연구동향 분석

골유합 및 강성도가 우수한 3D프린팅 환자맞춤형 추간체유합보형재 개발 및 생체역학적 유효성 평가

박태현 2020년

논문상세정보
인용/피인용
' 골유합 및 강성도가 우수한 3D프린팅 환자맞춤형 추간체유합보형재 개발 및 생체역학적 유효성 평가' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 인체 생리학
  • 3d 프린팅
  • 강성도
  • 골유합
  • 생체역학
  • 유한요소분석
  • 추간체 유합 보형재
  • 환자 맞춤형
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
450 0

0.0%

' 골유합 및 강성도가 우수한 3D프린팅 환자맞춤형 추간체유합보형재 개발 및 생체역학적 유효성 평가' 의 참고문헌

  • The application of finite element analysis in the skull biomechanics and dentistry
    25 ( 3 ) , pp . 390-397 [2014]
  • Structure and function of vertebral trabecular bone
    22 ( 24 ) , pp . 2823-2833 [1997]
  • Stress analysis of the lumbar disc-body unit in compression
    9 ( 2 ) , pp . 120-134 ( [1984]
  • Some static mechanical properties of the lumbar intervertebral joint , intact and injured ,
    104 , pp . 193 ? 201 [1982]
  • Some mechanical tests on the lumbosacral spine with particular reference to intervertebral discs ; a preliminary report
    39 , pp . 1135 ? 1164 [1957]
  • Role of ligaments and facets in lumbar spinal stability
    20 ( 8 ) , pp . 887-900 [1995]
  • Pressure distribution under an intervertebral disc ? an experimental study
    12 , pp . 807 ? 812 [1979]
  • Mechanical properties of totally permeable titanium composite pylon for direct skeletal attachment
    pp . 993-999 [2012]
  • Lumbar intradical pressure : Experimental studies on Post-mortem material
    Suppl 43 , pp . 1 ? 104 [1960]
  • Interlaminar Shear Stresses and Laminae Separation in a Disc : Finite Element Analysis of the L3-L4 Motion Segment Subjected to Axial Compressive Loads
    20 ( 6 ) , pp . 689-698 [1995]
  • Custom-designed orthopedic implants evaluated using finite element analysis of patient-specific computed tomography data : femoral-component case study .
    8 ( 91 ) ( [2007]
  • Biomechanical properties of anterior thoracolumbar multi-segmental fixation ,
    25 ( 18 ) , pp . 2303-2311 ( [2000]
  • Analysis and modeling of electro discharge machining input parameters of Nitinol shape memory alloy by De-ionized water and copper tools
    9 , pp . 2934-2943 [2014]
  • Adjacent segment motion after a simulated lumbar fusion in different sagittal alignment
    28 , pp . 1560-1566 ( [2003]
  • A follower load increases the load-carrying capacity of the lumbar spine in compression
    24 , pp . 1003-1009 ( [1999]
  • 8) ASTM F3161-16: Standard Test Method for Finite Element Analysis (FEA) of Metallic Orthopaedic Total Knee Femoral Components under Closing Conditions, American Society for Testing and Materials(2016).
  • 7) ASTM F1839-08: Standard Specification for Rigid Polyurethane Foam for Use as a Standard Material for Testing Orthopaedic Devices and Instruments(2008).
  • 6) ASTM F2267-04: Standard Test Method for Measuring Load Induced Subsidence of Intervertebral Body Fusion Device Under Static Axial Compression(2004).
  • 5) ASTM F2077-18: Test Methods For Intervertebral Body Fusion Devices(2018).
  • 2) 대한척추신경외과학회, 척추학
    군자출판사 [2013]
  • 12) Pitkin, M., J. Pilling, and G. Raykhtsaum, Mechanical properties of totally permeable titanium composite pylon for direct skeletal attachment, Journal of Biomedical Materials Research Part B: Applied Biomaterials, 100.4, pp. 993-999(2012)
  • 1) 석세일, 척추외과학
    최신의학사 [2011]