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1.
The responses of certain muscles to stimulation at different frequencies has been studied in normal dogs. Repetitive stimulation at 10 and 20 Hz resulted in a smooth, progressive decremental response when the compound muscle action potential (CMAP) was recorded from the plantar, and to a lesser extent the palmar, interosseous muscles. In contrast, there was a slight incremental response when the CMAP was recorded from the cranial tibial muscle. Studies using a competitive neuromuscular blocking agent have suggested that the plantar interosseous muscles have a greater proportion of low efficacy synapses in comparison with the other muscles studied. The cranial tibial muscle may therefore be more suitable for assessing neuromuscular transmission than the distal limb muscles. 相似文献
2.
L R Whalen T L Spurgeon R E Carsten D H Gould 《American journal of veterinary research》1986,47(5):1063-1070
The maximal conduction velocities of compound-action potentials in the proximal and distal parts of the saphenous nerve were determined by averaging potentials evoked and recorded through needle electrodes. Antidromic, triphasic compound-action potentials unipolarly recorded from the distal part of the saphenous nerve were of the same minimal latency as potentials having 4 phases which were recorded bipolarly from the same site. However, the unipolarly recorded potentials were of greater amplitude. Monophasic compound-action potentials were recorded through bipolar chlorided silver electrodes from the surface of fascicles of the distal part of the saphenous nerve. The maximal conduction velocity of these potentials was in agreement with the conduction velocity of compound-action potentials of the distal part of the saphenous nerve which were evoked and recorded through subcutaneous needle electrodes. The specificities of the stimulating and recording sites were verified by recording before and after the saphenous nerve was cut between the stimulating and recording sites. Mean conduction velocities were 62.3 +/- 2.0 m/s for the distal part of the saphenous nerve and 66.3 +/- 2.2 m/s for the proximal part of the saphenous nerve. Reflex-evoked muscle activity was elicited in the ipsilateral tensor muscle of the fascia lata and semimembranous muscle after electrical stimulation of the saphenous nerve through subcutaneous needle electrodes. The effects of various stimulus intensities on the latency and duration of these reflex-evoked muscle potentials were determined. 相似文献
3.
Stella Papageorgiou Konstantinos Krikonis Jean-François Quinton Kirsten Gnirs 《Journal of Exotic Pet Medicine》2018,27(4):38-47
Ferrets are considered a popular small mammal pet, and like other companion animals they are reported to suffer from diseases affecting the neuromuscular system. There currently is a lack of comprehensive electrodiagnostic study regarding the appendicular nerves of ferrets. In this research investigation, 25 domestic ferrets were used for electromyography and motor nerve conduction studies of the tibial, fibular, ulnar, and radial nerves, including H reflexes of the tibial and ulnar nerves, as well as sensory conduction of the fibular nerve. Mean and standard deviations for motor and sensory nerve studies were established. The hypothesis that weight would be correlated with all distal and proximal compound muscle action potential latencies was tested and confirmed for the tibial, fibular, and radial nerves but not the ulnar nerve. 相似文献
4.
The bulbospongiosus reflex, genitoanal reflex, and nerve conduction velocity of the dorsal nerve of the penis were evaluated in cats. Seven adult sexually intact or castrated male mixed-breed cats underwent surgical isolation of the bulbospongiosus (analagous to bulbocavernosus) branch, anal branch, and distal trunk of the pudendal nerve. The bulbospongiosus and genitoanal reflexes were recorded from the bulbospongiosus and anal branches, respectively, by electrical stimulation, in turn, of the distal pudendal trunk and the penis itself. Nerve conduction velocity of the dorsal nerve of the penis was calculated by measuring response latency differences in the anal branch after stimulation of 2 sites on the extruded penis. The bulbospongiosus reflex had response latencies of 8.1 to 10.3 ms (distal trunk stimulation) and 11.0 to 13.0 ms (penile stimulation). The genitoanal reflex had latencies of 8.1 to 10.5 ms (distal trunk stimulation) and 11.2 to 13.2 ms (penile stimulation). Response amplitudes diminished at stimulus rates of 5 to 10 Hz; responses were abolished at rates of 12 to 15 Hz, suggesting that the reflexes are polysynaptic. There was no significant difference between latency values for the bulbospongiosus and genitoanal reflexes. Mean +/- SD nerve conduction velocity in the dorsal nerve of the penis was calculated to be 3.8 +/- 0.34 m/s, which was considerably slower than that found in human beings. This may represent technical difficulties in performing the test in cats, but could also indicate a difference between cats and human beings in the predominant population of cutaneous sensory fiber types of the penis. 相似文献
5.
