ライフサイエンスコーパス: applanation tonometry

1 a recent in-clinic IOP measured by Goldmann applanation tonometry.

2 aocular pressure was measured using Goldmann applanation tonometry.

3 ar examination (n = 6397), included Goldmann applanation tonometry.

4 maging), transthoracic echocardiography, and applanation tonometry.

5 for heart rate [AI@75]) were obtained using applanation tonometry.

6 ed dilation (FMD), and arterial stiffness by applanation tonometry.

7 Intraocular pressure (IOP) was measured by applanation tonometry.

8 ependent on corneal properties than Goldmann applanation tonometry.

9 st tonometry techniques, especially Goldmann applanation tonometry.

10 trasonic pachymeter, and IOP was measured by applanation tonometry.

11 ely and acquired from pulse wave analysis by applanation tonometry.

12 IOP was measured in mmHg by applanation tonometry.

13 d tonometry, and 15.8% to 16.2% for Goldmann applanation tonometry.

14 dence interval [CI], 0.82-0.91) for Goldmann applanation tonometry, 0.91 (95% CI, 0.88-0.94) for Icar

15 tonometer was 2.66 mm Hg lower than Goldmann applanation tonometry (95% limits of agreement, -3.48 to

16 Radial artery applanation tonometry allows completely noninvasive cont

17 included log MAR visual acuity, refraction, applanation tonometry and a dilated fundus examination.

18 udy in which IOP was assessed using Goldmann applanation tonometry and a rebound tonometer.

19 red at 8 am, 2 pm, 6 pm, 9 pm using Goldmann applanation tonometry and at 12 midnight using Perkins t

20 l artery pressure waveforms were recorded by applanation tonometry and central aortic pressure wavefo

21 ocular pressure (IOP) measured with Goldmann Applanation Tonometry and DCT in the study and control g

22 Radial artery applanation tonometry and pulse wave analysis were used

23 Radial artery applanation tonometry and pulse wave analysis were used

24 Radial artery applanation tonometry and pulse-wave analysis were used

25 analyzer have correlated well with Goldmann applanation tonometry and seem to be independent of corn

26 as comparative measurements between Goldmann applanation tonometry and the EYEMATE-IO implant were pe

27 ave velocity, carotid artery pulse waves (by applanation tonometry) and the arrival time of reflected

28 ts using rebound tonometry, 9% with Goldmann applanation tonometry, and 3% to 4% by pneumotonometry.

29 al acuity that was then converted to logMAR, applanation tonometry, and biomicroscopic examination wi

30 test (first 2 stages of the Bruce protocol), applanation tonometry, and brachial artery flow-mediated

31 l ophthalmic examination including, Goldmann applanation tonometry, anterior chamber swept source opt

32 sit, IOP was measured in both eyes by masked applanation tonometry at 8 am, 11 am, and 4 pm for 7 con

33 with, and are unlikely to replace, Goldmann applanation tonometry at the present time.

34 re cardiac output measurements obtained with applanation tonometry (AT-CO) using the T-Line system (T

35 l IOP-lowering medication underwent Goldmann applanation tonometry before and after a protocol-define

36 ure (IOP) readings were obtained by Goldmann applanation tonometry before pupil dilation for fundosco

37 aocular pressure was measured using Goldmann applanation tonometry by the same observer before and 1

38 Ocular examinations, including Goldmann applanation tonometry for IOP measurement, were conducte

39 easured at each visit by using radial artery applanation tonometry for pulse wave analysis and modele

40 IOP was measured by Goldmann applanation tonometry (GAT) at hour 0 (8 am +/- 1 hour)

41 Goldmann applanation tonometry (GAT) error relative to intracamer

42 Goldmann-applanation tonometry (GAT) in the untreated state was r

43 ion of the correction equations for Goldmann applanation tonometry (GAT) is lacking.

44 Though Goldman applanation tonometry (GAT) is the "gold standard" for I

45 Goldmann applanation tonometry (GAT) measurements were compared w

46 elationship of mean IOP measured by Goldmann applanation tonometry (GAT) on the day of the OCT examin

47 Goldmann applanation tonometry (GAT) was performed at each study

48 Goldmann applanation tonometry (GAT) was then performed by a clin

49 Goldmann applanation tonometry (GAT) was used for all IOP measure

50 od agreement between EYEMATE-IO and Goldmann applanation tonometry (GAT) with an intraclass correlati

51 r pressure was measured using PDCT, Goldmann applanation tonometry (GAT), and the Ocular Response Ana

52 OP measurements were obtained using Goldmann applanation tonometry (GAT), the Ocular Response Analyze

53 (IOP) measurement within 5 mmHg of Goldmann applanation tonometry (GAT).

