Lens Nucleus, Crystalline

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  Subject Areas on Research

  • A computer assisted method for nuclear cataract grading from slit-lamp images using ranking. 
  • Analysis of nuclear fiber cell cytoplasmic texture in advanced cataractous lenses from Indian subjects using Debye-Bueche theory. 
  • Cellular architecture in age-related human nuclear cataracts. 
  • Clinical Features and Outcomes of Retained Lens Fragments in the Anterior Chamber After Phacoemulsification. 
  • Colloid osmotic pressure of steer alpha- and beta-crystallins: possible functional roles for lens crystallin distribution and structural diversity. 
  • Colloid osmotic pressure of steer crystallins: implications for the origin of the refractive index gradient and transparency of the lens. 
  • Correlation of nuclear cataract lens density using Scheimpflug images with Lens Opacities Classification System III and visual function. 
  • Fiber cell morphology and cytoplasmic texture in cataractous and normal human lens nuclei. 
  • Mie light scattering calculations for an Indian age-related nuclear cataract with a high density of multilamellar bodies. 
  • Morphological changes in human nuclear cataracts of late-onset diabetics. 
  • Morphology of the normal human lens. 
  • Multilamellar spherical particles as potential sources of excessive light scattering in human age-related nuclear cataracts. 
  • Predicted light scattering from particles observed in human age-related nuclear cataracts using mie scattering theory. 
  • Simple fixation and storage protocol for preserving the internal structure of intact human donor lenses and extracted human nuclear cataract specimens. 
  • Ultrastructure of fiber cells and multilamellar inclusions in experimental diabetes. 
  • Validity of a new computer-aided diagnosis imaging program to quantify nuclear cataract from slit-lamp photographs.