ライフサイエンスコーパス: laceration

1 tient Safety Indicator, "Accidental Puncture/Laceration".

2 ting in direct muscle injuries (contusion or laceration).

3 complications (cerebral edema, femoral vein laceration).

4 d-globe injuries both contusion and lamellar laceration.

5 All had successful leaflet laceration.

6 had technically successful SESAME myocardial laceration.

7 t of novel models for second-degree perineal laceration.

8 wound dehiscence, and accidental puncture or laceration.

9 Tools are needed for second-degree perineal laceration.

10 wing partial tail amputation or gum and skin laceration.

11 s, and there were zero instances of arterial laceration.

12 PDI 1 refers to accidental puncture or laceration.

13 applied directly to a 4.1-mm linear central laceration.

14 0 mm Hg when used to secure a 4.1 mm central laceration.

15 iled to help differentiate UPJ avulsion from laceration.

16 ernal blood transfusion; and severe perineal lacerations.

17 harp objects that may result in punctures or lacerations.

18 he risk of third- and fourth-degree perineal lacerations.

19 ocanalicular stenting to address canalicular lacerations.

20 l tolerated in the management of canalicular lacerations.

21 lacerations and late presenting canalicular lacerations.

22 vement in the surgical repair of canalicular lacerations.

23 d abrasions, contusions, pressure ulcers and lacerations.

24 ular injuries include open-globe and adnexal lacerations.

25 copolymer successfully seals 4.1 mm corneal lacerations.

26 tissue adhesive effectively closes selected lacerations.

27 1.6%]), orbital fractures (14 [29.2%]), brow lacerations (10 [20.8%]), hyphema (9 [18.8%]), open glob

28 3 men [25.6%] vs 60 of 396 women [15.2%]) or laceration (156 of 404 men [38.6%] vs 94 of 398 women [2

29 lar or periocular injuries, including eyelid lacerations (17.6%), corneal abrasions (13.4%), and hyph

30 ading to surface injury (26 [54.2%]), eyelid lacerations (20 [41.6%]), orbital fractures (14 [29.2%])

31 ut (4 cm), liver punch biopsy (12 mm), liver laceration (3.0 x 1.5 cm), and spleen transection models

32 wed by traumatic cataract (46.8%) and limbus laceration (34.0%).

33 th MPN (open heart surgery to repair cardiac laceration [6 versus 0], injury to liver [1 versus 0], c

34 h as pneumo- (41.2%) and hemothorax (23.2%), lacerations (7.8%) and contusions (32.3%) of the lung, a

35 of bleeding (rat tail transection and liver laceration), a single IV dose of ciraparantag given at p

36 Lacerations account for a significant number of emergenc

37 ther delayed repair of traumatic canalicular laceration affects the final outcome.

38 e were 5 major complications with 3 vascular lacerations all occurring in zone 2 in the study.

39 sh of the terminal arterial segment 36%, and laceration and bleeding with extraluminal contrast agent

40 when E. lacertideformus was applied to skin laceration and mucosal abrasion groups.

41 ubgroup analysis, the incidence of bleeding, laceration and perforation after endoscopic RFA showed 0

42 The liver laceration and punch biopsy models resulted in most of t

43 Type of laceration and season of injury were associated with ret

44 The liver laceration and spleen transection models resulted in the

45 Adnexal injuries (eyelid lacerations and damage to lacrimal apparatus) were recor

46 y in patients with complex acute canalicular lacerations and late presenting canalicular lacerations.

47 e adhesives when used to seal 4.1-mm central lacerations and penetrating keratoplasties (PKPs) in enu

48 lications(9-11) include risks of infections, lacerations and perforations of the myocardium, and of d

49 omplex lesions (intramural hematoma, mucosal laceration) and minor lesions (petechiae, ecchymosis).

50 ure, intracranial bleeding, liver and spleen laceration), and which resulted in hospital and intensiv

51 evaluated in cases of atelectasis, pulmonary laceration, and a control group of CT scans obtained in

52 ltered such as muscular dystrophy, traumatic laceration, and contracture due to upper motor neuron le

53 , fracture, dislocation, bruise or hematoma, laceration, and reddened area) (median age, 81 years).

54 ent pupillary defect (APD), old age, scleral laceration, and retinal detachment.

55 a total of 434 contusions and abrasions, 89 lacerations, and 41 fractures and dislocations.

56 onatal admission, mode of delivery, perineal lacerations, and postpartum haemorrhage.

57 obstetric anal sphincter injuries, cervical lacerations, and postpartum hemorrhage.

58 patients with chest bruising, two with chest lacerations, and two with blood in mouth).

