ライフサイエンスコーパス: refractive surgery

1 s the US Navy has made to the field of laser refractive surgery.

2 included in the 2012 PPP Refractive Errors & Refractive Surgery.

3 stability and to assess complications after refractive surgery.

4 niques, outcomes, and complications of laser refractive surgery.

5 trends of mitomycin-C application in corneal refractive surgery.

6 e to offer expanding options for intraocular refractive surgery.

7 has emerged as a true and recognized form of refractive surgery.

8 on the market for the practitioner to use in refractive surgery.

9 re and power were designed before the era of refractive surgery.

10 ns for the development of corneal models for refractive surgery.

11 f allergic conjunctivitis and pain following refractive surgery.

12 lens fitting, diagnosis of keratoconus, and refractive surgery.

13 sequent degradation in quality of life after refractive surgery.

14 Army soldiers (n = 143) who opted for refractive surgery.

15 op chronic ocular surface inflammation after refractive surgery.

16 regarding ocular surface disease and corneal refractive surgery.

17 w more patients to be candidates for corneal refractive surgery.

18 a modified vergence formula obtained before refractive surgery.

19 subjects with corneal ectasia after previous refractive surgery.

20 worldwide have undergone some form of kerato-refractive surgery.

21 ery in eyes that have undergone prior kerato-refractive surgery.

22 corneal fibrosis, a frequent complication of refractive surgery.

23 tial risk factors in all patients undergoing refractive surgery.

24 that strabismus and diplopia can occur after refractive surgery.

25 st importance in today's modern cataract and refractive surgery.

26 management in ophthalmic surgeries including refractive surgery.

27 ents for training ophthalmology residents in refractive surgery.

28 ss measurements before and after cataract or refractive surgery.

29 the treatment of corneal ectasia after laser refractive surgery.

30 ucity of literature on residency training in refractive surgery.

31 lation when using the Gaussian formula after refractive surgery.

32 rgoing cataract extraction following corneal refractive surgery.

33 r some IOLs are better suited for subsequent refractive surgery.

34 ntifibrotic therapy on corneal healing after refractive surgery.

35 on safety and quality of vision after laser refractive surgery.

36 tients with positive family history prior to refractive surgeries.

37 patients undergoing DSEK may require further refractive surgeries.

38 timal timing and outcomes of these secondary refractive surgeries.

39 This article reviews refractive surgeries after DSEK to address this problem.

40 review discusses key recent developments in refractive surgery after corneal transplantation.

41 age of the patient may affect the outcome of refractive surgery after multifocal IOL implantation.

42 w, we go over the past history of incisional refractive surgery and also report the current uses and

43 f care for patients who undergo cataract and refractive surgery and improve outcomes.

44 technology has already dramatically changed refractive surgery and is poised to do the same for cata

45 night corneal reshaping is an alternative to refractive surgery and must continue to be studied and m

46 earch on training ophthalmology residents in refractive surgery and offer an approach to incorporatin

47 ticle summarizes current recommendations for refractive surgery and outcomes in ametropic children wh

48 valuation of corneal wound healing following refractive surgery and penetrating keratoplasty.

49 aract surgery has expanded into the realm of refractive surgery and there is a new emphasis on patien

50 dict the response to incisional and ablative refractive surgery and will also affect the formulas use

51 al nerve damage produced by aging, diabetes, refractive surgeries, and viral or bacterial infections

52 cataract surgery, 90 participants with laser refractive surgery, and 134 participants who refused to

53 ry on patients who have had previous corneal refractive surgery, and in these patients intraocular le

54 ted in neurotrophic keratitis, dry eye after refractive surgery, and other corneal diseases.

55 and wavefront-optimized (WFO) platforms for refractive surgery are designed for improved visual outc

56 s of retinal pathology associated with laser refractive surgery are documented.

57 cataract surgery, sutureless vitrectomy, and refractive surgery are now reported with regularity in t

58 wavefront refraction and good results after refractive surgery--are attained in eyes with diffractiv

59 ing an invaluable addition to the mainstream refractive surgery armamentarium.

