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      KCI등재 SCIE SCOPUS

      Measurement Reliability of Axial Length of the Human Eye by using Partial Coherence Interferometry

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      https://www.riss.kr/link?id=A104534562

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      다국어 초록 (Multilingual Abstract)

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      To investigate the minimum near-infrared ray intensity required (quantifiable threshold value) for consistent measurements of axial length (AL) using partial coherence interferometry (PCI), we attached two polarizing lenses (PL) to two types of PCI (IOLmaster, ALscan). The near-infrared ray intensity of PCI was modified by rotating the axis of one PL at intervals of 5 degrees. The right eye of each volunteer was measured three times and the AL and signal-to-noise ratio (SNR) was recorded five times for each measurement. Reduction of light intensity was theoretically estimated using Malus’ Law. AL was measured consistently with both IOLmaster and ALscan until they reached 55 degrees (1.33 % of intensity) and 60 degrees (0.77%), respectively (P = 0.343, Log-rank test). In contrast, SNR decreased as light intensity decreased. In addition, to analyze media opacities that precluded measurement of AL, we retrospectively reviewed the medical records of patients unmeasurable by PCI (ALscan) from May to November 2013.
      Thirty-eight of 473 eyes (8.0%) could not be measured using ALscan due to media opacities, such as severe posterior subcapsular cataract (PSC, 11 eyes), hypermature cataract (9 eyes), and vitreous hemorrhage (18 eyes). The mean grades of vitreous haze and PSC were 7.72 ± 0.96 and 4.45 ± 1.04, respectively. In conclusion, up to 0.77-1.33% of near-infrared rays decreased, and AL could be measured consistently.
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      To investigate the minimum near-infrared ray intensity required (quantifiable threshold value) for consistent measurements of axial length (AL) using partial coherence interferometry (PCI), we attached two polarizing lenses (PL) to two types of PCI (I...

      To investigate the minimum near-infrared ray intensity required (quantifiable threshold value) for consistent measurements of axial length (AL) using partial coherence interferometry (PCI), we attached two polarizing lenses (PL) to two types of PCI (IOLmaster, ALscan). The near-infrared ray intensity of PCI was modified by rotating the axis of one PL at intervals of 5 degrees. The right eye of each volunteer was measured three times and the AL and signal-to-noise ratio (SNR) was recorded five times for each measurement. Reduction of light intensity was theoretically estimated using Malus’ Law. AL was measured consistently with both IOLmaster and ALscan until they reached 55 degrees (1.33 % of intensity) and 60 degrees (0.77%), respectively (P = 0.343, Log-rank test). In contrast, SNR decreased as light intensity decreased. In addition, to analyze media opacities that precluded measurement of AL, we retrospectively reviewed the medical records of patients unmeasurable by PCI (ALscan) from May to November 2013.
      Thirty-eight of 473 eyes (8.0%) could not be measured using ALscan due to media opacities, such as severe posterior subcapsular cataract (PSC, 11 eyes), hypermature cataract (9 eyes), and vitreous hemorrhage (18 eyes). The mean grades of vitreous haze and PSC were 7.72 ± 0.96 and 4.45 ± 1.04, respectively. In conclusion, up to 0.77-1.33% of near-infrared rays decreased, and AL could be measured consistently.

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      참고문헌 (Reference)

      1 L. T. Chylack, Jr., "The lens opacities classification system III. The longitudinal study of cataract study group" 111 : 831-836, 1993

      2 T. Olsen, "Sources of error in intraocular lens power calculation" 18 : 125-129, 1992

      3 T. S. Dietlein, "Signal quality of biometry in silicone oil-filled eyes using partial coherence laser interferometry" 31 : 1006-1010, 2005

      4 J. L. Davis, "Scale for photographic grading of vitreous haze in uveitis" 150 : 637-641e1, 2010

      5 T. Ueda, "Relationship between postoperative refractive outcomes and cataract density: Multiple regression analysis" 36 : 806-809, 2010

      6 W. Drexler, "Partial coherence interferometry:a novel approach to biometry in cataract surgery" 126 : 524-534, 1998

      7 O. Findl, "Optical biometry in cataract surgery" 34 : 131-140, 2002

      8 W. Li, "Novel absolute displacement sensor with wide range based on malus law" 9 : 10411-10422, 2009

      9 R. N. Weinreb, "Measurement of the magnitude and axis of corneal polarization with scanning laser polarimetry" 120 : 901-906, 2002

      10 I. Damian, "Malus’ law for a real polarizer"

      1 L. T. Chylack, Jr., "The lens opacities classification system III. The longitudinal study of cataract study group" 111 : 831-836, 1993

      2 T. Olsen, "Sources of error in intraocular lens power calculation" 18 : 125-129, 1992

      3 T. S. Dietlein, "Signal quality of biometry in silicone oil-filled eyes using partial coherence laser interferometry" 31 : 1006-1010, 2005

      4 J. L. Davis, "Scale for photographic grading of vitreous haze in uveitis" 150 : 637-641e1, 2010

      5 T. Ueda, "Relationship between postoperative refractive outcomes and cataract density: Multiple regression analysis" 36 : 806-809, 2010

      6 W. Drexler, "Partial coherence interferometry:a novel approach to biometry in cataract surgery" 126 : 524-534, 1998

      7 O. Findl, "Optical biometry in cataract surgery" 34 : 131-140, 2002

      8 W. Li, "Novel absolute displacement sensor with wide range based on malus law" 9 : 10411-10422, 2009

      9 R. N. Weinreb, "Measurement of the magnitude and axis of corneal polarization with scanning laser polarimetry" 120 : 901-906, 2002

      10 I. Damian, "Malus’ law for a real polarizer"

      11 R. W. Knighton, "Linear birefringence of the central human cornea" 43 : 82-86, 2002

      12 Y. T. Hsieh, "Intraocular lens power measured by partial coherence interferometry" 89 : 1697-1701, 2012

      13 T. Ueda, "Impact of nuclear cataract density on postoperative refractive outcome: IOL master versus ultrasound" 221 : 384-387, 2007

      14 O. Findl, "High precision biometry of pseudophakic eyes using partial coherence interferometry" 24 : 1087-1093, 1998

      15 Y. A. Chen, "Evaluation of 2new optical biometry devices and comparison with the current gold standard biometer" 37 : 513-517, 2011

      16 K. Irsch, "Birefringence of the central cornea in children assessed with scanning laser polarimetry" 17 : 086001-, 2012

      17 N. Hirnschall, "Assessment of a new averaging algorithm to increase the sensitivity of axial eye length measurement with optical biometry in eyes with dense cataract" 37 : 45-49, 2010

      18 A. R. Wissa, "Agreement and relationship between ultrasonic and partial coherence interferometry measurements of axial length and anterior chamber depth" 6 : 193-198, 2012

      19 P. J. Buckhurst, "A new optical low coherence reflectometry device for ocular biometry in cataract patients" 93 : 949-953, 2009

      20 J. Santodomingo-Rubido, "A new non-contact optical device for ocular biometry" 86 : 458-462, 2002

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2017-02-03 학술지명변경 한글명 : Journal of the Optical Society of Korea -> Current Optics and Photonics
      외국어명 : Journal of the Optical Society of Korea -> Current Optics and Photonics      		 KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-02 학술지명변경 한글명 : Journal of Optical Society of Korea -> Journal of the Optical Society of Korea
      외국어명 : Journal of Optical Society of Korea -> Journal of the Optical Society of Korea      		 KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2005-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2004-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2003-01-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.67 0.24 0.55
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.48 0.43 0.383 0.02
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