Ex vivo analysis of ultraviolet radiation transmission through ocular media and retina in select species.

The aim of this study was to assess the transmission of the ultraviolet (UV) radiation (200-400 nm) through intact enucleated globes of different species (dogs, cats, pigs, rabbits, horses, and humans) using spectrophotometry. Globes of cats (n = 6), dogs (n = 18), pigs (n = 10), rabbits (n = 6), horses (n = 10), and humans (n = 4) were analyzed. A 5-10 mm circular area of sclera and choroid from the posterior aspect of the globe was removed under a surgical microscope, leaving the retina intact in all species except the horse. Glass coverslips were added in horses and rabbits due to retinal and globe fragility. The %T of wavelengths from 200 to 800 nm were measured through the ocular media (cornea, aqueous humor, lens, and vitreous humor) and retina, and compared between species. The globes of cats and dogs allowed the most amount of UV radiation transmission, while those of pigs and humans allowed the least amount of UV radiation transmission. A small amount of UV radiation transmission through the ocular media was detected in the rabbit and horse. Results from this study will support further vision research that may be used to train companion, working, and service animals.

Investigating the etiology of ocular changes in Monodactylus argenteus housed in a shoaling ring exhibit.

OBJECTIVE: To evaluate the pathologic ocular changes in a population of aquarium-housed Monodactylus argenteus and investigate potential underlying causes for the large number of affected fish in this exhibit. ANIMALS: 11 Monodactylus argenteus were evaluated from a shoaling ring exhibit within an aquarium, and 19 control fish without ocular abnormalities were obtained from commercial fish suppliers. METHODS: Physical and ocular examinations were performed antemortem. Postmortem samples of liver, heart, dorsal epaxial muscle, and lenses of affected and control fish were analyzed for amino acid profiles. The aqueous humor from affected and control fish was collected postmortem, and osmolality was analyzed. Tissues from affected and control fish were submitted for histopathology. RESULTS: Ocular abnormalities in affected fish included corneal lesions, cataracts, lens capsule rupture, and unilateral left-sided lens luxation and buphthalmos. Lens luxation and buphthalmos were directly correlated. Aqueous humor osmolality in control fish differed significantly compared to affected fish but was not correlated to lens abnormality score. Affected fish had significantly lower lens concentrations of arginine, asparagine, glycine, isoleucine, serine, and tyrosine than control fish. One affected fish had severe buphthalmos, cataracts, and panophthalmitis caused by gram-positive cocci. CONCLUSIONS: Cataracts and traumatic lesions were common in affected M argenteus. Dietary amino acid content and aqueous humor osmolality imbalances were not likely a cause of the cataracts. Differences in lens amino acid concentrations between affected and control fish may be related to cataract formation. CLINICAL RELEVANCE: Consideration of species-appropriate tank parameters may mitigate ocular lesions including cataracts in aquarium fish.

Anesthetic Efficacy of Magnesium Chloride and Ethyl Alcohol in Temperate Octopus and Cuttlefish Species.

Cephalopods are important in biologic and biomedical research, yet relatively little objective information is available to guide researchers and veterinarians regarding the best methods for anesthetizing these animals for various experimental procedures. Recent studies demonstrate that ethyl alcohol and magnesium chloride are effective at depressing efferent and afferent neural signals in some tropical cephalopod species when measured via the pallial nerve. Here we used similar methods to test 2 temperate species (Octopus bimaculoides and Sepia officinalis) and demonstrate that (1) ethyl alcohol and magnesium chloride were effective at reversibly depressing evoked activity in the pallial nerve, (2) ethyl alcohol generally had shorter induction and recovery times compared with magnesium chloride, (3) both agents were associated with a latency between the behavioral and neural effects, and it was longer with magnesium chloride, and (4) senescent animals generally had longer induction or recovery times than young animals. Both agents successfully anesthetized both life stages; however, our data show that assessing anesthesia based solely on behavior may lead to premature commencement of invasive procedures. We conclude that temperate cephalopods can be humanely, effectively, and completely anesthetized by using these 2 agents and that the loss of neural signal we show here is consistent with true anesthesia and not merely paralysis. This relatively simple, nondestructive nerve recording technique can be applied to the study of other prospective anesthetic agents in cephalopods.