ライフサイエンスコーパス: endoscope

1 ere adapted for instrumentation aided by the endoscope.

2 imaged in vitro with the magnetic resonance endoscope.

3 earing procedures compared with an untreated endoscope.

4 pass through the biopsy channel of a medical endoscope.

5 al mucosa through the working channel of the endoscope.

6 ssociated with passing of the standard adult endoscope.

7 re located in areas easily accessible by the endoscope.

8 ndoscope with minimal alterations to a rigid endoscope.

9 andomized to receive SRP with or without the endoscope.

10 tract may be achieved primarily through the endoscope.

11 he preferable modality applied through rigid endoscopes.

12 doscope reprocessors (AERs) for disinfecting endoscopes.

13 e been demonstrated using current commercial endoscopes.

14 of tissue in a living animal with a catheter-endoscope 1 millimeter in diameter.

15 We present a compact and flexible endoscope (3-mm outer diameter, 4-cm rigid length) that

16 inse samples collected from the BC of the GI endoscopes, 300 were obtained from the BCs of gastroscop

17 scopic picture of the fundus provided by the endoscope, a poor visual prognosis in 17 eyes with retin

18 ls have limited the method to superficial or endoscope-accessible lesions.

19 83 procedures were completed with a standard endoscope (adult, pediatric, or gastroscope).

20 e effectiveness of the decontamination of GI endoscopes after HLD than culturing the swab samples obt

21 Nanoscale endoscopes allow minimally invasive probing of individua

22 A 3.4-mm endoscope and a pulsed dye coumarin green laser were use

23 oscopic banding, a ligator is attached to an endoscope and a tight band is placed around the enlarged

24 as designed for insertion through a clinical endoscope and has the potential to detect and quantify t

25 y can often be accomplished using a standard endoscope and is not attributed to increased endoscope i

26 Obtaining rectal biopsies with a flexible endoscope and jumbo forceps after bowel preparation with

27 endoscopic ultrasound, ultra-slim transnasal endoscopes and laparoscopic-assisted procedures, have en

28 Environmental samples from endoscopes and the endoscopy suite were cultured.

29 es obtained from biopsy channels (BCs) of GI endoscopes and the internal surfaces of AERs.

30 y power-hungry intrusive optical fibre based endoscopes and to extend the range of clinical examinati

31 ctrometers, minimally invasive catheters and endoscopes, and novel optical and signal processing stra

32 h inadvertent use of unsterile pH probes and endoscopes, and vectorial spread by flies.

33 In addition, adjunctive devices, such as the endoscope, are being employed along with the eyelid crea

34 Using this endoscope as a key part of a multiplexed detection appro

35 n the confines of this study, the use of the endoscope as an adjunct to traditional SRP provided no s

36 Both endoscope-based (eCLE) and probe-based (pCLE) CLE system

37 ir potential for clinical translation (e.g., endoscope-based and intraoperative imaging as tools for

38 Here we present a multifunctional endoscope-based interventional system that integrates tr

39 rely on the visual feedback provided by the endoscope camera, which is routinely compromised when bo

40 e is filled with magnetic nanoparticles, the endoscope can be remotely manoeuvered to transport nanop

41 that through light-activated mechanisms the endoscope can deliver payloads into cells with spatial a

42 present a miniaturised wireless fluorescence endoscope capsule with low power consumption that will p

43 emphasize the benefits of manually brushing endoscope channels and using automated endoscope reproce

44 phasizes the need for continued vigilance in endoscope cleaning techniques.

45 A novel, endoscope-compatible a/LCI system measured the mean diam

46 vanescent wave spectroscopy (FEWS)-FTIR with endoscope-compatible fiber-optic silver halide probes is

47 Endoscope-compatible microscopies, such as optical coher

48 The magnetic resonance endoscope consists of a nonferromagnetic endoscope with

49 The endoscope consists of two flexible imaging fibers; one t

50 ment-cleaning machines, and gastrointestinal endoscopes did not.

51 Indications for endoscope-enabled intraoperative viewing during pars pla

52 ng either a temporary keratoprosthesis or an endoscope; endoscopic cyclophotocoagulation for intracta

53 , suction, and even temporary removal of the endoscope for external cleaning.

54 We applied the FP/HW Raman endoscope for in vivo tissue Raman measurements of vario

55 Here, we report a carbon-nanotube-based endoscope for interrogating cells, transporting fluids a

56 new waveguiding structure, we demonstrate an endoscope for terahertz pulses.

57 Here, we describe a suction-assisted endoscope for visualizing fluorescently labeled cells an

58 ing human NOTES operations from the flexible endoscope from different perspectives to induce disorien

59 The dental endoscope gives the clinician direct, real-time visualiz

60 The advent of the endoscope has prompted renewed interest in the intranasa

61 Use of microscopes and endoscopes has allowed these procedures to become progre

62 The video capsule "endoscope" has allowed for the direct visualization of t

63 Camera-guided instruments, such as endoscopes, have become an essential component of contem

64 an attached retina on ultrasound B-scan, the endoscope helped in detecting a glaucomatous disc in 10

65 es in technology and improved quality of the endoscopes image make the technique easy to use with a r

66 Magnetic endoscope imaging (MEI), a new non-radiographical techni

67 Reduction in the size of the endoscopes, improvements in electronic imaging systems,

68 We characterized the performance of this endoscope in tissue phantoms and in an in vivo model of

69 ial applications of the Mueller polarimetric endoscope include wide field early epithelial cancer dia

70 Endoscopes, including bronchoscopes, are the medical dev

71 endoscope and is not attributed to increased endoscope insertion time.

