Indexed keywords
ANIMAL EXPERIMENT;
ANIMAL MODEL;
ANIMAL TISSUE;
ARTICLE;
CONTROLLED STUDY;
ELECTRIC SHOCK;
ELECTROPHYSIOLOGY;
FEMALE;
NERVE FUNCTION;
NONHUMAN;
PERIPHERAL NERVE INJURY;
RAT;
SENSORY NERVE;
ACTION POTENTIALS;
ANESTHETICS, LOCAL;
ANIMALS;
ELECTRIC INJURIES;
ELECTRIC STIMULATION;
ELECTROPHYSIOLOGY;
FEMALE;
LIDOCAINE;
NERVE FIBERS;
NERVE FIBERS, MYELINATED;
NEURAL CONDUCTION;
NEURONS, AFFERENT;
RATS;
RATS, SPRAGUE-DAWLEY;
REFRACTORY PERIOD, ELECTROPHYSIOLOGICAL;
SCIATIC NERVE;
SYNAPTIC TRANSMISSION;
1
0042683765
Neurologic effects of lightning and of electricity
1 Critchley M. Neurologic effects of lightning and of electricity. Lancet 1934; i: 68-72.
(1934)
Lancet , vol.1
, pp. 68-72
Critchley, M.1
2
0018906523
Delayed neurologic injury secondary to high voltage current with recovery
2 Christensen JA, Sherman RT, Balis GA, Wuamatt JP. Delayed neurologic injury secondary to high voltage current with recovery. J Trauma 1980; 20: 166-168.
(1980)
J Trauma , vol.20
, pp. 166-168
Christensen, J.A.1
Sherman, R.T.2
Balis, G.A.3
Wuamatt, J.P.4
3
0017645613
The natural history of electrical injury
3 Solem L, Fischer RP, Strate RG. The natural history of electrical injury. J Trauma 1977; 17: 487-492.
(1977)
J Trauma , vol.17
, pp. 487-492
Solem, L.1
Fischer, R.P.2
Strate, R.G.3
5
0023784146
Significance of cell size and tissue structure in electrical trauma
5 Gaylor DC, Prakah-Asante K, Lee RC. Significance of cell size and tissue structure in electrical trauma. J Theoret Biol 1988; 133: 223.
(1988)
J Theoret Biol , vol.133
, pp. 223
Gaylor, D.C.1
Prakah-Asante, K.2
Lee, R.C.3
6
0023683970
Role of cell membrane rupture in the pathogenesis of electrical trauma
6 Lee RC, Gaylor DC, Bhatt D, Israel DA. Role of cell membrane rupture in the pathogenesis of electrical trauma. J Surg Res 1988; 44: 709-719.
(1988)
J Surg Res , vol.44
, pp. 709-719
Lee, R.C.1
Gaylor, D.C.2
Bhatt, D.3
Israel, D.A.4
7
0019169804
A sensitive method for the detection and quantification of conduction deficits in nerves
7 Smith KJ. A sensitive method for the detection and quantification of conduction deficits in nerves. J Neurol Sci 1980; 49: 191-199.
(1980)
J Neurol Sci , vol.49
, pp. 191-199
Smith, K.J.1
8
0019135203
Nerve conduction during peripheral demyelination and remyelination
8 Smith KJ, Hall SM. Nerve conduction during peripheral demyelination and remyelination. J Neurol Sci 1980; 48: 201-219.
(1980)
J Neurol Sci , vol.48
, pp. 201-219
Smith, K.J.1
Hall, S.M.2
9
0017112984
A method for estimating the refractory period of motor fibres in the human peripheral nerve
9 Kimura J. A method for estimating the refractory period of motor fibres in the human peripheral nerve. J Neurol Sci 1976; 28: 485-490.
(1976)
J Neurol Sci , vol.28
, pp. 485-490
Kimura, J.1
11
0025272160
The use of sensory potentials in the diagnosis of peripheral nerve disease
11 Shefner JM, Dawson A. The use of sensory potentials in the diagnosis of peripheral nerve disease. Arch Neurol 1990; 47: 341-348.
(1990)
Arch Neurol , vol.47
, pp. 341-348
Shefner, J.M.1
Dawson, A.2
12
78651026696
The effect of sodium ions on electrical activity of giant axon of the squid
12 Hodgkin AL, Katz B. The effect of sodium ions on electrical activity of giant axon of the squid. J Physiol 1949; 108: 37-77.
(1949)
J Physiol , vol.108
, pp. 37-77
Hodgkin, A.L.1
Katz, B.2
13
0027058138
Range of messenger action of calcium ion and inositol 1,4,5-triphosphate
13 Albritton NL, Meyer T, Stryer L. Range of messenger action of calcium ion and inositol 1,4,5-triphosphate. Science (Washington DC) 1992; 258: 1812-1815.
(1992)
Science (Washington DC) , vol.258
, pp. 1812-1815
Albritton, N.L.1
Meyer, T.2
Stryer, L.3