60 The purpose of this article is to review refractive surgery as a means of treatment for strabismu

61 d literature on ocular surface changes after refractive surgery, as well as the outcomes of treatment

62 The American Society of Cataract and Refractive Surgery (ASCRS) and the American Society of R

63 such as the American Society of Cataract and Refractive Surgery (ASCRS) calculator have become effici

64 y (AAO) and American Society of Cataract and Refractive Surgery (ASCRS) presented a joint position pa

65 y (AAO) and American Society of Cataract and Refractive Surgery (ASCRS).

66 For these patients, refractive surgery becomes a viable option to reduce the

67 s might help in the surgical decision before refractive surgery by providing a good sensitivity in de

68 In eyes after refractive surgery, calculating posterior corneal power

69 Refractive surgery can affect corneal sensation by ablat

70 Preliminary data show that refractive surgery can be successfully performed in chil

71 Refractive surgery can be useful in patients with accomm

72 Refractive surgery can correct both ametropia and astigm

73 Refractive surgery can improve the final visual outcome

74 subspecialty of Cornea, External Disease and Refractive Surgery (CEDRS) was one of the first to join

75 aser (Pulzar Z1, CustomVis) at an outpatient refractive surgery center in Manila, Philippines.

76 The last few years have seen the refractive surgery community embrace its use for virtual

77 ts undergoing cataract surgery after corneal refractive surgery continues to be a challenging and com

78 Although the demand for refractive surgery continues to gain pace with millions

79 a history of glaucoma surgery or medication, refractive surgery, corneal edema, or corneal dystrophy,

80 D is achieved in only 70% of eyes with post-refractive surgery corneas, and (2) astigmatism accuracy

81 and offer an approach to incorporating laser refractive surgery curriculum in residency education.

82 egistry of Quality Outcomes for Cataract and Refractive Surgery (EUREQUO) and the Malaysian National

83 The data emerging from the survey show that refractive surgery experience is fundamental to the educ

84 A panel of refractive surgery experts have summarized the current s

85 h performing modern cataract surgery in post-refractive surgery eyes is technically no more complicat

86 Overall, these studies concluded that cornea/refractive surgery fellows achieve similar postoperative

87 ectomy (bioptics) provides another option in refractive surgery for high ametropia.

88 ria for presbyopic patients undergoing laser refractive surgery for monovision.

89 ains a formidable challenge, developments in refractive surgery for naturally occurring ametropias di

90 With the many recent advances in refractive surgery for naturally occurring refractive er

91 article reviews the literature on pediatric refractive surgery from 1995 to 2003 and discusses the p

92 atients requiring cataract surgery following refractive surgery grows larger each year.

93 To examine whether wavefront-guided refractive surgery has a role in correcting ametropia af

94 The use of incisional refractive surgery has become limited due to the widespr

95 Refractive surgery has been used successfully in adult p

96 several years that the success of hyperopic refractive surgery has begun to approach the efficacy of

97 ea of research for many years, the advent of refractive surgery has stimulated research into the regu

98 The advent of corneal refractive surgery has, inevitably, resulted in the occa

99 Patients undergoing refractive surgery have high expectations for an excelle

100 cular lens power determination after corneal refractive surgery, highlighting sources of errors and p

101 known uses of in-vivo confocal microscopy in refractive surgery, highlighting the current development

102 omes of phakic intraocular lenses over other refractive surgeries in patients with moderate and high

103 We report the results of refractive surgery in a series of these children treated

104 There are still indications for incisional refractive surgery in cataract and post-surgical patient

105 tional study is needed to define the role of refractive surgery in children and in the treatment of a

106 Refractive surgery in children is controversial.

107 ature regarding indications and outcomes for refractive surgery in children, including laser in-situ

108 er questions about the utility and safety of refractive surgery in children.

109 entially unsatisfactory results with corneal refractive surgery in higher ranges of refractive errors

110 resentation of keratoconus and ectasia after refractive surgery in the 2 treatment arms.

111 xchange is becoming a more popular method of refractive surgery in the presbyopic patient.

112 ar lens is becoming a more popular method of refractive surgery in the presbyopic patient.