59 ion (aOR, 0.87; 95% CI, 0.78-0.97), perineal laceration (aOR, 0.43; 95% CI, 0.39-0.48), and ruptured

60 SIs included rates of accidental puncture or laceration (APL), postoperative pulmonary embolus or dee

61 1.11; 95% CI, 1.01-1.23) and major perineal laceration (aRR, 1.44; 95% CI, 1.03-2.01).

62 ions included all eligible nonmucosal facial lacerations, as well as selected extremity and torso lac

63 able for histological examination because of laceration at euthanasia, and the other PFO was clinical

64 access, Potts and Glenn shunts), and leaflet laceration (BASILICA, LAMPOON, ELASTA-Clip, and others).

65 Despite successful laceration, BASILICA or LAMPOON may fail to prevent obst

66 en represent a unique challenge in repairing lacerations because of their developmental and behaviora

67 the alleys where the patients had sustained lacerations before illness developed, kidney or brain ti

68 y, the patient was noted to have an abrasive laceration between the fourth and fifth metacarpophalang

69 Transcatheter electrosurgical aortic leaflet laceration (Bioprosthetic or Native Aortic Scallop Inten

70 Similarly, in a mouse liver laceration bleeding model, KD1-L17R was approximately 8-

71 lle, NJ) appear to be an ideal technique for laceration closure in children because they are easy and

72 with serious facial injury, ie, fractures or lacerations; controls were patients who had injuries oth

73 The most prevalent diagnoses were lacerations, contusions, and fractures.

74 Perineal lacerations could lead to substantial morbidities for wo

75 UPJ laceration, defined as contrast material extravasation f

76 The existing models for perineal lacerations during childbirth need external validation a

77 eplace the need for suturing several million lacerations each year.

78 BA leaflet laceration enhances leaflet splay in vitro and may allow

79 n developed to estimate the risk of perineal lacerations, especially third- and fourth-degree perinea

80 an injuries, extremity fractures, and facial lacerations, estimated by odds ratios (ORs) adjusting fo

81 y spinal cord damage through compression and laceration, followed by secondary damage consisting of i

82 ses of acute and late presenting canalicular laceration for canalicular reconstruction without any co

83 ation of ureteral filling differentiated UPJ laceration from avulsion.

84 urred after emergency delivery for placental laceration from fetoscopic balloon removal, and one neon

85 yces trapeziformis infections as a result of lacerations from airborne material.

86 A reliable prediction model for perineal lacerations has the potential to guide the prevention.

87 ntraoperative complications included mucosal laceration in six patients and hypercarbia in one.

88 present in 22 eyes, hyphema in 13 eyes, lid lacerations in 11 eyes, glaucoma in 8 eyes, iridodialysi

89 cular septal defects due to excessively deep lacerations in thin baseline septa.

90 The lacerations included all eligible nonmucosal facial lace

91 The myocardium splayed after laceration, increasing left ventricular outflow tract ar

92 (+) cells are protected from cardiotoxin and laceration-induced skeletal muscle fibrosis and angioten

93 , slow-adhering stem cells (SASCs) from both laceration-injured and control noninjured skeletal muscl

94 In vitro laceration injury modeling further confirmed fibronectin

95 2 and 4 weeks following gastrocnemius muscle laceration injury.

96 iately prior to tail transection (TT), liver laceration (LL), or intravascular laser injury (ILI).

97 l nerve paralysis, chylothorax, and tracheal laceration (<1% each).

98 l nerve paralysis, chylothorax, and tracheal laceration, <1% each.

99 Mucosal lacerations may affect the rank order of susceptibility

100 The liver laceration model resulted in a mean (SD) TBV loss of 19.

101 Using a mouse laceration model, we analyzed the in vivo effect of NS-3

102 and functions effectively in a murine liver laceration model.

103 n, r-Antidote restored hemostasis in a liver laceration model.

104 cluded pneumothorax (n=1), right ventricular laceration (n=1) and intercostal vessel injury with righ

105 rcostal vessel injury with right ventricular laceration (n=1); all were treated successfully.

106 ons (n = 6), bruises or hematomas (n = 105), lacerations (n = 113), and reddened areas (n = 31).

107 ons, as well as selected extremity and torso lacerations (not on hands, feet, or joints).

108 was traversed in two animals, and renal vein laceration occurred during two procedures because of fai

109 ortality for patients who experienced an SVC laceration (odds ratio, 0.13; 95% CI, 0.04-0.40; P<0.001

110 hological disintegration including severance/laceration of brain-cord axons at the lesion site.

