ライフサイエンスコーパス: excimer laser

1 was produced by ablation using a 193 nm ArF excimer laser.

2 using a low energy, short-pulse, fiberoptic excimer laser.

3 er sheath powered by a 308-nm xenon chloride excimer laser.

4 ive keratectomy (PRK) was performed using an excimer laser.

5 erwent uniform 6-mm ablation with a scanning excimer laser.

6 ances including narrowband ultraviolet B and excimer laser.

7 with photorefractive keratectomy (PRK) using excimer laser.

8 opic LASIK surgery using a 200-Hz Allegretto excimer laser.

9 is based on the maximum ablation zone of the excimer laser.

10 reatment of astigmatism is possible with the excimer laser.

11 rent from cutting balloon (0.73 [0.31-1.5]), excimer laser (0.89 [0.29-2.7]), rotational atherectomy

12 article studies via direct comparison to the excimer laser (193 nm wavelength, approximately 10 ns pu

13 ia coli ribosomes were irradiated with a KrF excimer laser (248 nm, 22 ns pulse) with incident pulse

14 Four PMMA lenses received an excimer laser ablation of -6 D with a 6-mm optical zone

15 Uniform scanning excimer laser ablation of the corneal stroma produces a

16 nce of excess soluble GFAP and after surface excimer laser ablation through the internal limiting mem

17 Fabrication of microfluidic devices by excimer laser ablation under different atmospheres may p

18 his mechanism is different from ArF- and KrF-excimer laser ablation where absorption of ultraviolet r

19 ein and mRNA were measured during healing of excimer laser ablation wounds in rat corneas.

20 Fss system may reduce corneal scarring after excimer laser ablation.

21 Transepithelial excimer laser ablations were performed on mouse corneas,

22 ent LASIK surgery using the sixth-generation excimer laser Amaris with cyclotorsion control and a fem

23 Both excimer laser and incisional techniques may be used to c

24 Using a 193-nm pulsed excimer laser and the fruit fly as a model, we created o

25 linical and laboratory studies involving the excimer laser and the laser-assisted in-situ keratomileu

26 Patients were treated with an excimer laser and the LASIK technique between 2000 and 2

27 Rabbit corneas were ablated with an excimer laser and were observed and graded for haze via

28 tion atherectomy (37 +/- 16%, p < 0.001) and excimer laser angioplasty (37 +/- 16%, p < 0.001) and lo

29 l safety, mechanisms, and 6-month results of excimer laser angioplasty (ELCA)+adjunct PTCA for the tr

30 tional atherectomy (Rotablator) (n = 211) or excimer laser angioplasty (n = 237).

31 onal atherectomy, extraction atherectomy and excimer laser angioplasty can facilitate the results of

32 so observed after extraction atherectomy and excimer laser angioplasty for ostial lesions, but not fo

33 angioplasty after rotational atherectomy and excimer laser angioplasty provides better lumen enlargem

34 asty, directional or rotational atherectomy, excimer laser angioplasty, or Palmaz-Schatz stents.

35 nary atherectomy, rotational atherectomy, or excimer laser angioplasty.

36 Excimer laser annular keratectomy was performed in thy1-

37 Excimer laser-assisted removal is effective in removing

38 The excimer laser at a frequency of 1 Hz was used as the aim

39 ) phosphine HCl and irradiated with a 308-nm excimer laser at physiologically relevant UV doses and w

40 Excimer laser-based refractive surgery techniques have b

41 ts of the individual patient and the type of excimer laser being used.

42 Excimer laser corneal surgery for fine-tuning residual a

43 pared the mechanisms and clinical results of excimer laser coronary angioplasty (ELCA) versus rotatio

44 een made in developing other system, such as Excimer laser energy for lead extraction.

45 Of 1082 excimer laser extractions over 19 years, 33 sustained an

46 ur mandatory administrative database for all excimer laser extractions that sustained a cardiac or ve

47 Here we present xenon chloride excimer laser-induced melt-mediated phase separation and

48 The excimer laser interacts with the nonablated residual str

49 Thus, excimer laser irradiation of p,p'-dimethyldiphenyldiazom

50 Refractive surgery with excimer laser is a promising option for the treatment of

51 In the early stages of wound healing after excimer laser keratectomy (days 3 and 7), type XVIII col

52 For wound-healing experiments, excimer laser keratectomy and single linear incisions we

53 surface occupied by neovascularization after excimer laser keratectomy in the matrilysin-deficient mi

54 basement membrane, and epithelium (anterior excimer laser keratectomy) and a superficial wound restr

55 tromal tissue is excised (by trephination or excimer laser keratectomy).

56 early stages of corneal wound healing after excimer laser keratectomy.

57 0 adult Sprague-Dawley rats was treated with excimer laser keratectomy; the other eye was untreated.

58 ycarbonate was postmodified with a pulsed UV excimer laser (KrF, 248 nm) to create a series of slante

59 A pulsed UV excimer laser (KrF, 248 nm) was used to modify the surfa

60 However, ultraviolet excimer laser light dissolves instead of tearing the tis

61 ttern obtained by the transmission of 248 nm excimer laser light through a phase mask.

