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1 EMG high-frequency activity in the external urethral sphincter.
2 traction of the pelvic floor and the anal or urethral sphincter.
3 ile also recording the EMG from the external urethral sphincter.
4 peripheral effects directly on the external urethral sphincter.
5 the bladder and the other into the external urethral sphincter.
6 could be used to deliver nitric oxide to the urethral sphincter.
7 ated control of the bladder and the external urethral sphincter.
8 abies virus (PRV) injected into the external urethral sphincter.
9 ve) that inserted directly into the external urethral sphincter.
10 while also directly inhibiting the external urethral sphincter, a pattern necessary to overcome detr
11 nal cystometry, with acquisition of external urethral sphincter activity and bladder pressure, was us
12 irmed electrophysiologically by the measured urethral sphincter activity evoked in response to select
13 d coordination between detrusor and external urethral sphincter activity that has been observed clini
16 measured simultaneously at the level of the urethral sphincter and at the level of the penis using a
17 ladder pressure to facilitate urination, and urethral sphincters and pelvic floor muscles, which cont
18 tudy, leak point pressure (LPP) and external urethral sphincter electromyography (EMG) were performed
20 amic testing with electromyogram of external urethral sphincter (EUS) activity in both female and mal
21 eflexes relax the bladder and evoke external urethral sphincter (EUS) contraction (guarding reflex) t
22 anisms of injury from VD leading to external urethral sphincter (EUS) dysfunction, and assess if tran
23 absence of bladder contractions and external urethral sphincter (EUS) electromyographic (EMG) activat
25 the changes in bladder pressure and external urethral sphincter (EUS) electroneurogram (ENG) evoked b
26 accompanied by rhythmic bursting of external urethral sphincter (EUS) EMG and expulsion of urine from
27 enter in rats that is involved with external urethral sphincter (EUS) functionality during micturitio
30 etrusor) and striated muscle of the external urethral sphincter (EUS) that is controlled by spinal an
31 stometry) and coordination with the external urethral sphincter (EUS) were assessed 5 d post-SCI unde
32 neurovascular bundles (NVB) and the external urethral sphincters (EUS), can enable physicians to perf
33 incter (URS), commonly known as the external urethral sphincter, facilitates urinary continence by co
37 s are thought to functionally regenerate the urethral sphincter in patients with suspected intrinsic
38 ells (MPC) injected into a model of striated urethral sphincter injury that reproduces the histopatho
40 muscle precursor cells (MPCs) into striated urethral sphincter irreversibly damaged by electrocoagul
43 the pontine micturition center and external urethral sphincter neurons were found in the locus coeru
45 been identified in very high density in the urethral sphincters of a variety of animals and in human
47 in young women, associated with a failure of urethral sphincter relaxation, and a treatment option th
49 rom the rat urinary bladder and the external urethral sphincter simultaneously within the same tissue
50 of the gene, for neuronal nitric oxide have urethral sphincters that do not relax in response to ele
51 train, was injected into either the external urethral sphincter, the bladder base, or the bladder bod
52 , neurons labeled by virus from the external urethral sphincter were found in Onuf's nucleus, the dor
53 rethral length and elevation of the external urethral sphincter, whereas a recent large series demons