111 Intentional laceration of the anterior mitral leaflet (LAMPOON) is a

112 Two patients had concomitant laceration of the anterior mitral leaflet to further aug

113 (NHLBI DIR LAMPOON Study: Intentional Laceration of the Anterior Mitral Leaflet to Prevent Lef

114 c coronary artery obstruction (BASILICA) and laceration of the anterior mitral leaflet to prevent out

115 Intentional laceration of the anterior mitral valve leaflet to preve

116 n membrane perforation, Underwood septa, and laceration of the lateral arterial blood supply to the m

117 Dissection (mural laceration of variable depth) was observed in 15 of 32 s

118 d for evidence of contrast extravasation and laceration or contusion extending into the hepatic vein(

119 hat developed prediction models for perineal lacerations or performed external validation of existing

120 ter thoracotomy revealed no hemopericardium, laceration, or bleeding on catheter withdrawal.

121 usions and none of the cases of atelectasis, laceration, or pneumonia (P = .0001).

122 The presence of lid laceration (p = 0.197) and uveal prolapse (p = 0.667) we

123 events of grade 3 (fracture, muscle injury, laceration, paralytic ileus, pain, presyncope, urinary r

124 alloon can occlude the SVC in the event of a laceration, preventing blood loss and offering a more co

125 t that time for a head injury, pneumonia, or laceration, puncture, or incision wounds.

126 r procedural sedation in children undergoing laceration repair were 0.4 and 0.5 mg/kg.

127 who underwent primary traumatic canalicular laceration repair were retrospectively reviewed.

128 This review focuses on three concepts in laceration repair where there have been significant adva

129 ion of joint dislocation, wound debridement, laceration repair, and multiple rib fractures.

130 l capabilities, which ranged from performing laceration repairs to performing organ transplants.

131 o-esophageal fistula, tamponade, or vascular laceration requiring surgery occurred.

132 bidities (ie, maternal transfusion, perineal laceration, ruptured uterus, unplanned hysterectomy, adm

133 sternal fracture, and pulmonary contusion or laceration seen on radiographs.

134 n by transplanting satellite cells to muscle laceration sites on a delivery vehicle releasing factors

135 mographic details, causative objects, ocular laceration specifics, surgical procedures, complications

136 uth, application to mucosal abrasion or skin laceration, subcutaneous injection, coelomic injection,

137 For leaflet laceration, the "Flying V" configuration concentrates cu

138 For the 4.1-mm central lacerations, the ([G1]-PGLSA-MA)(2)-PEG(3,400) at 20% an

139 especially third- and fourth-degree perineal lacerations, the evidence about the model quality and cl

140 rs (TT), achieve control (TC), and close the laceration (TL).

141 fe-threatening hemorrhage from an iatrogenic laceration to a right lobe graft 11 days after transplan

142 technique of balloon-augmented (BA) leaflet laceration to enhance leaflet splay.

143 trauma would vary from direct trauma such as laceration to plaque-derived inflammation.

144 sthetic or native aortic scallop intentional laceration to prevent iatrogenic coronary artery obstruc

145 sthetic or native aortic scallop intentional laceration to prevent iatrogenic coronary artery obstruc

146 sthetic or Native Aortic Scallop Intentional Laceration to Prevent Iatrogenic Coronary Artery Obstruc

147 postoperative characteristics of OGI injury, laceration versus rupture, history of intraocular surger

148 LAMPOON traversal and midline laceration was successful in 100%.

149 Laceration was the most common injury sustained (818 [61

150 logy revealed that geckos inoculated by skin laceration were observed to have more extensive disease

151 Leaflet traversal and laceration were technically successful in all.

152 One hundred six lacerations were available for early follow-up, and 98 w

153 udies with 22 prediction models for perineal lacerations were included.

154 n a blinded fashion, 10 (31%) of the splenic lacerations were missed and 17 (53%) were downgraded.

155 l conditions, fungal symptoms, and ulcers or lacerations were more common in men, while bunions and c

156 The existing models for perineal lacerations were poorly validated and evaluated, among w

157 Lacerations were randomly allocated to have skin closure

158 Lacerations were stable and did not propagate after SESA

159 neiderian membrane perforations and arterial lacerations when a piezoelectric surgical unit was used

160 ldren aged 6 months to 7 years with a simple laceration who required IN midazolam to facilitate the r

161 cedure was repair of non-perforating corneal lacerations with or without foreign body removal (n = 18

162 All had successful target leaflet laceration without left ventricular outflow obstruction

163 xcept for perforating corneal and/or scleral lacerations without uveal tissue involvement.

164 Our study was extended to a laceration wound model infected with Acinetobacter bauma