ライフサイエンスコーパス: avulsion

1 losing 39% of its mass deposited before the avulsion.

2 leading cause, followed by blunt trauma and avulsion.

3 y sensitivities and specificities of MRI for avulsion.

4 The target condition was root avulsion.

5 is a potential therapeutic strategy for root avulsion.

6 l muscle of adult rats prior to facial nerve avulsion.

7 observed following either neonatal or adult avulsion.

8 l filling differentiated UPJ laceration from avulsion.

9 cade following traumatic brachial nerve root avulsion.

10 with directional changes, i.e., debris flow avulsions.

11 uth, which is disproportionately affected by avulsions.

12 o normal, partial mild, severe, and complete avulsions.

13 nt, followed by rebound and tractional nerve avulsion 10 mm behind the lamina after 700 mus and 20 de

14 rve grafts in a rat model of brachial plexus avulsion, a traumatic injury in which nerve roots are to

15 lancing blows produce strain-rate rotational avulsion, abscising the optic nerve with minimal interna

16 ears of satellite imagery and documented 113 avulsions across the globe that indicate three distinct

17 opposite mechanisms of channel formation by avulsion and channel abandonment drive the entire delta

18 dplain deposits support coeval timing of the avulsion and earthquake.

19 Here, we demonstrate that after ventral root avulsion and immediate re-implantation, modulation of PT

20 of nerve root injury, especially total root avulsion and partial root avulsion, determined with MRI

21 at identifies which rivers are vulnerable to avulsion and predicts the path of an avulsing river.

22 Optimal cutoff values were 0.95 (normal vs avulsion) and 0.80 (partial vs total root avulsion) base

23 ons, which are engineered to prevent channel avulsion, and direct sediment-laden water to the coastli

24 exes to distinguish normal roots, total root avulsion, and partial root avulsion remains to be explor

25 of sensorimotor functions after dorsal root avulsion, and that these effects are mediated by spinal

26 y of root injury (normal roots, partial root avulsion, and total root avulsion) were evaluated using

27 These dynamics also explain why some avulsions are more hazardous than others.

28 River avulsions are thought to occur when the water column bec

29 vs avulsion) and 0.80 (partial vs total root avulsion) based on pooled data.

30 To quantify avulsion behavior, or style, we measure avulsion-related

31 ve high-risk fractures (all fractures except avulsion, buckle, and non-displaced Salter-Harris I and

32 Though rarely witnessed, avulsions can cause massive floods, and over geologic ti

33 UPJ avulsion, defined as complete transection of the ureter

34 ecially total root avulsion and partial root avulsion, determined with MRI and intraoperative finding

35 Avulsions exhibit behavior ranging from reoccupying aban

36 Isolated avulsion fracture of the subscapularis from the lesser t

37 eromedial tibial plateau injuries, including avulsion fractures of the semimembranous tendon insertio

38 eromedial tibial plateau fractures: Four had avulsion fractures of the tendon insertion site, and one

39 imes associated with radiographically occult avulsion fractures.

40 ociated with radiographically occult fibular avulsion fractures.

41 with the exception of surgical treatment of avulsion fractures.

42 rise enhances aggradation rates-accelerating avulsion frequency and associated hazards compared to pr

43 Results show that avulsion frequency is controlled by the competition betw

44 significantly outpaces sediment supply, then avulsion frequency is maximized, delta plains drown, and

45 not sustainable, because they neither reduce avulsion frequency nor effectively deliver sediment to t

46 o develop a mechanistic framework to predict avulsion frequency on deltas with multiple self-formed l

47 atients but failed to help differentiate UPJ avulsion from laceration.

48 We show that for 63 avulsions from Andean, Himalayan, and New Guinean basins

49 Our findings elucidate how avulsion hazards might respond to land use and climate c

50 eatment to elicit recovery after dorsal root avulsion; however, the choice of neurotrophin is importa

51 To model brachial plexus avulsion in the rat, C8 nerve roots were cut flush to th

52 uate the accuracy of MRI for diagnosing root avulsions in adults with traumatic brachial plexus injur

53 Avulsions in braided rivers reoccupy abandoned channels,

54 rivers reoccupy abandoned channels, whereas avulsions in meandering rivers often produce flooding an

55 r, cannot be inferred owing to more frequent avulsions in modern non-vegetated environments.

56 Treatment of avulsions in the young permanent dentition remains a com

57 es of spinal nerve injury (i.e., axotomy and avulsion) in the developing and adult mouse.

58 rticular aspect of the labrum, biceps anchor avulsion, inferiorly displaced bucket handle fragment, a

59 injures are grafted, while spinal cord root avulsion injuries are treated by transferring an intact

60 lts, chronic pain is usual after spinal root avulsion injuries, and this is often intractable.

61 In rats with ventral root avulsion injuries, we combined timed GDNF gene therapy d

62 repair after brachial and lumbosacral plexus avulsion injuries.

63 le treatment in promoting recovery from root avulsion injuries.

64 developed a rodent lumbosacral ventral root avulsion injury model of cauda equina injury to investig

65 fth metatarsal bone appears to be related to avulsion injury of PAL and SPM tendon fibers.

