Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0086543 (
cataract
)
29,165
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It is investigated whether mechanical properties of human cataractous eye lens nuclei can be assessed by their optical ones. This question is of importance as the success of phacoemulsification surgery among other criteria depends on the mechanical properties of the lens nucleus. The mechanical and optical properties of senile cataractous human eye lens nuclei were tested in vitro after extracapsular
cataract
extraction. A new measurement system was developed to determine their mechanical response. Hereby, a force is applied to the specimen and the resultant displacement is measured or vice versa.
Stiffness
and ultimate strength of the material are determined. Optical transmission is detected in dependence of light wavelength by a spectrophotometer. In addition the nuclear colour is determined. The correlation of mechanical stiffness and strength via optical transmission at 550 nm and nuclear colour is analyzed. Human eye lens nuclei show a viscoelastic mechanical behaviour. Measurement of stiffness is reproducible after 5-6 loading cycles when a steady-state is reached. Mechanical and optical properties correlate weakly but significantly.
Stiffness
and strength increase with increasing nuclear coloration. Alterations of mechanical and optical properties are caused by the same structural changes of the molecular components of the ageing lens. Especially lens crystallines are responsible for this process. Thus, it is concluded that optical properties can be useful to assess the mechanical response of cataractous eye lens nuclei.
...
PMID:On the correlation of mechanical and optical properties of cataractous eye lens nuclei. 908 24
Surgical evidence suggests that nuclear
cataract
lenses are generally harder than normal lenses. We examined this quantitatively using dynamic mechanical analysis of
cataract
lenses removed during surgery and compared the results with data from normal lenses.
Stiffness
of the lens centre was found to depend on the type of
cataract
and the age of the patient. Nuclear
cataract
lenses were generally stiffer than those extracted from patients with predominantly cortical
cataract
, with some in the latter group appearing not to differ significantly from age-matched normals. At age 40-50, the nuclear region of advanced nuclear
cataract
lenses was found to be approximately 46 times harder than that of normal lenses of the same age. By age 70-80 the stiffness of advanced nuclear
cataract
lenses had doubled, however, by this age, normal lenses had also increased significantly in stiffness so that the difference between
cataract
and normal lenses was much less pronounced, being a factor of approximately 2.5.
...
PMID:The stiffness of human cataract lenses is a function of both age and the type of cataract. 1828 31
