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Sensory Conduction Velocities (sensory + conduction_velocity)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

Reduced Nerve Blood Flow In Diabetic Rats Is A Reflection Of Hindlimb Muscle Wasting

JOURNAL OF THE PERIPHERAL NERVOUS SYSTEM, Issue 3 2000
Dr Tomlinson
We examined the influence of muscle wasting, as a result of streptozotocin-induced diabetes, on sciatic nerve laser Doppler flux (SNLDF), as an index of nerve blood flow, and conduction velocity (NCV). We compared dietary-restricted weight-reduced non-diabetic rats with controls and with diabetic rats and we studied the effects of clenbuterol, an anabolic ,-adrenoceptor agonist, in control and diabetic rats. Dietary restriction reduced the weights of hindlimb muscles,extensor digitorum longus, soleus and gastrocnemius,half as much as did streptozotocin-diabetes and clenbuterol increased muscle weights in control and diabetic rats. This gave a hierarchy of muscle weights in the order,clenbuterol-controls, untreated controls, weight-reduced non-diabetics, clenbuterol-diabetics and untreated diabetics. Diabetes without treatment reduced SNLDF by 51% (p < 0.01); dietary restriction by 25% (p < 0.01) and there were proportional increases associated with clenbuterol treatment. Combined muscle weights regressed closely with SNLDF (r2=0.69; p < 0.001) and, when the latter was expressed relative to muscle weights, a similar value was obtained for all five groups,there were no significant differences. Thus, sciatic nerve blood flow is closely related to hindlimb muscle weight and the effect of diabetes on nerve blood flow may be secondary to muscle wasting. Sciatic/tibialis motor and sensory conduction velocities were also reduced by muscle wasting in the dietary restricted group of non-diabetic rats, but, unlike nerve Doppler flux, it was unaffected by clenbuterol. [source]

Polyneuropathy associated with IgM vs IgG monoclonal gammopathy: comparison between clinical and electrophysiological findings

ACTA NEUROLOGICA SCANDINAVICA, Issue 1 2010
M. Vrethem
Vrethem M, Reiser N, Lauermann C, Svanborg E. Polyneuropathy associated with IgM vs IgG monoclonal gammopathy: comparison between clinical and electrophysiological findings. Acta Neurol Scand: 2010: 122: 52,57. © 2009 The Authors Journal compilation © 2009 Blackwell Munksgaard. Objective,,, The neuropathy associated with IgM monoclonal gammopathy (IgM-MG) is regarded as a sensorimotor, mainly demyelinating neuropathy. It is not fully known whether the neuropathy in IgG-MG is caused by the same mechanisms and shows the same electrophysiological characteristics. We aimed at making a comparison between clinical and neurophysiological findings in these two conditions. Patients and methods,,, Twenty-seven patients with IgM-associated neuropathy [18 with anti-myelin-associated glycoprotein (anti-MAG) antibodies] were compared with 15 age-matched patients with IgG-associated neuropathy. Results,,, Patients with IgM-associated neuropathy (especially those with anti-MAG antibodies) had significantly clinically more severe disabilities with involvement of both motor and sensory functions compared with patients with IgG-associated neuropathy in whom clinical sensory disturbances were more prominent than motor dysfunction. Motor and sensory conduction velocities were significantly lower and distal latencies significantly longer in the IgM group than in the IgG group concerning the median, ulnar and peroneal nerves. Fifty-four per cent of the patients in the IgM group did not present a sensory response of the median nerve vs 13% in the IgG group. There was also a significant difference concerning absent responses from the peroneal and sural nerves in the IgM vs IgG group (peroneal: 48% vs 13%, sural: 88% vs 27%). Conclusion,,, Polyneuropathy associated with IgM-MG, especially when associated with anti-MAG antibodies, appears to have more of a demyelinating involvement that meets the criteria for demyelination. This was not as clear in those associated with IgG. The IgG neuropathy showed less and milder deficit in the electrophysiological studies. [source]

CMT1A Associated With The 17p11.2 Duplication: Differential Features And Correlation

JOURNAL OF THE PERIPHERAL NERVOUS SYSTEM, Issue 1 2001
D Pareyson
A duplication on chromosome 17p11.2 encompassing the gene coding for the peripheral myelin protein-22 (PMP22) is the most common genetic abnormality underlying Charcot-Marie-Tooth disease (CMT). We report clinical and electrophysiologic features of our series of CMT1A patients harboring the duplication. There were 92 patients from 53 families representing 42% of all CMT index cases (n = 125) and 64% of CMT1 probands (n = 83). In CMT1A patients, mean age at onset was 9.7 ± 11.4 and was significantly lower than in non-duplicated CMT1 cases (12.6 ± 9.7, p < 0.01) and CMT2 cases (21.5 ± 17, p < 0.001). Clinical severity was similar to that of CMT2 patients, but significantly milder than in non-duplicated CMT1 cases. Pes cavus, upper limb involvement, deep tendon reflexes abnormalities, and sensory loss were more frequent compared to CMT2. Electrophysiologic examination revealed motor and sensory conduction velocity (MCV, SCV) slowing below 32 m/s in upper limbs. MCV and SCV were significantly lower than in non-duplicated CMT1 patients. Amplitudes of upper limb compound muscle action potentials (CMAPs) and of upper and lower limb sensory action potentials (SAPs) were significantly lower than in CMT2, paralleling clinical differences. Clinical severity correlated with CMAP amplitudes and with disease duration. On the other hand, MCV slowing was not correlated with either severity or duration of the disease. We found a direct correlation between age at onset and upper limb MCV slowing. Conclusions: CMT1A is an early-onset but slowly progressive disorder, on average milder than other CMT1. Axonal loss rather than demyelination per se underlies disease progression. [source]

Medial dorsal superficial peroneal nerve studies in patients with polyneuropathy and normal sural responses

MUSCLE AND NERVE, Issue 3 2005
Mark Kushnir MD
Abstract We studied medial dorsal superficial peroneal (MDSP) nerves in 52 patients with clinical evidence of mild chronic sensorimotor polyneuropathy and normal sural nerve responses, in order to assess the diagnostic sensitivity and usefulness of MDSP nerve testing in electrodiagnostic practice. To determine the effect of age on MDSP nerve parameters, 98 normal subjects were also examined. Electrodiagnostic evaluation involved studies of motor nerve conduction in tibial, peroneal, and median nerves; sensory nerve conduction in sural, MDSP, median, and radial nerves; tibial and peroneal nerve F waves; H reflexes from the soleus muscles; and needle electromyography of gastrocnemius and abductor hallucis muscles. Among the patients, 49% had low-amplitude sensory responses in MDSP nerves and 57% had either slowing of sensory conduction velocity or no sensory responses on proximal stimulation. MDSP nerve amplitude, tibial nerve motor velocity, and H reflexes were the most sensitive for detection of mild chronic symmetrical axonal sensorimotor polyneuropathy. MDSP nerve testing should be included in the routine electrodiagnostic evaluation of patients with suspected polyneuropathy and normal sural nerve responses. Muscle Nerve, 2005 [source]