ライフサイエンスコーパス: extracapsular

1 cured, retroperitoneal fluid (subcapsular vs extracapsular), ascites beyond the cul-de-sac, peritonea

2 in the human capsular bag still occurs after extracapsular cataract extraction (ECCE) surgery.

3 Manual extracapsular cataract extraction (especially small-inci

4 implanted into the ciliary sulcus following extracapsular cataract extraction and "in the bag" intra

5 culty with nuclear expression during planned extracapsular cataract extraction and capsular tears dur

6 ivisible into two general techniques: manual extracapsular cataract extraction and phacoemulsificatio

7 autograft, or from other patients undergoing extracapsular cataract extraction from the superior bulb

8 Surgical techniques for manual extracapsular cataract extraction have undergone much re

9 ns, cost analysis, and the continued role of extracapsular cataract extraction in Western countries.

10 iltering procedure--has evolved from planned extracapsular cataract extraction to small-incision phac

11 following phacoemulsification, 72% following extracapsular cataract extraction, and 40% following par

12 combined surgical procedures, planned manual extracapsular cataract extraction, and history of previo

13 sular cataract extraction, sutureless manual extracapsular cataract extraction, or intracapsular cata

14 roaches (phacoemulsification, sutured manual extracapsular cataract extraction, sutureless manual ext

15 ctous lenses were obtained from donors after extracapsular cataract extraction.

16 hacoemulsification and manual small incision extracapsular cataract surgery achieve excellent visual

17 The evolution of intraocular lens and extracapsular cataract surgery has lead to faster postop

18 omplication rates, but manual small incision extracapsular cataract surgery is significantly faster,

19 Therefore, manual small incision extracapsular cataract surgery may be the preferred tech

20 ive communication with the vitreous (17.9%), extracapsular cataract surgery procedure (11%), and surg

21 technique, manual sutureless small incision extracapsular cataract surgery, has been increasing in p

22 changes, including synovitis, bursitis, and extracapsular changes, seen adjacent to tendon/ligament

23 ed hand disease is associated with prominent extracapsular changes, suggesting that inflammation in t

24 t was associated with a greater frequency of extracapsular disease [odds ratio (OR), 3.16; 95% confid

25 tumor is increased twofold but the risk for extracapsular disease is increased threefold to ninefold

26 of clinically localized disease, unsuspected extracapsular disease may significantly increase the ris

27 An MR finding of definite extracapsular disease was 24% sensitive and 94% specific

28 tients whose MR examinations showed definite extracapsular disease, eight (62%) had disease recurrenc

29 of E-cadherin, increased Gleason score, and extracapsular dissemination has been observed.

30 ovitis, the proportion of MCP joints showing extracapsular enhancement was higher in the PMR group (1

31 A much greater degree of extracapsular enhancement, with diffuse involvement of t

32 In prostate cancer, tumor extracapsular escape occurs in part via laminin-coated n

33 patients who had follicular histology (55), extracapsular extension (107), or vascular invasion (119

34 ve nodes (46.6% v 60.5%), and lower rates of extracapsular extension (9.3% v 15.1%).

35 (according to either reader), and degree of extracapsular extension (according to either reader) wer

36 gh-grade disease, positive surgical margins, extracapsular extension (all P < or = .004), and biochem

37 gh-grade disease, positive surgical margins, extracapsular extension (all P < or = .005), seminal ves

38 ot distinguish between focal and established extracapsular extension (an input variable of the nomogr

39 RI, the radiologic-pathologic correlation of extracapsular extension (ECE) and seminal vesicle invasi

40 Extracapsular extension (ECE) is an important predictor

41 The authors hypothesize that extracapsular extension (ECE) of the SN metastasis is hi

42 n 12 prostate regions and the likelihoods of extracapsular extension (ECE), seminal vesicle invasion

43 gative surgical margins (SM negative) and no extracapsular extension (ECE).

44 ded tumor T stage and the radial diameter of extracapsular extension (if present).

45 01) and secondary Gleason grade (P = .0006), extracapsular extension (P < .0001), positive surgical m

46 negative/close margins (P =.03), absence of extracapsular extension (P <.01), and presence of semina

47 erative RT-PCR-PSA assay was associated with extracapsular extension (P = 0.044) and seminal vesicle

48 ent predictive variable was mean diameter of extracapsular extension (relative hazard ratio, 2.06; 95

49 antigen values, Gleason scores, and rates of extracapsular extension and seminal vesicle invasion com

50 prostate-specific antigen level, presence of extracapsular extension at MR imaging (according to eith

51 The presence and degree of extracapsular extension at MR imaging prior to external-

52 Its high specificity for the diagnosis of extracapsular extension is tempered by its low sensitivi

53 In particular, three of five patients with extracapsular extension of more than 5 mm at pretreatmen

54 lly organ-confined prostate cancer will have extracapsular extension on pathological analysis.