54 dynamic contour tonometry (DCT) and Goldmann applanation tonometry (GAT).

55 ment with the EYEMATE-SC system and Goldmann applanation tonometry (GAT).

56 % credible interval [CrI] 0-62) and Goldmann applanation tonometry (GAT; 45, 95% CrI 17-68), whereas

57 rneal thickness (CCT; P = 0.63) and Goldmann applanation tonometry (GAT; P = 0.32).

58 had detailed examination including Goldmann applanation tonometry, gonioscopy and fundus photography

59 ndardized examination that included Goldmann applanation tonometry, gonioscopy, and CECC measurements

60 mplete ophthalmologic examination, including applanation tonometry, gonioscopy, biometry, stereoscopi

61 al acuity, slit-lamp biomicroscopy, Goldmann applanation tonometry, gonioscopy, dilated fundus examin

62 gle of resolution visual acuity, refraction, applanation tonometry, gonioscopy, Lens Opacities Classi

63 Detailed ophthalmic examination included applanation tonometry, gonioscopy, pachymetry, optic dis

64 The IOP readings were obtained by Goldmann applanation tonometry (Haag-Streit, Konig, Switzerland)

65 IOP was measured by applanation tonometry immediately prior to measuring LP

66 IOP was measured by applanation tonometry in 14 untreated marmosets ranging

67 cture and function by carotid ultrasound and applanation tonometry in 271 unmedicated hypertensive pa

68 , but has recently been compared to Goldmann applanation tonometry in humans.

69 ular pressure (IOP) was measured by Goldmann applanation tonometry in monkeys under ketamine anesthes

70 ing rebound tonometry compared with Goldmann applanation tonometry in the 2 level II studies performe

71 neal thickness may influence the accuracy of applanation tonometry in the diagnosis, screening, and m

72 onducted for loci linked to IOP (measured by applanation tonometry) in 244 affected sibling pairs wit

73 in-situ keratomileusis surgery make Goldmann applanation tonometry inaccurate, the advent of new diag

74 ifference in IOP for rebound versus Goldmann applanation tonometry increased as the IOP increased.

75 Goldmann applanation tonometry is the most widely used method of

76 Goldmann applanation tonometry measurements were modified with 5

77 neous carotid pressure waveforms obtained by applanation tonometry of the contralateral carotid arter

78 (simultaneous B-mode ultrasound and arterial applanation tonometry on the common carotid artery) was

79 on (intraocular pressure >23 mm Hg, Goldmann applanation tonometry), or glaucoma medication use.

80 ept for an increase at 1 month with Goldmann applanation tonometry (P = .005).

81 IOP was determined by Goldmann applanation tonometry, PD with vernier calipers in room

82 ve measurements 6 months apart with Goldmann applanation tonometry recorded in the sitting position a

83 artial coherence interferometry and Goldmann applanation tonometry, respectively.

84 with both peripheral (Finapres) and central (applanation tonometry) SBP values.

85 on, including gonioscopy by a masked grader, applanation tonometry, slit-lamp biomicroscopy, optic ne

86 inopathy Study best-corrected visual acuity, applanation tonometry, slit-lamp examination, indirect o

87 iac output measurement using the noninvasive applanation tonometry technology is basically feasible i

88 The applanation tonometry technology provides cardiac output

89 Disease characteristics and radial applanation tonometry to measure arterial stiffness were

90 to detect atherosclerosis, and radial artery applanation tonometry to measure arterial stiffness.

91 therosclerosis (discrete plaque), and radial applanation tonometry to measure arterial stiffness.

92 Applanation tonometry (TONO) and in-plane PCMR was perfo

93 IOP was measured by Goldmann applanation tonometry under ketamine anesthesia after si

94 wer in 1 level III study in which noncontact applanation tonometry was compared with rebound tonometr

95 raocular pressure (IOP) measured by Goldmann applanation tonometry was not different between groups (

96 Radial applanation tonometry was performed in the third Strong

97 Goldmann applanation tonometry was used to measure IOP.

98 The 6-hour IOP response (Goldmann applanation tonometry) was determined before the drug ap

99 CT scans and 2 clinical visits with Goldmann applanation tonometry were included.

100 ressure measures were obtained from Goldmann applanation tonometry when available (45%), and otherwis

101 Measurement of AS by applanation tonometry with pulse-wave velocity has been