Description of ciliary body anatomy and identification of sites for transscleral cyclophotocoagulation in the equine eye

Objective To determine the most appropriate anatomical location for diode laser probe placement to accurately photoablate the equine ciliary body using a contact, transscleral approach. Design Original research. Procedures Forty‐two freshly enucleated adult equine eyes were evaluated. The horizontal...

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Bibliographic Details
Published in:Veterinary ophthalmology 2001-09, Vol.4 (3), p.183-190
Main Authors: Miller, Tammy L., Willis, A. Michelle, Wilkie, David A., Hoshaw-Woodard, Stacy, Stanley, James R. L.
Format: Article
Language:English
Subjects:
Animals
ciliary body
Ciliary Body - anatomy & histology
Ciliary Body - surgery
cyclophotocoagulation
equine
Female
glaucoma
Glaucoma - surgery
Glaucoma - veterinary
Horses - anatomy & histology
Horses - surgery
Intraocular Pressure
Laser Coagulation - methods
Laser Coagulation - veterinary
Male
Ocular Hypertension - surgery
Ocular Hypertension - veterinary
pars plana
pars plicata
Sclera
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Summary:Objective To determine the most appropriate anatomical location for diode laser probe placement to accurately photoablate the equine ciliary body using a contact, transscleral approach. Design Original research. Procedures Forty‐two freshly enucleated adult equine eyes were evaluated. The horizontal, medial vertical, central vertical, and lateral vertical lengths of the cornea were measured from limbus to limbus. Needles were inserted perpendicular to the sclera at specific distances posterior to the external limbus at the 1, 2, 4, 5, 6, 7, 8, 10, 11 and 12 o’clock positions. The per cent frequency that needles penetrated internal anatomical regions (lens, lens zonules, pars plicata, anterior, middle, and posterior pars plana, ora ciliaris retinae, or retina), when inserted at 2, 4, 6, and 8 mm posterior to the limbus, were calculated for all eyes combined, for right vs. left, for males vs. females, and for three age groups. The internal distance from the limbus to the anterior pars plana, and from the anterior pars plana to the ora ciliaris retinae were also measured in six of the horses (12 eyes). Mean distances and standard deviations were computed for all parameters. Results Average corneal sizes and standard deviations were: 30.24 mm ± 1.53 (horizontal); 24.69 mm ± 1.52 (central vertical); 22.79 mm ± 1.49 (medial vertical); and 19.79 mm ± 1.55 (lateral vertical). Internal distances of the pars plicatas ranged from 5.33 mm ± 0.49 to 10.67 mm ± 1.15. Internal distances of the pars planas ranged from 0.33 mm ± 0.49 to 3.17 mm ± 0.39. High probabilities of penetrating the pars plicata correspond to positions 4 mm posterior to the external limbus dorsotemporal 10, 11 o’clock (OD), and 1, 2 o’clock (OS), dorsonasal 1 o’clock (OD) and 11 o’clock (OS), and ventrotemporal 5–7 o’clock (OU). Low probabilities of penetrating the pars plicata correspond to positions ventronasal 4 o’clock (OD), 8 o’clock (OS) and dorsonasal 2 o’clock (OD), 10 o’clock (OS) at 4 and 6 mm posterior to the external limbus as well as ventrotemporal 4 o’clock (OS), 8 o’clock (OD) at 6 mm posterior to the external limbus. Conclusions Transscleral cyclophotocoagulation may be a viable alternative to medical therapy for control of intraocular pressure in horses with glaucoma. Overall, the most accurate anatomical position on the sclera for cyclophotocoagulation of the equine eye is 4–6 mm posterior to the limbus, avoiding the nasal quadrants. Accurate transscleral cyclophotocoagulation shou
ISSN:1463-5216
1463-5224
DOI:10.1046/j.1463-5216.2001.00147.x