ライフサイエンスコーパス: brachial plexus

1 manent functional deficit is avulsion of the brachial plexus.

2 of focal neuropathy primarily affecting the brachial plexus.

3 patients with chronic pain referable to the brachial plexus.

4 determine the feasibility of visualizing the brachial plexus.

5 ce imaging in three different regions in the brachial plexus.

6 ght brachial artery, with compression of the brachial plexus.

7 Protocol I aimed to develop the vascularized brachial plexus allotransplantation (VBP-allo) model.

8 al study, we assessed the feasibility of rat brachial plexus allotransplantation and analyzed its fun

9 Vascularized brachial plexus allotransplantation could offer the best

10 demonstrated a useful vascularized complete brachial plexus allotransplantation rodent model with su

11 urrent investigations have demonstrated that brachial plexus analgesia can be extended by combining e

12 l studies, we envision that future repair of brachial plexus and cauda equina injuries will include s

13 surgical replantation of avulsed roots after brachial plexus and cauda equina injuries.

14 rgeries to augment functional outcomes after brachial plexus and cauda equina injuries.

15 ized protocol of brachial plexus MR imaging, brachial plexus and limb-girdle muscle abnormalities wer

16 thors' proposal for an HRUS protocol for the brachial plexus and shows typical ultrasound findings in

17 Use of a block room for patients undergoing brachial plexus anesthesia for upper extremity surgery r

18 to generate tractograms of the roots of the brachial plexus appears to be lower than those used in t

19 Axons traveling within the brachial plexus are responsible for the dexterous contro

20 ditions for tractography of the roots of the brachial plexus are unclear, which represents the ration

21 es and can be used for MR neurography of the brachial plexus at 3.0 T.

22 rue tracts for each spinal nerve root of the brachial plexus, at different fractional anisotropy thre

23 To model brachial plexus avulsion in the rat, C8 nerve roots were

24 and CSPGs may aid functional recovery after brachial plexus avulsion or other nervous system injurie

25 ed peripheral nerve grafts in a rat model of brachial plexus avulsion, a traumatic injury in which ne

26 patterns of glenohumeral joint deformity in brachial plexus birth palsy were identified and correlat

27 or outpatient shoulder surgery, interscalene brachial plexus block (ISBPB) is currently the most pref

28 ocaine injected subcutaneously) or regional (brachial plexus block [BPB]) anaesthesia (0.5% L-bupivac

29 elopments in the safety and effectiveness of brachial plexus block are presented.

30 is manuscript is to describe a technique for brachial plexus block guided with computed tomography an

31 uvants that may potentiate analgesia after a brachial plexus block have been described and investigat

32 AVF creation to receive regional anesthesia (brachial plexus block; 0.5% L-bupivacaine and 1.5% lidoc

33 Anesthetic volumes in brachial plexus blockade may be reduced without compromi

34 demonstrate that prolonging analgesia after brachial plexus blocks is possible.

35 praclavicular, infraclavicular, and axillary brachial plexus blocks, however, are all commonly used a

36 n in three-dimensional MR neurography of the brachial plexus compared to imaging without ferumoxytol.

37 A linear correlation was found between brachial plexus depth and SCV depth up to 7 cm.

38 -noise ratio (S/N) at three locations in the brachial plexus indicated that the phased-array coil pro

39 Background Traumatic brachial plexus injuries affect 1% of patients involved

40 Brachial plexus injuries are devastating.

41 Overall, 72% of patients with brachial plexus injuries had at least one root avulsion

42 bstetric complications are a common cause of brachial plexus injuries in neonates.

43 lts with traumatic nonpenetrating unilateral brachial plexus injuries were included.

44 years 13 [standard deviation]; 217 men) with brachial plexus injuries who had -undergone MRI (n = 251

45 MRI is the best test for traumatic brachial plexus injuries, although its ability to differ

46 thy and eligible for grafting in acute adult brachial plexus injuries, but their comparative diagnost

47 sing root avulsions in adults with traumatic brachial plexus injuries.

48 ftable C5 spinal nerve stumps in acute adult brachial plexus injuries.

49 und infection, axillary seroma, paresthesia, brachial plexus injury (BPI), and lymphedema was availab

50 cranial hemorrhage, facial nerve injury, and brachial plexus injury (BPI).

51 Neonatal brachial plexus injury (NBPI) causes disabling and incur

52 Neonatal brachial plexus injury (NBPI) causes disabling and incur

53 Using time-lapse imaging in an obstetrical brachial plexus injury (OBPI) model, we show that microg

54 Background Surgical decisions for traumatic brachial plexus injury (TBPI) depend on the severity of

55 ween 3 and 23 years, who had suffered severe brachial plexus injury at birth.

56 For each permanent brachial plexus injury prevented by the 4500-g policy, 3

57 cluded consecutive adult patients with acute brachial plexus injury who underwent microreconstruction

58 uman olfactory ensheathing cells in clinical brachial plexus injury would open the way to the wider f

59 gh to the arm to restore elbow flexion after brachial plexus injury, aiming to directly measure muscl

60 of cesarean delivery, shoulder dystocia and brachial plexus injury, and total costs were higher than

61 ations were urinary retention (4), transient brachial plexus injury, dislodgement of an intrauterine

62 decreasing the rate of shoulder dystocia and brachial plexus injury.

63 gh to the arm, restoring elbow flexion after brachial plexus injury.

64 as well as major nerves originating from the brachial plexus innervating the arm and hand) was perfor

65 uralgic amyotrophy with predilection for the brachial plexus is an autosomal dominant disorder associ

66 By using an optimized protocol of brachial plexus MR imaging, brachial plexus and limb-gir

67 ar suppression and nerve visualization in 3D brachial plexus MR neurography as a pilot study.

68 Brachial plexus MR neurography was performed 30 minutes

69 Brachial plexus nerve blocks are performed to treat pati

70 the posterior approach in 1221 patients with brachial plexus neurolysis and dorsal sympathectomy.

71 Limb weakness occurred in 58 (95.1%) with brachial plexus palsies in five (8.2%).

72 Perinatal brachial plexus palsy (PBPP) has been traditionally clas

73 n in its role in the management of obstetric brachial plexus palsy, with investigation within 1 month

74 an idiopathic inflammatory neuropathy of the brachial plexus presenting with neuropathic pain and mot

75 as most commonly affected in 15, followed by brachial plexus, radial nerve and ulnar nerve (four each

76 There were 3 patients with brachial plexus-related symptoms all consisting of C8 ti

77 ers modest diagnostic accuracy for traumatic brachial plexus root avulsion(s), and early surgical exp

78 radely via bilateral electrical stimulation (brachial plexus, ulnar, femoral, and common peroneal ner

79 The brachial plexus was also outlined by using similar metho

80 A free vascularized brachial plexus with a chimeric compound skin paddle fla

81 e magnetic resonance (MR) neurography of the brachial plexus with robust fat and blood suppression fo