Ciliary body position variability in glaucoma patients assessed by scleral transillumination

Aim  To quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide contact probe placement during cyclodestructive procedures. Method  This was a prospective experimental study with human subjects. One hundred...

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Published inEye (London) Vol. 22; no. 12; pp. 1499 - 1503
Main Authors Agrawal, P, Martin, K R
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.12.2008
Nature Publishing Group
Subjects
Adolescent
Adult
Aged
Aphakia - pathology
Biological and medical sciences
Ciliary Body - pathology
clinical-study
Diagnostic Techniques, Ophthalmological
Glaucoma
Glaucoma - pathology
Glaucoma and intraocular pressure
Humans
Laboratory Medicine
Medical sciences
Medicine
Medicine & Public Health
Middle Aged
Miscellaneous
Ophthalmology
Phakic Intraocular Lenses
Pharmaceutical Sciences/Technology
Prospective Studies
Pseudophakia - pathology
Surgery
Surgical Oncology
Young Adult
ciliary body
glaucoma
cyclodiode
Glaucoma
Human
Protozoa
Ciliary body
Position
Variability
Eye disease
Glaucoma (eye)
Ciliata
Ophthalmology
Sclera
Transillumination
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Abstract Aim  To quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide contact probe placement during cyclodestructive procedures. Method  This was a prospective experimental study with human subjects. One hundred consecutive glaucoma patients attending a glaucoma clinic were recruited between June and November 2006. A fibre optic light source was used to identify ciliary body position by transscleral transillumination. The distance between the ciliary body and corneoscleral limbus was measured in the superior, temporal, inferior, and nasal quadrants of both eyes using surgical callipers. Results  The anterior boundary of the ciliary body was located 1.5–5 mm posterior to the corneoscleral limbus. The ciliary body was located significantly more posteriorly in the superior and inferior quadrants compared to the nasal and temporal quadrants. ( P <0.001). Ciliary body position was significantly correlated with the mean sphere of the refractive error in phakic patients ( r 2 =0.052; P =0.047). The ciliary body tended to be located most posteriorly in myopic eyes. Conclusions  The distance between the corneoscleral limbus and the ciliary body as identified by transillumination varies significantly in different quadrants of the eye. Considerable variability was also observed between different patients with glaucoma. Ciliary body transillumination on patients undergoing cyclodestructive procedures may have implications for optimal probe placement and therapeutic outcome.
AbstractList Aim  To quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide contact probe placement during cyclodestructive procedures. Method  This was a prospective experimental study with human subjects. One hundred consecutive glaucoma patients attending a glaucoma clinic were recruited between June and November 2006. A fibre optic light source was used to identify ciliary body position by transscleral transillumination. The distance between the ciliary body and corneoscleral limbus was measured in the superior, temporal, inferior, and nasal quadrants of both eyes using surgical callipers. Results  The anterior boundary of the ciliary body was located 1.5–5 mm posterior to the corneoscleral limbus. The ciliary body was located significantly more posteriorly in the superior and inferior quadrants compared to the nasal and temporal quadrants. ( P <0.001). Ciliary body position was significantly correlated with the mean sphere of the refractive error in phakic patients ( r 2 =0.052; P =0.047). The ciliary body tended to be located most posteriorly in myopic eyes. Conclusions  The distance between the corneoscleral limbus and the ciliary body as identified by transillumination varies significantly in different quadrants of the eye. Considerable variability was also observed between different patients with glaucoma. Ciliary body transillumination on patients undergoing cyclodestructive procedures may have implications for optimal probe placement and therapeutic outcome.
To quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide contact probe placement during cyclodestructive procedures. This was a prospective experimental study with human subjects. One hundred consecutive glaucoma patients attending a glaucoma clinic were recruited between June and November 2006. A fibre optic light source was used to identify ciliary body position by transscleral transillumination. The distance between the ciliary body and corneoscleral limbus was measured in the superior, temporal, inferior, and nasal quadrants of both eyes using surgical callipers. The anterior boundary of the ciliary body was located 1.5-5 mm posterior to the corneoscleral limbus. The ciliary body was located significantly more posteriorly in the superior and inferior quadrants compared to the nasal and temporal quadrants. (P<0.001). Ciliary body position was significantly correlated with the mean sphere of the refractive error in phakic patients (r(2)=0.052; P=0.047). The ciliary body tended to be located most posteriorly in myopic eyes. The distance between the corneoscleral limbus and the ciliary body as identified by transillumination varies significantly in different quadrants of the eye. Considerable variability was also observed between different patients with glaucoma. Ciliary body transillumination on patients undergoing cyclodestructive procedures may have implications for optimal probe placement and therapeutic outcome.
To quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide contact probe placement during cyclodestructive procedures.AIMTo quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide contact probe placement during cyclodestructive procedures.This was a prospective experimental study with human subjects. One hundred consecutive glaucoma patients attending a glaucoma clinic were recruited between June and November 2006. A fibre optic light source was used to identify ciliary body position by transscleral transillumination. The distance between the ciliary body and corneoscleral limbus was measured in the superior, temporal, inferior, and nasal quadrants of both eyes using surgical callipers.METHODThis was a prospective experimental study with human subjects. One hundred consecutive glaucoma patients attending a glaucoma clinic were recruited between June and November 2006. A fibre optic light source was used to identify ciliary body position by transscleral transillumination. The distance between the ciliary body and corneoscleral limbus was measured in the superior, temporal, inferior, and nasal quadrants of both eyes using surgical callipers.The anterior boundary of the ciliary body was located 1.5-5 mm posterior to the corneoscleral limbus. The ciliary body was located significantly more posteriorly in the superior and inferior quadrants compared to the nasal and temporal quadrants. (P<0.001). Ciliary body position was significantly correlated with the mean sphere of the refractive error in phakic patients (r(2)=0.052; P=0.047). The ciliary body tended to be located most posteriorly in myopic eyes.RESULTSThe anterior boundary of the ciliary body was located 1.5-5 mm posterior to the corneoscleral limbus. The ciliary body was located significantly more posteriorly in the superior and inferior quadrants compared to the nasal and temporal quadrants. (P<0.001). Ciliary body position was significantly correlated with the mean sphere of the refractive error in phakic patients (r(2)=0.052; P=0.047). The ciliary body tended to be located most posteriorly in myopic eyes.The distance between the corneoscleral limbus and the ciliary body as identified by transillumination varies significantly in different quadrants of the eye. Considerable variability was also observed between different patients with glaucoma. Ciliary body transillumination on patients undergoing cyclodestructive procedures may have implications for optimal probe placement and therapeutic outcome.CONCLUSIONSThe distance between the corneoscleral limbus and the ciliary body as identified by transillumination varies significantly in different quadrants of the eye. Considerable variability was also observed between different patients with glaucoma. Ciliary body transillumination on patients undergoing cyclodestructive procedures may have implications for optimal probe placement and therapeutic outcome.
To quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide contact probe placement during cyclodestructive procedures. This was a prospective experimental study with human subjects. One hundred consecutive glaucoma patients attending a glaucoma clinic were recruited between June and November 2006. A fibre optic light source was used to identify ciliary body position by transscleral transillumination. The distance between the ciliary body and corneoscleral limbus was measured in the superior, temporal, inferior, and nasal quadrants of both eyes using surgical callipers. The anterior boundary of the ciliary body was located 1.5-5 mm posterior to the corneoscleral limbus. The ciliary body was located significantly more posteriorly in the superior and inferior quadrants compared to the nasal and temporal quadrants. (P<0.001). Ciliary body position was significantly correlated with the mean sphere of the refractive error in phakic patients (r(2)=0.052; P=0.047). The ciliary body tended to be located most posteriorly in myopic eyes. The distance between the corneoscleral limbus and the ciliary body as identified by transillumination varies significantly in different quadrants of the eye. Considerable variability was also observed between different patients with glaucoma. Ciliary body transillumination on patients undergoing cyclodestructive procedures may have implications for optimal probe placement and therapeutic outcome.
Author Martin, K R
Agrawal, P
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Issue 12
Keywords ciliary body
glaucoma
cyclodiode
Glaucoma
Human
Protozoa
Ciliary body
Position
Variability
Eye disease
Glaucoma (eye)
Ciliata
Ophthalmology
Sclera
Transillumination
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Snippet Aim  To quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide...
To quantify ciliary body position variability in glaucoma patients in order to determine if scleral transillumination should be used routinely to guide contact...
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springer
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StartPage 1499
SubjectTerms Adolescent
Adult
Aged
Aphakia - pathology
Biological and medical sciences
Ciliary Body - pathology
clinical-study
Diagnostic Techniques, Ophthalmological
Glaucoma
Glaucoma - pathology
Glaucoma and intraocular pressure
Humans
Laboratory Medicine
Medical sciences
Medicine
Medicine & Public Health
Middle Aged
Miscellaneous
Ophthalmology
Phakic Intraocular Lenses
Pharmaceutical Sciences/Technology
Prospective Studies
Pseudophakia - pathology
Surgery
Surgical Oncology
Young Adult
Title Ciliary body position variability in glaucoma patients assessed by scleral transillumination
URI https://link.springer.com/article/10.1038/eye.2008.79
https://www.ncbi.nlm.nih.gov/pubmed/18356924
https://www.proquest.com/docview/218354818
https://www.proquest.com/docview/69891167
Volume 22
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