Normal values for motor conduction in the tibial, ulnar and fibular nerves of dogs have been determined using a new method for recording and analysing evoked motor potentials. The use of an alligator clip as a roving surface electrode for recording, and a personal computer to analyse the evoked potentials has facilitated faster and more reproducible motor conduction studies. Compound muscle action potential (CMAP) and motor nerve conduction velocity data are in good agreement with previous studies. Normal values for CMAP area, residual latency and proximal to distal ratios for CMAP area and amplitude are presented for the first time. 相似文献
6.
Anor S Espadaler JM Monreal L Pumarola M 《American journal of veterinary research》1999,60(10):1287-1291
OBJECTIVE: To reassess reference values for the components of the electrically induced blink reflex, document reference values for facial motor nerve conduction velocity, and demonstrate usefulness of the blink reflex as a diagnostic tool in peripheral facial and trigeminal nerve dysfunction in horses. ANIMALS: 10 healthy adult horses (8 males, 2 females) without neurologic abnormalities. PROCEDURE: Blink reflex tests were performed by electrical stimulation of the supraorbital nerve and facial (auriculopalpebral) nerve. Reflex and direct muscle-evoked potentials of the orbicularis oculi muscles were recorded from concentric needle electrodes inserted bilaterally in these muscles. Supraorbital and auriculopalpebral nerve blocks were performed by lidocaine hydrochloride injections. RESULTS: Supraorbital nerve stimulation elicited 2 or 3 ipsilateral and 1 contralateral reflex muscle potential in the orbicularis oculi muscles. Auriculopalpebral nerve stimulation elicited a direct and a reflex potential in the ipsilateral orbicularis oculi muscle. After left supraorbital nerve block, no responses could be elicited ipsilaterally or contralaterally upon stimulation of the blocked nerve, but bilateral responses were obtained upon stimulation of the right supraorbital nerve. After right auriculopalpebral nerve block, no responses were recorded from the right orbicularis oculi muscle upon stimulation of left or right supraorbital nerves. CONCLUSIONS AND CLINICAL RELEVANCE: Reference values for the components of the blink reflex and facial motor nerve conduction velocity will allow application of these tests to assist in the diagnosis of equine neurologic disorders involving the trigeminal and facial nerves, the brainstem, and the cranial end of the cervical segment of the spinal cord. This study reveals the usefulness of the blink reflex test in the diagnosis of peripheral trigeminal and facial nerve dysfunction in horses. 相似文献
7.
Stephen M. Hanson Mary O. Smith Tom L. Walker G. Diane Shelton 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》1998,12(2):103-108
Two juvenile Rottweiler siblings were presented with the complaint of decreased activity and various postural abnormalities, including plantigrade and palmigrade stance and splayed forepaw digits. The neurologic examinations were otherwise normal. Electromyography revealed rare fibrillation potentials and positive sharp waves. Motor nerve conduction velocities were normal, whereas compound muscle action potentials from the interosseous muscles were decreased. These findings were consistent with a primary myopathy. A 3rd pup from a different litter and a 4th pup from a litter with 3 of 8 affected dogs had similar clinical presentations. Histopathologic changes in fresh-frozen muscle biopsy samples were similar in all pups and consisted of myofiber atrophy with mild myonecrosis, endomysial fibrosis, and replacement of muscle with fatty tissue. These changes were more severe in distal muscles than in proximal muscles. Plasma carnitine concentrations (total and free) were decreased in all pups. Muscle carnitine concentrations (total and free) were decreased in 3 of 4 pups and the least affected pup had a borderline low free muscle carnitine concentration. Abnormalities involving major metabolic pathways were not found on quantification of organic and amino acids. Dystrophin immunocytochemistry was normal in 2 dogs tested. Distal myopathies in humans are classified under the dystrophic group of muscle disorders. These 4 cases represent a form of muscular dystrophy apparently not previously reported in dogs. 相似文献
8.