62 interventions included balloon (n = 21) and excimer laser (n = 4) angioplasty, directional (n = 19)

63 Debulking with excimer laser or atherectomy was performed in 133 patien

64 e refractometer immediately before and after excimer laser photoablation.

65 Fibrin deposition and resolution after excimer laser photokeratectomy were investigated in rela

66 Excimer laser photorefractive keratectomy creates a nonv

67 he primary types of lesions most amenable to excimer laser phototherapeutic keratectomy (PTK) and the

68 Excimer laser phototherapeutic keratectomy (PTK) is an i

69 ervative management, diamond burr polishing, excimer laser phototherapeutic keratectomy (PTK), and ep

70 lial debridement, diamond burr polishing and excimer laser phototherapeutic keratectomy, have been pr

71 K with the WaveLight Allegretto Eye-Q 400-Hz excimer laser platform (Alcon, Inc., Huenberg, Switzerla

72 t LASIK procedure using the EX500 Allegretto excimer laser platform (Wavelight GmbH, Erlangen, German

73 the Alcon WaveLight Allegretto Eye-Q 400-Hz excimer laser platform provide similar results in myopic

74 ation of a truly successful wavefront-guided excimer laser procedure, surgeons should consider treati

75 These complexes are photoionized with an ArF excimer laser, producing the corresponding cations.

76 ed transepithelial PTK using a dual ablation excimer laser profile can provide favorable results as w

77 lish whether the eye is a good candidate for excimer laser PTK.

78 ions (S(2)O(8)(2-)) initiated by 308-nm XeCl excimer laser pulse excitation.

79 -assisted direct imprint' (LADI) -- a single excimer laser pulse melts a thin surface layer of silico

80 )* radicals were generated by intense 308 nm excimer laser pulses resulting in the one-electron oxida

81 ences (X = 8-oxoGua or G), by intense 308 nm excimer laser pulses.

82 ant pressure perfusion at 10 mm Hg, a 193-nm excimer laser (Questek) was used to precisely remove por

83 TMR using the excimer laser results in increased evidence of channel d

84 ve sources were investigated; argon fluoride excimer laser, ruby laser, and shock tube.

85 elescoping sheath was replaced with the 12-F excimer laser sheath.

86 loyed is advanced surface ablation using the excimer laser, such as photorefractive keratectomy or la

87 detect differences in corneal fibrosis after excimer laser surface ablation (photorefractive keratect

88 s a modulator of corneal wound healing after excimer laser surface ablation.

89 Excimer laser surgery is a safe and predictable method t

90 corneal ectasia when screening patients for excimer laser surgery.

91 IK by the Alcon Allegretto Wave Eye-Q 400 Hz excimer laser system.

92 WFG PRK treatment (Visx CustomVue Star S4 IR excimer laser system; Abbott Medical Optics), and the fe

93 ment (WaveLight Allegretto Wave Eye-Q 400 Hz excimer laser system; Alcon Surgical).

94 guided LASIK by the AMO Visx CustomVue S4 IR excimer laser system; the fellow eye received wavefront-

95 of 25 patients) using the Technolas 217z100 excimer laser (Technolas Perfect Vision) in a private la

96 The development of excimer laser technology, coupled with advances in lamel

97 after intraocular lens implantation with the excimer laser to achieve better results and higher patie

98 ome limited due to the widespread use of the excimer laser to correct myopia, hyperopia and astigmati

99 Introduction of the excimer laser to reshape the cornea has resulted in rema

100 Cataract surgery combined with excimer laser trabeculotomy (phaco-ELT) can reduce intra

101 titanium sapphire laser trabeculoplasty and excimer laser trabeculotomy) have shown favorable early

102 of-treatment calculation, followed by a dual excimer laser treatment profile set to achieve the desir

103 Early studies combining excimer laser treatment with collagen cross-linking (CXL

104 to be induced in the corneas in response to excimer laser treatment.

105 pherical as well as wavefront-guided corneal excimer laser treatments have continued to improve in ou

106 neal ring segments or with topography-guided excimer laser treatments have shown to have promising re

107 guided treatments compared with conventional excimer laser treatments.

108 al PTK, performed with a clinical 193-nm ArF excimer laser (VISX Star2, Santa Clara, CA) was performe

109 Star (Santa Clara, CA) 193-nm argon fluoride excimer laser was used to ablate the cornea in human eye

110 An excimer laser was used to produce identical 6-mm diamete

111 We studied two laser systems, a 157 nm excimer laser, which is capable of single-photon ionizat

112 Eyes were treated with an excimer laser with a planned 180- micro m flap.

113 pherical profiles and a fast-repetition-rate excimer laser with cyclotorsion control is a safe, effec

114 Forty myopic eyes underwent LASIK using an excimer laser with refraction ranging from -1.00 to -7.2

115 TGF in HCF cultures, normal animal eyes, and excimer laser wounded rat corneas were examined by Weste