ライフサイエンスコーパス: crural

1 e of transcatheter interventions in diabetic crural arteries is controversial.

2 l sphincter (LES) and skeletal muscle of the crural diaphragm (esophagus hiatus) provide the sphincte

3 Relaxation of crural diaphragm along with LES relaxation is essential

4 phagus leave the esophagus to enter into the crural diaphragm and the remainder terminate into the sl

5 The lower esophageal sphincter and crural diaphragm constitute the intrinsic and extrinsic

6 re needed to define the nature of hiatal and crural diaphragm dysfunction in patients with achalasia

7 Esophageal and LES pressure, crural diaphragm electromyographs, and pH were recorded

8 Esophageal shortening and crural diaphragm inhibition always preceded EGJ opening

9 nly 8% of the pharyngeal stimuli resulted in crural diaphragm inhibition and esophageal common cavity

10 us-induced LES relaxation is associated with crural diaphragm inhibition, esophageal common cavity, a

11 J opening during tLESRs were LES relaxation, crural diaphragm inhibition, esophageal shortening, and

12 that circumferential squeeze of the LES and crural diaphragm is generated by a unique myo-architectu

13 anatomic and functional abnormalities of the crural diaphragm muscle in patients with achalasia esoph

14 nd only at the times of simultaneous LES and crural diaphragm relaxation.

15 of the lower esophageal sphincter (LES) and crural diaphragm was quantified by measuring the distanc

16 18 single unit spindles located in the right crural diaphragm was recorded during rhythmic diaphragma

17 contributors (lower esophageal sphincter and crural diaphragm) during deglutitive relaxation to clear

18 imulation were associated with inhibition of crural diaphragm, esophageal common cavity, and acid ref

19 y using a block containing the human LES and crural diaphragm, serially sectioned at 50 mum intervals

20 pharynx has different effects on the LES and crural diaphragm.

21 ageal sphincter (LES), distal oesophagus and crural diaphragm.

22 f response were identical for the costal and crural diaphragms.

23 emiges with rounded distal margins and short crural feathers.

24 %), prosthesis fractures (4 patients, 2.5%), crural fractures (4 patients, 2.5%), loosening of the pr

25 and insects are homologous and linked to the crural gland (origin of systemic pathway to silk product

26 Anterior crural muscles from mdx and wildtype mice performed a si

27 The left anterior crural muscles of anaesthetized mice were stimulated to

28 n the dorsal nerve trunk at the level of the crural plexus, in the presence of ectopic EphA4.

29 s on the posterior aspect of both thighs and crural regions that was worse on the left side, hypoesth

30 zed clinical trial suggest that tension-free crural repair with nonabsorbable mesh does not reduce th

31 Sac removal, crural repair, and antireflux procedures were performed

32 by liver retraction without mobilization, no crural repair, short gastric vessels left intact, and 2-

33 ndoplication, defined by liver mobilization, crural repair, takedown of short gastric vessels, and fl

34 'upper LOS' overlaps and displaces with the crural sling consistent with a physiological LOS.

35 ssure profiles correlated spatially with the crural sling during diaphragmatic displacement.

36 ak overlapped and displaced rigidly with the crural sling, while the distal peak separated from the c

37 ximally displaced from the OCJ: an extrinsic crural sphincter of skeletal muscle and an intrinsic phy

38 ly assigned to mesh reinforcement, and 50 to crural suture alone.

39 Closure of the diaphragmatic hiatus with crural sutures alone vs a tension-free technique using a

40 hiatal hernia recurrence rates compared with crural sutures alone, but the long-term effects of this