55 A/PSM RT-PCR was a better predictor of tumor extracapsular extension than initial serum PSA, clinical

56 he involvement of seminal vesicles and other extracapsular extension were assessed by histopathology

57 follicular histology, vascular invasion, or extracapsular extension) showed no benefit over partial

58 cancer volume, relative percentage by grade, extracapsular extension, and margin status.

59 survival in patients with positive margins, extracapsular extension, and no seminal vesicle invasion

60 adiologists for SVI, tumor at prostate base, extracapsular extension, and other features considered i

61 al vesicle invasion, surgical margin status, extracapsular extension, lymph node invasion, and expres

62 rgical/staging (stage, grade, margin status, extracapsular extension, lymph node status, seminal vesi

63 eason 3 + 4 adenocarcinoma bilaterally, with extracapsular extension, no seminal vesicle invasion, a

64 inal vesicle invasion, biopsy Gleason score, extracapsular extension, preoperative PSA, and dominant

65 prognostic variables (ie, positive margins, extracapsular extension, primary site, and performance s

66 On the basis of the MR reports, the risks of extracapsular extension, seminal vesicle invasion, and l

67 tigen concentration, surgical margin status, extracapsular extension, seminal vesicle invasion, lymph

68 were significantly elevated in patients with extracapsular extension, seminal vesicle involvement, hi

69 neurovascular bundle were most predictive of extracapsular extension, with a specificity of up to 95%

70 r ALND were metastases in >/=3 SLNs or gross extracapsular extension.

71 al, 2.3-23.4; P = 0.001) in predicting tumor extracapsular extension.

72 follicular histology, vascular invasion, and extracapsular extension.

73 neurovascular bundle were most indicative of extracapsular extension.

74 overall accuracy of 77% in determination of extracapsular extension.

75 of eye trauma (HR, 3.98; 95% CI, 3.69-4.30), extracapsular extraction (HR, 3.11; 95% CI, 2.94-3.30),

76 ctomy, including older literature on planned extracapsular extraction plus trabeculectomy as well as

77 ge, capsular rupture, history of eye trauma, extracapsular extraction technique, male gender, and dia

78 ear was 0.20%, with a higher proportion from extracapsular extraction than phacoemulsification (7.9%

79 was performed in 99.9% of cases, and manual extracapsular extraction was performed in 0.1% of cases.

80 ques were evaluated: phacoemulsification and extracapsular extraction.

81 The degree of extracapsular Gd-DTPA enhancement was assessed in both c

82 aluate the relationship between synovial and extracapsular inflammation in PMR and early rheumatoid a

83 and morbidity of prostate cancer result from extracapsular invasion and metastasis.

84 Many clinical circumstances require extracapsular IOL fixation and multiple options exist in

85 An extracapsular lens extraction (ECLE) was performed in 72

86 hy was performed before and after intra- and extracapsular lens extraction (ICLE, ECLE) and anterior

87 An extracapsular lens extraction was performed in one eye o

88 six eyes of New Zealand White rabbits after extracapsular lens extraction.

89 creased cellularity in the joint capsule and extracapsular ligaments.

90 tudy aims to examine the prognostic value of extracapsular lymph node involvement (EC-LNI) and intrac

91 st of 10.8 Gy in six fractions was given for extracapsular nodal extension or T3 lesions.

92 an 0.5 mL without Gleason 4 or 5 patterns or extracapsular or seminal vesicle invasion.

93 ed phacoemulsification and combined standard extracapsular procedures, long-term results of combined

94 2 independent risk factors in the PET group (extracapsular spread and lymphatic invasion) predicted b

95 MR imaging findings of definite extracapsular spread of disease helped predict prostate

96 thal) of the primary tumor, determination of extracapsular spread, guidance and evaluation of local t

97 The improvements of phacoemulsification over extracapsular surgery have naturally given rise to impro

98 The extracapsular technique showed a contamination rate of 3

99 mors by as much as threefold and the odds of extracapsular tumors by threefold to fivefold.

100 as ([MIC] n = 23) had one focus of intra- or extracapsular Vi, one focus of complete Ci, or both.