72 Using a minimally invasive endoscope integrated into a confocal microscope, we perf

73 Moreover, insertion of the endoscope into cells and illumination of the guided lase

74 other unique feature of our noncontact Raman endoscope is that it has been designed for efficient use

75 uodenoscopy (EGD) using conventional 8-11-mm endoscopes is an alternative to sedated endoscopy but is

76 Unsedated EGD using ultrathin 5-6-mm endoscopes is better tolerated.

77 upper urinary tract using rigid or flexible endoscopes is now readily feasible and has been shown to

78 However, current multimodal endoscopes lack the spatial resolution necessary to dete

79 nt a repellent, liquid-infused coating on an endoscope lens capable of preventing vision loss after r

80 tegration with small, relatively inexpensive endoscopes, low cost, and lack of a need for a transduci

81 instrument channels of gastrointestinal (GI) endoscopes may be heavily contaminated with bacteria eve

82 New technologies, using smaller endoscopes, may allow more cost-effective screening in s

83 reteroscopic lithotripsy have increased with endoscope miniaturization and powerful, precise endoscop

84 trarenal calculi with the development of new endoscopes, more effective grasping devices, and the hol

85 sing trauma to tissue with a traditional OCT endoscope of a 1-1.5 mm diameter.

86 Thinner endoscopes offer adequate visualization with improved pa

87 may be successful with the use of alternate endoscopes or careful attention to technique but limited

88 The fiberoptic endoscope, or fiberscope, was a flexible instrument that

89 died p53 antibodies in plasma of 88 serially endoscoped patients: 36 with Barrett's metaplasia, 23 wi

90 RECENT FINDINGS: Critical lapses in endoscope processing and administration of intravenous s

91 rasound lithotripters employed through rigid endoscopes provide high fragmentation rates (97-100%) an

92 ted on conventional glass micropipettes, the endoscopes readily fit standard instruments, creating a

93 Inadequate flexible endoscope reprocessing has been associated with infectio

94 s review describes the current standards for endoscope reprocessing, associated outbreaks, and the co

95 shing endoscope channels and using automated endoscope reprocessors (AERs) for disinfecting endoscope

96 The use of the periodontal endoscope resulted in a statistically significant overal

97 er, at deeper probing depths, the use of the endoscope resulted in significantly less residual calcul

98 The endoscope's imaging capabilities were demonstrated by im

99 Thus, the endoscope serves for imaging, for light delivery to trig

100 Use of all available endoscopes should be considered prior to procedure termi

101 In vitro imaging with the magnetic resonance endoscope shows three to five wall layers of the porcine

102 This report describes an endoscope specifically designed for this purpose and the

103 ptical contrast techniques incorporated into endoscopes, such as narrow band imaging (Olympus), i-Sca

104 Endoscope technology has been successfully adapted for u

105 Medical endoscope technology was modified for application in the

106 Advancements in video imaging, endoscope technology, and instrumentation have made it p

107 rovements and new developments in fiberoptic endoscope technology, training of airway endoscopists, p

108 nd evaluate a dual-modal, dual-channel light endoscope that allows quantitative reflectance and fluor

109 a novel 785 nm excitation fiber-optic Raman endoscope that can simultaneously acquire in vivo finger

110 ocedurally, a handheld device composed of an endoscope that fits coaxially through a standard 17-gaug

111 The recent introduction of 23-gauge endoscope that works with standard microcannulas increas

112 Advanced endoscopes that combine imaging and therapies within the

113 portunities in the design of next-generation endoscopes that will improve visual field, display unpre

114 se of conventional tools such as catheter or endoscope to insert and remove the IGBs from the patient

115 ar canal or as complex as a wireless capsule endoscope to monitor the gastrointestinal tract.

116 ract were imaged with the magnetic resonance endoscope using up to four different scanning sequences.

117 Moreover, endoscope video recordings in vivo, during VCN-triggered

118 The endoscope was also inserted into a live organism, the ye

119 Gastroenterologists' expertise with flexible endoscope was critical in the above cases.

120 A fiber-optic periodontal endoscope was developed to aid in the visualization of s

121 The dental endoscope was developed to facilitate visualization of t

122 A flexible video endoscope was inserted into the rectum and positioned in

123 A 5.3-mm endoscope was placed through the other nostril to obtain

124 In 69.4% of cases, an endoscope was used to successfully complete colonoscopy

125 etracting limitations of currently available endoscopes, we used a 5-mm curved or articulating retrac

126 lude portable handheld microscopes, flexible endoscopes well suited for imaging within hollow tissue

127 Video images from the endoscope were analyzed to determine the regional variat

128 The endoscope, which is made by placing a multiwalled carbon

129 f a nonferromagnetic magnetic resonance (MR) endoscope with a 3-cm-long receive-only coil embedded in

130 nce endoscope consists of a nonferromagnetic endoscope with a receiver coil incorporated into its tip

131 astases in in vivo models using an operating endoscope with fluorescent filters.

132 e field high definition Mueller polarimetric endoscope with minimal alterations to a rigid endoscope.

133 to determine whether use of the periodontal endoscope with scaling and root planing (SRP) resulted i