J J van Nes 《American journal of veterinary research》1985,46(5):1155-1161
The influence of stimulation site and voltage on amplitude, wave form, conduction time, and velocity of sensory action potentials in the ulnar and radial nerves was evaluated in 25 healthy dogs. A 5-fold increase in stimulation voltage above threshold caused a 300% increase in the amplitude of evoked sensory nerve potentials. An additional 2-fold increase in stimulation voltage (to 10 times threshold) resulted in an additional 40% increase in amplitude. An absolute saturation voltage was not found. Latency velocity was increased by increasing stimulation voltage, but conduction velocity was not affected. Multicomponent nerve action potentials were frequently found at the proximal recording sites. The number of components was not affected by stimulation voltage. Proximal displacement of the stimulation site resulted in an increase in amplitude of the nerve action potentials, increased latency velocity, and fewer components; conduction velocity was not affected. As a consequence of these findings, preference was given to simultaneous recording at 2 sites along the nerve, stimulation at the more proximal stimulation site distal to the carpus, and stimulation voltages between 5 and 10 times the threshold. The occurrence of multicomponent wave forms, the absence of an absolute saturation voltage, and the lowering of the number of components by proximal displacement of the site of stimulation may all be related to the relatively small number of sensory nerve fibers that can be activated at the stimulation site. 相似文献
9.
Compound motor-nerve action potentials evoked by supramaximal stimulation of the proximal and distal aspects of the tibial nerve were evaluated in chickens 1 to 15 weeks old. Motor-nerve conduction velocity increased from a mean of 22.6 m/s at week 1 to a mean of 52.7 m/s at week 15. The increase in conduction velocity was greatest for the first few weeks, and reached a plateau at 10 weeks. Subcutaneous limb temperature, limb length, and proximal latency measurements also increased with age; however, distal latency measurements were not significantly influenced by age. A quadratic equation was calculated to predict mean motor-nerve conduction velocity for maturing chickens. 相似文献
10.
F-wave conduction velocity, persistence, and amplitude for the tibial nerve in clinically normal cats 总被引:9,自引:0,他引:9
OBJECTIVE: To establish a method of F-wave evaluation and to determine normative values of F-wave parameters, including F-wave conduction velocity, persistence, and amplitude for the tibial nerve in cats. ANIMALS: 30 clinically normal cats. PROCEDURES: F-waves elicited in the interosseous muscles by stimulation of the tibial nerve were recorded, and linear regression analyses of the shortest latency versus the length of the tibial nerve and the limb length were performed. F-wave persistence was calculated by dividing the number of recorded F-waves by the number of stimuli. RESULTS: The correlation coefficient between F-wave latency and nerve length was 0.92, and that between F-wave latency and limb length was 0.58. Mean +/- SD F-wave conduction velocity of the tibial nerve was calculated to be 97.1 +/- 5.0 m/s. Linear regression analysis yielded the regression equation as follows: F-wave latency (milliseconds) = 2.60 + (0.02 x nerve length [mm]). Mean F-wave persistence and amplitude were 98.7 +/- 2.3% and 1.01 +/- 0.62 mV, respectively. CONCLUSIONS AND CLINICAL RELEVANCE: Results indicated that nerve length should be used for nerve conduction studies of F-waves in felids. The regression equation for F-wave latency, conduction velocity, persistence, and amplitude may contribute to the diagnosis of nervous system diseases or injury in cats, such as trauma to the spinal cord or diabetic neuropathy. 相似文献
11.
A group of ten dogs affected by an apparently identical denervating disease, is described. There was no breed or age predisposition but females were preferentially affected (70%). The rate of onset of signs was variable from a week to greater than 1 month. Quadriparesis was present to varying severities and in two dogs the head and neck could not be supported. Mastication, swallowing, respiration and bladder function were unimpaired. Pain sensation was normal, tone was usually decreased and the local limb reflexes depressed or absent. Muscle atrophy was often prominent. All cases bar one recovered but another dog was also destroyed. Electrophysiology revealed diffuse spontaneous activity in the muscles and the motor nerve conduction velocities were at the lower end of or just below the normal range. The evoked muscle potentials were reduced in amplitude. Sensory nerve potentials were normal. The pathology showed a degeneration of the distal intramuscular axons with collateral axonal sprouting. The muscle changes were typical of neurogenic atrophy. The disease has been called distal denervating disease (DDD) until the precise aetiology can be determined. 相似文献
12.
M Kent K Knowles E Glass A deLahunta K Braund J Alroy 《Journal of the American Animal Hospital Association》1999,35(5):436-439
A nine-week-old saluki puppy was presented to Tufts University School of Veterinary Medicine for progressive, generalized weakness and bilateral forelimb deformities. Examination suggested a diffuse neuromuscular lesion. Cerebrospinal fluid (CSF) analysis showed normal nucleated cell count and protein level; however, many macrophages had vacuolated cytoplasm. Electromyography (EMG) recordings suggested denervation in paraspinal and appendicular muscles. Tibial motor nerve conduction velocity was normal, but direct evoked muscle potential had reduced amplitude. Histopathology revealed diffuse, symmetrical, degenerative motor neuronopathy of the ventral horn of the spinal cord with associated lesions in nerves and muscles. Histopathology was consistent with an abiotrophy that was likely inherited. 相似文献
13.
