The high osmotic pressure in a lens fiber as a driving force for the development of senile cortical cataract

TL;DR

This paper proposes that high osmotic pressure within lens fibers causes successive swelling and disruption of fibers, leading to the development of senile cortical cataract, with the process starting from the lens edge.

Contribution

It introduces a novel hypothesis that high intracellular osmotic pressure drives fiber swelling and disruption, explaining cortical cataract progression.

Findings

Progressive fiber swelling and disruption cause cataract development.

Cataract begins at the lens edge due to higher injury risk.

High osmotic pressure is a key driving force in cataract formation.

Abstract

In lens cataract, the clouding change in lens leads to a decline of transparency of part of the lens. There are three types of senile cataract: cortical cataract, nuclear cataract, and posterior/anterior sub-capsular cataract. The most common senile cataract is cortical cataract. For understanding cortical cataract, the pathology and the causing factors in cortical cataract are analyzed. The clouding change in senile cortical cataract begins from the edge of the lens and develops progressively to lens centre. The pathology of clouding change in cortical cataract is characterized by disruption of some lens fibers, swelling of some other fibers, and deposition of water between fibers. Based on the property of a lens fiber, we propose here a hypothesis on the mechanism of development of senile cortical cataract. I. Cortical cataract is triggered by disruption of a cortical lens fiber as a result of injury. The disrupted fiber will release water and crystallin proteins. II. Neighbor fibers can absorb this water due to high intracellular osmotic pressure (IOP) and become swollen. Swelling makes a fiber be stiff and have increased risk to disrupt when it is curved during the accommodation of the lens. These fibers will release water again when they disrupt, and the water will make more local fibers swelling. In this way, the local fibers become swollen and then disrupt successively. III. The successive swellings and disruptions of local fibers result in enlargement of a clouding change in lens. Since the fibers on the outer part of lens cortex have higher risk to be injured than that in the inner part, a clouding change starts from the edge of the lens. In conclusion, the progressive development of senile cortical cataract is a result of successive swellings and disruptions of local lens fibers, and this is driven by the high IOP in a lens fiber.