ライフサイエンスコーパス: microsurgery

1 nioserosa cells are removed via mutations or microsurgery.

2 ing higher plant (Haemanthus) cells by laser microsurgery.

3 gical anastomosis is a powerful technique in microsurgery.

4 s in fragile rings and in rings cut by laser microsurgery.

5 ge in studies using live-cell microscopy and microsurgery.

6 as infection, fertility, drug delivery, and microsurgery.

7 of providing image-guided vitreoretinal (VR) microsurgery.

8 cell and incompatible with microscopy and/or microsurgery.

9 to 10 volumes per second to visualize human microsurgery.

10 sues to regulate forces in response to laser microsurgery.

11 ir of neurons severed by injury, disease, or microsurgery.

12 ar groove of 8-week-old mice (n=265) through microsurgery.

13 dendrites or axons were removed using laser microsurgery.

14 true cost-benefit ratio for robotic assisted microsurgery.

15 n the operating microscope was introduced in microsurgery.

16 n the operating microscope was introduced in microsurgery.

17 assess the true benefit for robotic-assisted microsurgery.

18 assays in combination with femtosecond laser microsurgery.

19 true cost-benefit ratio for robotic assisted microsurgery.

20 surgery, ophthalmological surgery, and other microsurgeries.

21 has improved the accuracy and the safety of microsurgeries.

22 Treatment modalities included Mohs microsurgery (31.1%), wide local excision (WLE) with par

23 s these procedures could standardize cranial microsurgeries across neuroscience laboratories and demo

24 n techniques, stereotactic radiosurgery, and microsurgery, allowing effective multidisciplinary treat

25 divided into two groups: those who underwent microsurgery alone (n=245) and those who received preope

26 tcomes or reduce complications compared with microsurgery alone.

27 uction of damage to the nucleolinus by laser microsurgery altered the trafficking of alpha- and gamma

28 on microscope with a laser ablation unit for microsurgery and an optical tweezer for cell micromanipu

29 Laser microsurgery and behavioral experiments reveal that sens

30 e we test this assumption by combining laser microsurgery and chemical biology assays in cultured mam

31 Laser microsurgery and finite element modeling are used to det

32 Here we used laser microsurgery and inhibitors of topoisomerase IIalpha to

33 gies that enable significant improvements in microsurgery and interrogation of small multicellular mo

34 We use microsurgery and laser ablation to remove the centrosome

35 mbryonic stages using a combination of laser microsurgery and microinjection.

36 We applied a combination of laser microsurgery and quantitative polarization microscopy to

37 Safety outcomes were the risk of salvage microsurgery and radiation-associated complications.

38 time, with advances in both transoral laser microsurgery and RT designed to become more targeted and

39 Transoral laryngeal microsurgery and transoral robotic partial laryngectomy

40 upon tumor growth, 1 (2%) underwent salvage microsurgery, and 28 (56%) remained untreated.

41 ptical zoom-in imaging, 3D free-form optical microsurgery, and 3D visualization and annotation of ter

42 ery upon tumor growth, 2 (4%) needed salvage microsurgery, and 45 (94%) had no additional treatment.

43 ion of these device-enabled studies requires microsurgery approaches that reliably interface bioelect

44 The implications for single cell lysis and microsurgery are discussed.

45 ht microscopy, making it accessible by laser microsurgery as well as isolation by common cell fractio

46 We performed thousands of microsurgeries at single-axon precision in the nematode

47 ular microrobots could aid drug delivery and microsurgery by allowing a single system to navigate div

48 aging and regeneration, as well as for laser microsurgery, Ca2+ imaging and three-dimensional microsc

49 at Kiev Clinical Ophthalmology Hospital Eye Microsurgery Center, Kiev, Ukraine, operated on by 1 sur

50 upied by neighbour cells ablated using laser microsurgery change fate.

51 to worsening in neurological function after microsurgery compared with those presenting with hemorrh

52 dent centrioles (by laser ablation or needle microsurgery) does not impede cell cycle progression in

53 Microsurgery experiments, in combination with electrophy

54 involved in wound healing as evidenced from microsurgery experiments.

55 n in a single institution, and introducing a microsurgery fellowship program.

56 By combining live-cell imaging with laser microsurgery, fluorescence recovery after photobleaching

57 vestibular schwannoma who underwent salvage microsurgery following failed primary SRS/FSRT in 7 vest

58 e than half of patients who received salvage microsurgery following primary SRS/FSRT underwent less t

59 sion manipulations such as femtosecond laser microsurgery for large-scale in vivo neural degeneration

60 Early microsurgery for small tumours results in optimal preser

61 erm AV loop placement in patients undergoing microsurgery has an impact on cardiac biomarkers and cir

62 Laser microsurgery has led to remarkable discoveries in a numb

63 Laser microsurgery has long been an important means of assessi

64 Minimally-invasive microsurgery has resulted in improved outcomes for patie

65 ngle arterial anastomosis was performed with microsurgery in 10 of 11 patients.