OBJECTIVE: To establish a method of F-wave examinations and to determine values of F-wave conduction velocity (FWCV) and F-wave latency for the tibial nerve of clinically normal dogs. ANIMALS: 21 clinically normal dogs. PROCEDURE: The F-waves were elicited from the interosseous muscles via stimulation of the tibial nerve. The FWCV was determined by using the F-wave shortest value and the surface distance corresponding to the tibial nerve length. Correlation between the smallest latency value of the F-wave and the length of the tibial nerve and between the FWCV and rectal temperature were closely examined. RESULTS: F-wave latency was proportional to the length of the tibial nerve (correlation coefficient, 0.929). Mean +/- SD FWCV was 77.98 +/- 8.62 m/s. Regression equation was as follows: F-wave latency = 2.799 + (0.029 X length of the tibial nerve).The FWCV was increased when the measured rectal temperature was high. Correlation coefficient between FWCV and rectal temperature was 0.665. CONCLUSIONS AND CLINICAL RELEVANCE: In the study reported here, we established a reliable method for clinical evaluation of the F-wave. When assessing nerve conduction velocity, it is essential to measure nerve length along the pathway that the nerve impulse travels. This method of F-wave examination is a useful diagnostic tool for the evaluation of suspected dysfunction of the peripheral nervous system. 相似文献
14.
Inability to experimentally produce a polyneuropathy in dogs given chronic oral low level lead. 
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下载免费PDF全文 Electromyographic examinations were performed at various times over a 40 week period in four mature dogs receiving chronic oral low doses of lead acetate and a control dog receiving sodium acetate. Blood lead levels in the four dogs were elevated (mean values 1.15, 2.18, 1.13 and 1.72 mumol/liter). No clinical signs of lead intoxication were present. Two dogs had evidence of a nonregenerative anemia. Neither needle electromyographic nor nerve conduction velocity studies showed evidence of a polyneuropathy. Teased nerve fiber preparations of proximal and distal segments of the ulnar and tibial nerves and muscle biopsies of distal appendicular muscles were normal in all dogs. Light microscopic examination of the brain, kidneys and liver revealed no abnormalities in the two dogs necropsied. In conclusion, a polyneuropathy was not produced experimentally in dogs ingesting low doses of inorganic lead for up to 40 weeks. 相似文献
15.
16.
Electromyographic (EMG) examinations were performed on Beagles before and for 7 days after oral administration of one of the following organophosphate (OP) compounds; ronnel (55.0 or 110.0 mg/kg), dichlorvos (29.7, 59.4, or 148.5 mg/kg), or cythioate (24.8 or 33.0 mg/kg). The EMG values determined were evoked potentials, after-discharge activity, F-wave activity, nerve conduction velocity, and motor unit potential activity associated with interosseous and pectineal reflexes. Erythrocyte cholinesterase (ChE) activities were measured in some dogs. Ronnel did not have an effect on ChE activity, whereas dichlorvos and cythioate, at all dosage levels, had an inhibitory effect. Some dogs had minor signs of OP toxicosis. The EMG changes for individual OP compounds were not statistically significant (P greater than 0.05), but pooled results revealed an increased duration of evoked potentials, increased after-discharge activity, and decreased F-wave activity; however, only the effect on duration was significant (P less than 0.05). Reflex motor unit potential activity and nerve conduction velocities were not affected. Effects of neostigmine (0.1 to 0.4 mg/kg) given IV to anesthetized, atropinized Beagles were similar to those effects shown by pooled data for the OP compounds, but considerably more muscle fasciculation was produced. Results of this study indicate that even when erythrocyte ChE activity is reduced by OP compounds at dosage levels that produce no or minimal visible signs of toxicosis, EMG reveals little evidence for increased motor unit irritability. 相似文献
17.
