ライフサイエンスコーパス: gastrostomy

1 considered a contraindication for radiologic gastrostomy.

2 centers accounted for nearly all feeding by gastrostomy.

3 d-state pressure transducer placed through a gastrostomy.

4 sac approach or the minilaparoscopic cystic gastrostomy.

5 of aspiration after revision of her feeding gastrostomy.

6 ), common bile duct exploration (24.9% MIS), gastrostomy (25.9% MIS), abdominal exploration (33.1% MI

7 were fed on demand, 54 by NG tube, and 10 by gastrostomy; 26 switched from NG to gastrostomy; and 6 r

8 1702402]), gastroschisis (9.5% [$34940331]), gastrostomy (5.8% [$21227436]), and small-intestinal atr

9 cluding 643 gastrojejunostomies (92%) and 58 gastrostomies (8.3%).

10 he need for research on the effectiveness of gastrostomy, access to non-invasive ventilation and pall

11 entions such as non-invasive ventilation and gastrostomy also extend survival.

12 zed: Only 9% undergo percutaneous endoscopic gastrostomy, although this procedure was recommended in

13 copically directed percutaneous placement of gastrostomy and gastrojejunostomy catheters with routine

14 Gastrostomy and jejunostomy can be successfully placed u

15 standing the advantages and disadvantages of gastrostomy and jejunostomy techniques.

16 ional involvement of a third region, needing gastrostomy and non-invasive ventilation.

17 drainage of proximal esophagus, percutaneous gastrostomy, and antibiotics.

18 nd 10 by gastrostomy; 26 switched from NG to gastrostomy; and 6 returned from NG to demand feeding.

19 olvement of third region; Stage 4A: need for gastrostomy; and Stage 4B: need for non-invasive ventila

20 Gastrostomies are frequently placed in older individuals

21 gion at 38%, a third region at 61%, need for gastrostomy at 77% and need for non-invasive ventilation

22 echniques described, the authors prefer cyst gastrostomy by the lesser sac approach or the minilaparo

23 months) basis using a chronically implanted gastrostomy catheter and a flow-through swivel system.

24 A balloon and gastrostomy catheter were implanted into the stomach.

25 Placement of mushroom-retained gastrostomy catheters is a viable long-term treatment op

26 pacing, secretions, nutrition, dysphagia and gastrostomy, communication problems, mobility, spasticit

27 -like manner (two consecutive feedings), (2) gastrostomy control (GC) fed isocaloric milk formula via

28 urified from biofilms colonizing 18 silicone gastrostomy devices (12 "buttons" and six tubes converte

29 Percutaneous endoscopic gastrostomy feeding is well established, and follow-up s

30 inability to walk, bradykinesia, scoliosis, gastrostomy feeding, age of seizure onset, and late age

31 The use of gastrostomy feeding, biocompatible dialysis fluid, and g

32 F patients receiving percutaneous endoscopic gastrostomy feeding.

33 f demand feeding and increased during NG and gastrostomy feeding.

34 n nasogastric, 19 on percutaneous endoscopic gastrostomy feeds) and entered into the study.

35 Anesthetized rats had placement of a gastrostomy, followed 1 wk later by implantation of a ba

36 is an independent prognostic factor; whether gastrostomy improves survival and quality of life remain

37 asis for recommending placement of a feeding gastrostomy in ALS patients who fail to meet their energ

38 for reduction of postpercutaneous endoscopic gastrostomy infections.

39 Percutaneous endoscopic gastrostomy insertion may be possible without prior tran

40 In 1991, claims reflecting gastrostomy insertion were submitted for 81105 older Med

41 he diet, because TPN solution fed orally via gastrostomy instead of i.v. maintains NT anti-influenza

42 on for patients when percutaneous endoscopic gastrostomy is not indicated because of anatomical or ga

43 n fundoplication, appendectomy, splenectomy, gastrostomy/jejunostomy, orchidopexy, and cholecystectom

44 urgery, swallowing studies with percutaneous gastrostomy, mammography with breast biopsy and excision

45 ental feeding via a nasogastric (NG) tube or gastrostomy may improve growth, but this is not well und

46 Placement of a 14-F gastrostomy or gastrojejunostomy catheter was then accom

47 d for fluoroscopically directed percutaneous gastrostomy or gastrojejunostomy during a 9 1/2-year per

48 In 316 consecutive patients, radiologic gastrostomy or gastrojejunostomy with T-fastener gastrop

49 ry routinely receive percutaneous endoscopic gastrostomy (PEG) due to swallowing difficulty or lack o

50 at gastric juice and percutaneous endoscopic gastrostomy (PEG) feeding devices might yield MABSC isol

51 nce of living with a percutaneous endoscopic gastrostomy (PEG) in order to increase the understanding

52 Percutaneous endoscopic gastrostomy (PEG) is an effective and safe mode of enter

53 ients were allocated percutaneous endoscopic gastrostomy (PEG) or nasogastric feeding.