66 entrosomes are completely destroyed by laser microsurgery in CHO cells arrested in S phase by hydroxy

67 may evolve into an attractive alternative to microsurgery in ependymomas located in eloquent areas or

68 scence microscopy, photobleaching, and laser microsurgery in the fission yeast Schizosaccharomyces po

69 New techniques and the implementation of microsurgery in the transplant operation made this proce

70 In this issue, Cojoc et al. use laser microsurgery in vivo to measure and study the viscoelast

71 Reconstructive microsurgery is a clinical technique used to transfer la

72 Femtosecond laser microsurgery is a powerful method for studying cellular

73 Laser microsurgery is a powerful tool for neurobiology, used t

74 Cranial microsurgery is an essential procedure for accessing the

75 Though the use of robotics in microsurgery is still in its early phases, initial findi

76 mplex behavior in flies and found that laser microsurgery is sufficiently gentle to leave it intact.

77 Holographic laser microsurgery is used to isolate single amnioserosa cells

78 , allowing a "proteomic dissection" in which microsurgery is used to separate cellular fragments alon

79 n the operating microscope was introduced in microsurgery is yet to be seen.

80 rding of near-field action potentials during microsurgeries may allow for the precise identification

81 ated by 11 surgeons with training in hand or microsurgery (mean [SD] age, 41.9 [15.2] years; 204 [90%

82 introduction of the operating microscope and microsurgery more than 40 years ago.

83 By a combination of embryo microsurgery, mRNA injection and antisense morpholino ex

84 eived preoperative embolization, followed by microsurgery (n=241).

85 e management of surgical pathology and guide microsurgery of any human tissue.

86 orm subcellular-resolution femtosecond laser microsurgery of single neurons in vivo, and to image the

87 -field action potentials continuously during microsurgeries, offers higher signal-to-noise ratios and

88 t surface profiler for performing CNC-guided microsurgery on mice.

89 vances for modern endodontics and endodontic microsurgery on the long-term prognosis of tooth retenti

90 % with no significant difference between the microsurgery-only group and the preoperative embolizatio

91 For larger tumors (prevalent Koos VI), microsurgery or combined treatment strategies are mostly

92 ere, we introduce the "Craniobot", a cranial microsurgery platform that combines automated skull surf

93 sts has increased, the corresponding cranial microsurgery procedures to deploy them have become more

94 fabrication, stem cell biology, bioimaging, microsurgery procedures, and microscale technologies hav

95 Laser microsurgery provides a means by which to dissect the me

96 Laser microsurgery revealed an important role of microtubule a

97 Cortical laser microsurgery revealed that during cytokinesis progressio

98 these concerning reports of complication, a Microsurgery Safety Task Force was convened to evaluate

99 The guidelines of the Microsurgery Safety Task Force, evolutions in instrument

100 rotocol for constructing a femtosecond laser microsurgery setup for use with a widely available compo

101 However, in patients not suited for microsurgery, SRS might also be an alternative to balanc

102 cations of the m-bots in diagnosis, sensing, microsurgery, targeted drug/cell delivery, thrombus abla

103 CAF with microsurgery technique was applied.

104 eloped novel microfluidic trapping and laser microsurgery techniques in Chlamydomonas to distinguish

105 ion of rectal tumors is transanal endoscopic microsurgery (TEM), a complex and expensive technique.

106 Laser microsurgery that targeted the nucleolinus resulted in f

107 hen individual K-fibers are severed by laser microsurgery, they regrow from the kinetochore outward v

108 al robotic surgery (TORS) or transoral laser microsurgery (TLM) offer excellent oncological outcomes

109 In addition, using microsurgery to alter the distance of centrosomes from c

110 e takes ~40 min for operators experienced in microsurgery to complete, and six to eight surgeries can

111 We used laser microsurgery to cut between the two sister kinetochores

112 ochore motility was investigated using laser microsurgery to detach kinetochores with associated chro

113 pies, lattice light-sheet imaging, and laser microsurgery to examine how midzone organization sets it

114 We use laser microsurgery to explore the biophysical properties of co

115 we combined two-photon microscopy and laser microsurgery to image the real-time reorganization of co

116 s of fibrous microtissues and robot-assisted microsurgery to perform local incisions and implantation

117 This feature allows us to use laser microsurgery to selectively destroy the centrosomes in l

118 We used video-light microscopy and laser microsurgery to test the hypothesis that as a bioriented

119 Following salvage microsurgery, tumor growth-free survival rates at 1, 3,

120 whole laryngeal radiotherapy (WLRT), whereas microsurgery typically resects only the tumor-involving

121 somes are destroyed during prophase by laser microsurgery, vertebrate somatic cells form bipolar acen

122 nts, the median (IQR) age at time of salvage microsurgery was 62 (53-70) years, 69 (55%) were female,

123 Microsurgery was performed on 3-month-old transgenic mic

124 s throughout the latter's early development, microsurgery was used to remove allantoises at ten devel

125 th green fluorescent protein (GFP) and laser microsurgery we have been able to selectively destroy ce

126 h the appendix had been rendered germfree by microsurgery (we refer to these rabbits as germfree-appe

127 f extremely precise femtosecond pulsed laser microsurgery, we abruptly alter the magnitude of polar e

128 By using laser microsurgery, we cut mitotic spindles labeled with GFP-t

129 roughput microfluidics and femtosecond laser microsurgery, we demonstrate for the first time large-sc

130 tic microtubules were severed by laser-based microsurgery, we detected equal numbers of plus- and min

131 rgan segregation, made possible by embryonic microsurgeries wherein halves of 2 differently colored e

132 allows interfacing with the brain is cranial microsurgery, wherein small to large craniotomies are pe

133 xtensively studied platform which integrates microsurgery with cells scaffolds and growth factors to