113 Laser refractive surgery in the United States Air Force has de

114 Studies focused on mechanisms of refractive surgery induced dry eye disease, surgical opt

115 approaches that do not require preoperative refractive surgery information.

116 Refractive surgery is an option for children with amblyo

117 Numerous studies have reported that refractive surgery is effective in correcting certain ty

118 The use of these lenses in refractive surgery is expected to increase very signific

119 ttern(R) guideline (PPP) Refractive Errors & Refractive Surgery is unknown.

120 In patients with a history of laser refractive surgery, LAL implantation and postimplantatio

121 Laser refractive surgery (LRS) is one of the most common elect

122 Current practices of MMC application during refractive surgeries may increase the potential for long

123 Refractive surgery may hold promise for cases in which t

124 Pediatric refractive surgery meets an important need for this mino

125 With the constant evolution of refractive surgery, mitomycin-C has come to the forefron

126 Refractive surgery monovision correction represents an i

127 ith progressive keratoconus or ectasia after refractive surgery (n = 510).

128 tion, cataract surgery case series following refractive surgery, new corneal topography technologies

129 Subjects with previous intraocular or refractive surgery, ocular comorbidities and diabetes we

130 article will discuss recent developments in refractive surgery, ocular surgery and various miscellan

131 sterior chamber phakic lenses that provide a refractive surgery option for those with high myopia or

132 ch as in patients who have undergone corneal refractive surgery or penetrating keratoplasty.

133 al scarring, whether caused by trauma, laser refractive surgery, or infection, remains a significant

134 a diagnosis of glaucoma suspect or glaucoma, refractive surgery, or presence of corneal abnormalities

135 erive an added benefit from wavefront-guided refractive surgery over conventional surgery.

136 As the post-refractive surgery patient population ages, visually sig

137 atment algorithms may not be appropriate for refractive surgery patients.

138 dings should be considered in assessments of refractive surgery patients.

139 eviews to assist the AAO Refractive Errors & Refractive Surgery PPP.

140 This has made some forms of incisional refractive surgery practically obsolete.

141 es to be the most commonly performed corneal refractive surgery procedure in the United States Air Fo

142 at times and concentrations commonly used in refractive surgery produces cross-linking of corneal end

143 of the intraocular lens power after corneal refractive surgery, resulting in improved visual outcome

144 In approximate descending order, refractive surgery, retina, oculoplastics, and pediatric

145 Refractive surgery revision may be necessary when astigm

146 PURPOSE OF REVIEW: Topography-guided laser refractive surgery seeks to correct vision by altering t

147 rtain populations of pediatric patients with refractive surgery shows promise but requires further st

148 evaluating the safety and efficacy of laser refractive surgery since 1993 and will continue to do so

149 However, development of non-excimer based refractive surgery such as thermal techniques provides a

150 Excimer laser-based refractive surgery techniques have been the most popular

151 nge in corneal refractive power due to laser refractive surgery than other currently available clinic

152 n regarding cataract, intraocular lenses and refractive surgery that goes beyond the measurement of v

153 corneal ablation is an exciting frontier in refractive surgery that incorporates wavefront technolog

154 itting methods that are most effective after refractive surgery that results in high refractive error

155 with cataract, cataract surgery, or previous refractive surgery, the eye with the larger absolute sph

156 ould be performed at least 6 months prior to refractive surgery to allow for any potential corneal as

157 issues surrounding the application of modern refractive surgery to children.

158 Recent publications have reported refractive surgery to treat strabismus and both ametropi

159 Patients considering corneal refractive surgery undergo extensive preoperative testin

160 /- 9.7 years and a history of myopic corneal refractive surgery were implanted with the LAL during ca

161 The American Society of Cataract and Refractive Surgery White Paper treatment paradigm remain

162 40 years old, without history of cataract or refractive surgery, who underwent auto-refraction measur

163 Thorough evaluation of ongoing advances in refractive surgery will help ensure that our airmen cont

164 It serves as an alternative to laser-based refractive surgery with essentially no intraoperative or

165 Refractive surgery with excimer laser is a promising opt