54 eral nutrition via a percutaneous endoscopic gastrostomy (PEG) tube is often part of management in pa

55 for the placement of percutaneous endoscopic gastrostomy (PEG) tubes are not available.

56 tracheostomy (BDT), percutaneous endoscopic gastrostomy (PEG), and inferior vena cava (IVC) filter p

57 Gastrostomy placement can affect normal innate defense m

58 r deceased from a hospital in 1991 following gastrostomy placement.

59 o cases of peritonitis, tract disruption, or gastrostomy-related death.

60 atients had an intraperitoneal leak from the gastrostomy requiring operative repair.

61 ts, while the management of appendicitis and gastrostomy should be considered high-priority condition

62 Time fed by gastrostomy significantly associated with higher lengths

63 chnique, and risk of percutaneous endoscopic gastrostomy site metastasis in head and neck cancer pati

64 use of mechanical ventilation, percutaneous gastrostomy, sociodemographic variables and a host of co

65 on rates similar to those reported for other gastrostomy techniques.

66 n therapy involves endoscopic placement of a gastrostomy tube (A-Tube) and the AspireAssist siphon as

67 Gastrostomy tube (GT) placement is the most common gastr

68 hed wild type mice were fed via an implanted gastrostomy tube a high-fat diet for 9 weeks in the incr

69 One (2%) of 44 patients was dependent on a gastrostomy tube at 3 months and none was dependent 6 mo

70 require supplementation with nasogastric or gastrostomy tube at discharge from neonatal surgery.

71 Endoscopic or surgical insertion of a gastrostomy tube during a hospitalization.

72 discusses the complications associated with gastrostomy tube exchange and proposes a planned protoco

73 d proposes a planned protocol for successful gastrostomy tube exchange.

74 ube in the gastric lumen after a challenging gastrostomy tube exchange.

75 Supplemental nasogastric or gastrostomy tube feeding was carried out during the bloo

76 Use of supplemental gastrostomy tube feeds has improved calorie-protein maln

77 renteral nutrition (n = 11) through either a gastrostomy tube or a catheter placed in the jugular vei

78 ncluded poor functional level, presence of a gastrostomy tube or decubitus ulcers, and prior receipt

79 No patient required a gastrostomy tube or tracheotomy.

80 ere dosed at 12-hour intervals by means of a gastrostomy tube placed previously.

81 resection, stenting, percutaneous endoscopic gastrostomy tube placement and photodynamic laser therap

82 nt studies involving percutaneous endoscopic gastrostomy tube placement have demonstrated equivalent

83 Gastrostomy tube placement was successful in 63 (98%) of

84 01), resulting in a higher rate of temporary gastrostomy tube placement, 46% v 20% (P <.01).

85 ucosal resection, stenting, and percutaneous gastrostomy tube placements.

86 Percutaneous placement of a pull-type gastrostomy tube was performed with a minimum risk of tr

87 A gastrostomy tube was placed for daily aspiration of gast

88 Then the gastrostomy tube was pulled through from the mouth into

89 methoprim-sulfamethoxazole and presence of a gastrostomy tube were independent predictors of resistan

90 els of subgingival bacteria and yeasts in 20 gastrostomy tube-fed children and 24 healthy controls.

91 ating well or satisfactorily, and none had a gastrostomy tube.

92 gestion of a hand sanitizer product into his gastrostomy tube.

93 patients fed orally, and for patients fed by gastrostomy tube.

94 A gastropexy enables routine use of larger gastrostomy tubes and ready replacement of a displaced t

95 iratory disorders; and device use, including gastrostomy tubes and tracheostomies, was determined.

96 All patients who received pull-type gastrostomy tubes between 2010 and 2013 were retrospecti

97 ss for patients with percutaneous endoscopic gastrostomy tubes compared with those with nasogastric t

98 nasogastric tubes to percutaneous endoscopic gastrostomy tubes may be a successful strategy to reduce

99 20 mo; age range, 2-46 mo) fed orally or by gastrostomy tubes were evaluated.

100 tember 1995 through March 1997, 63 pull-type gastrostomy tubes were placed in 64 patients.

101 idisciplinary teams, mechanical ventilation, gastrostomy tubes, lipid-lowering agents and symptom man

102 used more chronic technologies (ventilators, gastrostomy tubes, tracheostomy tubes, and parenteral nu

103 rough nasogastric or percutaneous endoscopic gastrostomy tubes, were included in this study.

104 vival with placement of new tracheostomy and gastrostomy tubes.

105 Cerebral angiogram, craniotomy, and gastrostomy were independently associated with absence o

106 istention or acid administration through the gastrostomy were recorded from the acromiotrapezius musc