal sodium channel expression was not significantly different in ALS patients and control subjects. Our results show prominently reduced expression of axonal potassium channels, and provide the neuropathological and biological basis for decreased accommodative potassium currents in motor axons of ALS patients. The axonal hyperexcitability would lead to generation of fasciculations, and possibly enhances motor neuron death in ALS.

Neuropathic pain is associated with increased nodal persistent Na+ currents in human diabetic neuropathy

Abstract Peripheral nerve injury alters function and expression of voltage gated Na+ channels on the axolemma, leading to ectopic firing and neuropathic pain/paresthesia. Hyperglycemia also affects nodal Na+ currents, presumably due to activation of polyol pathway and impaired Na+–K+ pump. We investigated changes in nodal Na+ currents in peripheral sensory axons and their relation with pain in human diabetic neuropathy. Latent addition using computerized threshold tracking was used to estimate nodal persistent Na+ currents in radial sensory axons of 81 diabetic patients. Of these, 36 (44%) had chronic neuropathic pain and severe paresthesia. Compared to patients without pain, those with pain had greater nodal Na+ currents (p = 0.001), smaller amplitudes of sensory nerve action potentials (SNAP) (p = 0.0003), and lower hemoglobin A1c levels (p = 0.006). Higher axonal Na+ conductance was associated with smaller SNAP amplitudes (p = 0.03) and lower hemoglobin A1c levels (p = 0.008). These results suggest that development of neuropathic pain depends on axonal hyperexcitability due to increased nodal Na+ currents associated with structural changes, but the currents could also be affected by the state of glycemic control. Our findings support the view that altered Na+ channels could be responsible for neuropathic pain/paresthesia in diabetic neuropathy.