ライフサイエンスコーパス: pudendal

1 spinal' nerves (i.e. pelvic, hypogastric and pudendal).

2 der inhibition, excluding the involvement of pudendal afferent or efferent axons in PFCN afferent inh

3 This work systematically quantifies pudendal afferent responses to a range of fluid flows in

4 We systematically quantified pudendal afferent responses to fluid flow in the urethra

5 in the pelvic nerve) and the urethra (in the pudendal and pelvic nerves) to maintain continence or in

6 ocal atherosclerotic lesions of the internal pudendal arteries among men with erectile dysfunction (E

7 ior gluteal artery (2), superficial external pudendal artery (2), deep femoral artery (1), lateral ci

8 l for erectile function, the distal internal pudendal artery (dIPA), and the corpus cavernosum (CC).

9 venous fistulas associated with the internal pudendal artery are uncommon.

10 eous stent revascularization of the internal pudendal artery is feasible and is associated with clini

11 ulas and pseudoaneurysms concerning internal pudendal artery may occur as complications of prostate o

12 hich identified ten SLNs, one of which was a pudendal artery regional SLN.

13 fistula originating from the right internal pudendal artery.

14 may indicate uptake of DTX by contralateral pudendal axons crossing the sphincter midline; and (iii)

15 fibers appears to be in close apposition to pudendal MNs, this relationship also applies to other MN

16 In addition to the nRO spinal autonomic and pudendal motoneuronal targets, projections were observed

17 the Gi-LPGi complex to retrogradely labeled pudendal motoneurons (MN) in the male rat.

18 of the brainstem nRO to retrogradely labeled pudendal motoneurons (MN) in the male rat.

19 Phrenic and pudendal motoneurons expressed the highest level of mGlu

20 er (EUS) injections resulted in labelling of pudendal motoneurons in the dorsolateral nucleus of L6.

21 After a 2 day survival period, only pudendal motoneurons were labeled.

22 This study explored how pudendal nerve (PN) injury affects urinary continence in

23 nd low frequency stimulation of the compound pudendal nerve (PN) is known to produce a continence res

24 Efferent axons travel through the pudendal nerve and the lumbosacral trunk and converge in

25 tion of urethral or genital afferents of the pudendal nerve can elicit or inhibit micturition, and lo

26 The pudendal nerve carries sensory information from the uret

27 There is also disagreement about whether pudendal nerve conduction studies can be used to predict

28 include the duration of fecal incontinence, pudendal nerve damage, patient age, symptom severity, pr

29 ring pudendal nerve latencies as a marker of pudendal nerve injury is limited; needle electromyograph

30 In adult male cats, we investigated pudendal nerve innervation of the lower urinary tract (L

31 timulation (scES) at the level of pelvic and pudendal nerve inputs/outputs (L5-S1) alters storage and

32 The utility of measuring pudendal nerve latencies as a marker of pudendal nerve i

33 Anal-squeeze pressure, sensitivity, and pudendal nerve latencies were normal.

34 Electrical stimulation of pudendal nerve sensory pathways can evoke excitatory bla

35 Our findings identify specific pudendal nerve sensory pathways that can be used potenti

36 Pudendal nerve stimulation (PNS) aims to maximize affere

37 the inhibition of the micturition reflex by pudendal nerve stimulation (PNS).

38 We show that continuous 10 Hz pudendal nerve stimulation increased BC (120-180% of con

39 he two principal functions of the bladder by pudendal nerve stimulation is an exciting prospect for n

40 nal and external anal sphincters, and normal pudendal nerve terminal nerve latencies.

41 T8 spinal cord injury (SCI) and/or bilateral pudendal nerve transection (PNT).

42 Bilateral pudendal nerve transection eliminated PFCN stimulation-i

43 In addition, the peripheral end of the pudendal nerve was stimulated in order to determine if c

44 pelvic nerve, electrical stimulation of the pudendal nerve, a period of isometric micturition (induc

45 ibers derived from the sensory branch of the pudendal nerve.

46 elicited from electrical stimulation of the pudendal nerve.

47 ption, may involve the EAS, the IAS, and the pudendal nerves, singly or in combination.

48 urethral neurons that send axons through the pudendal nerves.

49 s the reported projections of the pelvic and pudendal nerves.

50 ting in damage to the anal sphincters and/or pudendal nerves.

51 Pudendal neuropathy can diminish rectal sensation and le

52 Electrical stimulation of the pudendal or pelvic nerves resulted in fewer numbers of c

53 utaneous emphysema of the right inguinal and pudendal region.

54 athematical model capable of reproducing the pudendal sensory activity in response to arbitrary profi

55 istic mathematical model that reproduces the pudendal sensory activity in response to urethral flow.

56 gray were activated after stimulation of the pudendal sensory and pelvic nerves, suggesting these are

57 tion of spinal neurons activated with either pudendal sensory nerve or pelvic nerve stimulation was e

58 Pudendal sensory nerve stimulation resulted in a signifi

59 urons relaying afferent information from the pudendal sensory nerve, in the dorsal horn and medial co