J.A. Hudson DVM PhD J.E. Steiss DVM PhD K.G. Braund BVSc MVSc PhD FRCVS M. Toivio-Kinnucan PhD 《Veterinary radiology & ultrasound》1996,37(4):302-312
Ultrasonography was performed on sciatic, tibial and/or peroneal nerves and interosseous muscles in 7 dogs using a ultrasound machine with a 7.5 MHz linear array transducer. A tibial nerve was transected near the distal aspect of the bellies of the gastroenemius muscle. Serial neurologic examinations, electromyography, and ultrasonography were performed before and after surgery. Dogs were euthanized at variable intervals and histopathology performed on nerve samples. In sagittal images, normal nerves had hyperechoic walls with multiple internal linear echoes. In transverse images, the nerves were round or oval hyperechoic structures with internal punctate echoes. After transection, the proximal stump was consistently seen whereas the distal stump and nerve were harder to identify. Neuromas were present in all 5 dogs followed beyond 2 days and appeared as hypoechoic bulbous swellings most apparent at 3 weeks after surgery. Only 1 dog developed a neuroma large enough to be considered of potential clinical significance. Four dogs were followed beyond 2 months. Regeneration was evidenced by a steady growth of nerve with an irregular outline (2 dogs) or by a knobby connection between the proximal and distal stumps (1 dog). Regeneration was not detected in 1 dog. 相似文献
18.
Martin-Flores M Boesch J Campoy L Gleed RD 《Journal of the American Animal Hospital Association》2011,47(4):294-298
A case of prolonged muscle relaxation after vecuronium in an anesthetized dog is presented. After using peripheral nerve stimulation to confirm partial recovery of neuromuscular transmission, administration of 0.5 mg/kg IV of intravenous edrophonium failed to complete the reversal process. Subsequent administration of neostigmine resulted in complete recovery from blockade. Without monitoring neuromuscular function with a peripheral nerve stimulator until reversal was complete, it was very likely this patient would have been extubated with incomplete neuromuscular transmission. Several factors affecting the duration of neuromuscular blockade and its reversal are addressed. 相似文献
19.
Neuromuscular pedicle graft for restoration of arytenoid abductor function in dogs with experimentally induced laryngeal hemiplegia 总被引:1,自引:0,他引:1
C L Greenfield R Walshaw K Kumar C T Lowrie F J Derksen 《American journal of veterinary research》1988,49(8):1360-1366
Left laryngeal hemiplegia was induced by resection of the left recurrent laryngeal nerve in 12 dogs. A neuromuscular pedicle graft formed from the first cervical nerve and sternothyroideus muscle was transplanted after 1 week to the denervated cricoarytenoideus dorsalis muscle in 8 dogs. The remaining 4 dogs served as controls. Left arytenoid abduction was blindly evaluated by laryngoscopy with video photography at time 0, at 1 week, and at 19 weeks in all dogs. At 19 weeks, biopsy specimens of the left cricoarytenoideus dorsalis muscle and the neuromuscular pedicle were taken from 4 of the treatment dogs, and biopsy specimens of the left cricoarytenoideus dorsalis muscle were taken from the 4 control dogs. All biopsy specimens were blindly evaluated by histologic and histochemical examination. At 36 to 44 weeks, the remaining 4 treatment dogs, from which biopsy specimens had not been taken, were reevaluated by use of laryngoscopy with video photography. Complications and difficulties encountered during surgery included hemorrhage in the area of the cricoarytenoideus dorsalis muscle, location of a branch of the first cervical nerve that was long enough to prevent tension at the graft site, orientation of the muscle pedicle in the cricoarytenoideus dorsalis muscle without the use of an operating microscope, and preservation of the terminal portion of the first cervical nerve while forming the neuromuscular pedicle. Results of the arytenoid movement evaluations revealed improvement in arytenoid abductor function in the treatment group, compared with that in the control group at 19 weeks. Arytenoid abduction in the treatment group at this time, however, was still significantly decreased (P less than 0.05), compared with presurgical movement evaluations.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
20.
Harkin KR Cash WC Shelton GD 《Journal of the American Veterinary Medical Association》2005,227(8):1263-5, 1250
A 5-month-old female Border Collie was evaluated because of progressive hind limb ataxia. The predominant clinical findings suggested a sensory neuropathy. Sensory nerve conduction velocity was absent in the tibial, common peroneal, and radial nerves and was decreased in the ulnar nerve; motor nerve conduction velocity was decreased in the tibial, common peroneal, and ulnar nerves. Histologic examination of nerve biopsy specimens revealed considerable nerve fiber depletion; some tissue sections had myelin ovoids, foamy macrophages, and axonal degeneration in remaining fibers. Marked depletion of most myelinated fibers within the peroneal nerve (a mixed sensory and motor nerve) supported the electrodiagnostic findings indicative of sensorimotor neuropathy. Progressive deterioration in motor function occurred over the following 19 months until the dog was euthanatized. A hereditary link was not established, but a littermate was similarly affected. The hereditary characteristic of this disease requires further investigation. 相似文献