66 Murine cartilage avulsion injury resulted in rapid activation of the 3 MA

67 acent periodontal tissues 4 days after tooth avulsion injury.

68 of long-term chronic pain after spinal root avulsion injury.

69 achial plexus injuries had at least one root avulsion (interquartile range [IQR]: 53%-86%); meta-anal

70 Ureteric avulsion is a serious event, which necessitates further

71 Ventral root avulsion leads to severe motoneuron degeneration and pro

72 Our results indicate that avulsion location on deltas is set by the upstream exten

73 obe that indicate three distinct controls on avulsion location.

74 The controls on avulsion locations are poorly understood as a result of

75 quency is maximized, delta plains drown, and avulsion locations shift inland, posing new hazards to u

76 control (n=7), chronic MR induced by mitral avulsion (n=7), and HF induced by ventricular tachypacin

77 Abrupt changes in river course, called avulsions, naturally nourish sinking land with sediment;

78 ing their apoptosis induced by sciatic nerve avulsion, nuclear and cytoplasmic 5-methylcytosine immun

79 n of overstabilized MT bundles, resulting in avulsion of otherwise tightly clustered kinetochores.

80 n leads to a permanent functional deficit is avulsion of the brachial plexus.

81 evidence for an abrupt earthquake-triggered avulsion of the Ganges River at ~2.5 ka leading to reloc

82 Unilateral avulsion of the sciatic nerve in the mouse induces apopt

83 ur case, a 13-year-old young man suffered an avulsion of the subscapularis tendon from the lesser tub

84 er environments is the natural diversion, or avulsion, of a channel across its floodplain.

85 e effects of a unilateral L5-S2 ventral root avulsion on efferent preganglionic parasympathetic neuro

86 cide with valley-confinement change, whereas avulsions on deltas are primarily clustered within the b

87 However, 38% of avulsions on deltas occurred upstream of backwater effec

88 Avulsions on fans coincide with valley-confinement chang

89 motoneurons compared to control plasmid and avulsion-only groups.

90 id functional recovery after brachial plexus avulsion or other nervous system injuries and diseases.

91 in patients with normal root vs partial root avulsion: P < .001 for C4 through C6, P = .16 for C7; hi

92 igher in patients with partial vs total root avulsion: P = .03 for C4, P < .001 for C5 through C7).

93 fers chronic neuropathic or spinal cord root avulsion pain; in adults, chronic pain is usual after sp

94 nts(8) and that probabilistic predictions of avulsion pathfinding can efficiently map hazards with mi

95 We conclude that lumbosacral ventral root avulsions progressively deplete autonomic and motor neur

96 tify avulsion behavior, or style, we measure avulsion-related floodplain disturbance in modern enviro

97 roots, total root avulsion, and partial root avulsion remains to be explored.

98 owth to ongoing deterioration due to a river avulsion removing the sediment supply.

99 By contrast, adult avulsion resulted in a type of degeneration that resembl

100 Dorsal root avulsion results in permanent impairment of sensory func

101 e first-order rules of avulsion suggest that avulsion risks are underestimated in many coastal enviro

102 accuracy for traumatic brachial plexus root avulsion(s), and early surgical exploration should remai

103 by an experienced neuroradiologist using an avulsion severity score system based on fast imaging emp

104 Following root avulsion, spinal nerves are physically disconnected from

105 These downstream changes in avulsion style can explain the abrupt transition from ch

106 m Andean, Himalayan, and New Guinean basins, avulsion style correlates with channel morphology and ch

107 These first-order rules of avulsion suggest that avulsion risks are underestimated

108 conventional snare resection and may require avulsion techniques to achieve cure.

109 deltas can support more frequent engineered avulsions to recover sinking land; however, there is a t

110 rrhagic choroidal detachment, tube and plate avulsion, tube exposure, and corneal endothelial damage.

111 urgery (n = 6), bilateral L5-S2 ventral root avulsion (VRA) injury (n = 5), or bilateral L5-S2 VRA fo

112 ratio and that for partial versus total root avulsion was 0.59, 0.76, and 0.91, respectively.

113 %-71%); the mean sensitivity of MRI for root avulsion was 93% (95% confidence interval [CI]: 77%, 98%

114 While recovery of function after spinal root avulsion was related demonstrably to surgery, there were

115 Using a novel model of rat cervical avulsion, we show that treatment with a retinoic acid re

116 s of MN death following neonatal axotomy and avulsion were similar, and both resembled most closely t

117 ly; eight of the nine cases of distal tendon avulsion were treated with primary surgical repair.

118 roots, partial root avulsion, and total root avulsion) were evaluated using the area under the receiv

119 MR dogs (1 month after partial mitral valve avulsion) were studied.

120 An especially impactful occurrence is avulsion, whereby channels unpredictably shift course.

121 , although its ability to differentiate root avulsions (which require urgent reconstructive surgery)

122 bruptly shift pathways in rare events called avulsions, which cause devastating floods.

123 models conflict on whether the occurrence of avulsions will change due to relative sea-level rise, ha

124 -triggered ground liquefaction and a channel avulsion would be catastrophic for any of the heavily po