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1  conducted via electrical stimulation of the tibial nerve.
2 nd TA and stimulating cuffs on the posterior tibial nerve.
3 y reduced after capsaicin application on the tibial nerve.
4 APs of C-fibers could not be detected in the tibial nerve.
5 l sciatic nerve, mid-tibial nerve and distal tibial nerve.
6  diabetic peripheral neuropathy (DPN) of the tibial nerve.
7  m/s) measured either in vivo or in isolated tibial nerves.
8 les induced by electrical stimulation of the tibial nerve activated these dorsal horn neurons.
9 how morphological differences in the sciatic tibial nerve after 5 months of hyperglycemia when compar
10 mal sciatic nerve, distal sciatic nerve, mid-tibial nerve and distal tibial nerve.
11                           After severing the tibial nerve and subsequent transplantation of hair foll
12 interosseus muscles after stimulation of the tibial nerve and the low-frequency-dependent depression
13 its branches such as the peroneal nerve, the tibial nerve, and the sural nerve.
14 ciatic nerve at the sciatic notch and of the tibial nerve at the ankle were significantly reduced in
15 iatic nerve at the sciatic notch or near the tibial nerve at the ankle.
16 e at the middle level of the thigh or on the tibial nerve at the lower level of the lower hindlimb al
17 otential evoked calcium signals in mammalian tibial nerve axons using an in vitro mouse model with a
18 g, stimulation of the central end of the cut tibial nerve, brief repeated carotid occlusions and caro
19 Topical application of capsaicin (1%) on the tibial nerve did not affect SCS-induced vasodilation at
20 ither the proximal sural nerve nor the motor tibial nerve exhibit axon loss.
21 chondria of small, medium and large diameter tibial nerve fibers.
22 e likely to reflect pathology in sciatic and tibial nerve fibers.
23 e injury by direct electrical stimulation of tibial nerve fibres, confirming that centrally mediated
24 trating strong associations with sciatic and tibial nerve findings.
25 beta, mRNA expression in the rat sciatic and tibial nerves following ischemia-reperfusion (IR) injury
26                            Common fibular or tibial nerves in thy-1-YFP-H mice were cut bilaterally a
27 cle contraction evoked by stimulation of the tibial nerve increased mean arterial pressure (MAP) and
28 ycytidine) model of AIDS therapy-induced and tibial nerve injury-related peripheral neuropathy.
29 easurements included peroneal nerve skin and tibial nerve muscle sympathetic activities; the electroc
30 Na, K, Cl, Ca, Mg, P and S) in rat posterior tibial nerve myelinated axons and Schwann cells.
31 nduction velocity deficits, and reduction in tibial nerve myelinated fiber diameter, but not intraepi
32 d not prevent morphometric changes in distal tibial nerve myelinated fibers.
33 covered proximal (sciatic nerve) and distal (tibial nerve) nerve segments of the lower extremity.
34 eceptive properties of regenerated cutaneous tibial nerve nociceptors, and to obtain evidence for cou
35              Histological examination of the tibial nerve of EAN animals revealed that flecainide pro
36 sites adjacent to the sciatic, peroneal, and tibial nerves of one leg.
37 arge myelinated fibers were decreased in the tibial nerves of the hyperglycemic animals.
38 ach of the supplying arteries to the sciatic-tibial nerves of the right hind limb was ligated and the
39 rats the effects of ligating and cutting one tibial nerve on sensory function and on density of inner
40 , 20 s, C-fiber strength) was applied to the tibial nerve or the neuronal receptive field.
41 nally, iPSCMNs grafted into transected mouse tibial nerve projected axons to denervated gastrocnemius
42                                   Conclusion Tibial nerve stiffness measurements appear to be highly
43 ssess the long-term efficacy of percutaneous tibial nerve stimulation (PTNS) in fecal incontinence (F
44                                 Percutaneous tibial nerve stimulation (PTNS) is a new ambulatory ther
45                                        Using tibial nerve stimulation at the knee as a screening test
46                                 Percutaneous tibial nerve stimulation continues to display superiorit
47 e of sacral neuromodulation and percutaneous tibial nerve stimulation in the treatment of men with ur
48                                    Posterior tibial nerve stimulation is not covered here.
49 Both sacral neuromodulation and percutaneous tibial nerve stimulation prove to be viable, durable opt
50 ight-sided (i) handgrip; and (ii) median and tibial nerve stimulation were assessed using functional
51 eal nerve; test reflex elicited by posterior tibial nerve stimulation) was used during: (1) rest, (2)
52 l injection of botulinum toxin, percutaneous tibial nerve stimulation, sacral neuromodulation, and su
53  (MAP) and heart rate (HR) following a 2-min tibial nerve stimulation-evoked static muscle contractio
54 trols, but no increased activation following tibial nerve stimulation.
55 ve stimulation, but reduced activations with tibial nerve stimulation.
56 observed for the soleus H-reflex elicited by tibial nerve stimulation.
57 ld produced qualitatively similar results to tibial nerve stimulation.
58 ernodal length (0.95-1.3 mm) in axons of the tibial nerve that varied in proportion to the mechanical
59 sociated with SEC31B expression in heart and tibial nerve tissue.
60 ese possibilities in rats after crushing the tibial nerve (TN), and using Vesicular GLUtamate Transpo
61                Adult rats underwent complete tibial nerve transection followed by microsurgical reatt
62 e soft tissue injury and three had posterior tibial nerve transection; the average MESS was 7.6.
63                                          The tibial nerve was examined at 4 cm proximal to the medial
64 emained at rest for the entire study, or the tibial nerve was stimulated, as in the contraction group
65                        FA of the sciatic and tibial nerves was lowest in the sDPN group.
66 mic compound action potentials (CAPs) of the tibial nerve were recorded in response to SCS.
67                 At that time, entire sciatic-tibial nerves were harvested and fixed in situ.
68 s, a stimulus was delivered to the posterior tibial nerve while the ipsilateral leg was moving either
69  in the rat, C nociceptors isolated from the tibial nerve with receptive fields (RFs) on the plantar

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