4.5 Article

Progress towards a standardized model of ocular sulfur mustard injury for therapeutic testing

Journal

EXPERIMENTAL EYE RESEARCH
Volume 228, Issue -, Pages -

Publisher

ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.exer.2023.109395

Keywords

Sulfur mustard; Reactive organic vapor; Corneal toxicity; Mustard gas keratopathy; Preclinical models; Chemical warfare agents; Therapeutics

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Sulfur mustard (SM) is a highly dangerous chemical weapon that can cause mass casualties through liquid or vapor exposure. The cornea is particularly sensitive to SM toxicity, and even low vapor doses can result in incapacitating acute injuries. Despite extensive research, there are currently no specific treatments for acute or persistent ocular SM injuries.
Sulfur mustard (SM) remains a highly dangerous chemical weapon capable of producing mass casualties through liquid or vapor exposure. The cornea is highly sensitive to SM toxicity and exposure to low vapor doses can cause incapacitating acute injuries. At higher doses, corneas fail to fully heal and subsequently develop a constellation of symptoms known as mustard gas keratopathy (MGK) that causes reduced quality of life and impaired or lost vision. Despite a century of research, there are no specific treatments for acute or persistent ocular SM injuries. Here I summarize toxicological, clinical and pathophysiological mechanisms of SM vapor injury in the cornea, describe a preclinical model of ocular SM vapor exposure for reproducible therapeutic studies, and propose new approaches to improve evaluation of therapeutic effects. I also describe recent findings illustrating the delayed development of a transient but severe recurrent corneal lesion that, in turn, triggers the emergence of secondary keratopathies characteristic of the chronic form of MGK. Development of this recurrent lesion is SM dose -dependent, although the severity of the recurrent lesion appears SM dose-independent. Similar recurrent le-sions have been reported in multiple species, including humans. Given the mechanistic relationship between the recurrent lesion and chronic, secondary keratopathies, I hypothesize that preventing the development of the recurrent lesion represents a novel and potentially valuable therapeutic approach for treatment of severe corneal SM injuries. Although ocular exposure to SM vapor continues to be a challenging therapeutic target, establishing consistent and reproducible models of corneal injury that enhance mechanistic and pathophysiological under-standing will help satisfy regulatory requirements and accelerate the development of effective therapies.

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