Abstract
Opacification of intraocular lenses (IOLs) due to material changes is a serious complication
that can compromise the good visual outcomes of uncomplicated cataract surgery. In
hydrophobic
acrylic IOLs, opacification can result from glistening formation, while in hydrophilic
acrylic IOLs, there is a risk of calcification due to the formation of calcium phosphates
within the
polymer. Over time, various methods have been developed to investigate calcification
in hydrophilic acrylic IOLs. The aim of this article is to provide an overview of
standard histological
staining and models used to simulate IOL calcification. Histological staining can
be used to detect calcification and assess the extent of crystal formation. The development
of in
vivo and in vitro replication models has helped to identify the underlying pathomechanisms of calcification.
In vivo models are suitable for assessing the biocompatibility
of IOL materials. Bioreactors as an in vitro model can be used to investigate the kinetics of crystal formation within the polymer.
The replication of IOL calcification under
standardized conditions using electrophoresis allows for the comparison of different
lens materials with respect to the risk of calcification. The combination of different
analytical and
replication methods can be used in the future to further investigate the pathomechanisms
of calcium phosphate crystal formation and the influence of risk factors. This may
help to prevent
calcification of hydrophilic acrylic IOLs and associated explantation and complications.
Key words IOL calcification - opacification - complication - cataract surgery - histology
