BACKGROUND: : In a pilot study of awake volunteers, intraocular pressure (IOP), choroid layer thickness, and optic nerve diameter were shown to increase in the prone position over 5 h with a nonsignificant trend of attenuation using a 4-degree increase of table inclination. These effects have previously not been isolated from anesthetic and fluid administration over a prolonged period, using an adequate sample size. METHODS: : After institutional review board approval, 10 healthy volunteers underwent IOP measurement (Tono-Pen XL, Medtronic Solan, Jacksonville, FL) as well as choroidal thickness and optic nerve diameter assessment (Sonomed B-1000, Sonomed, Inc., Lake Success, NY, or the I System-ABD, Innovative Imaging, Inc., Sacramento, CA) on a Jackson table (Orthopedic Systems, Inc., Union City, CA), during 5 h horizontal prone and 5 h 4-degree reverse Trendelenburg positioning. Measurements were assessed as initial supine, initial prone, and hourly thereafter. Vital signs were recorded at each position and time point. RESULTS: : IOP, choroidal thickness, and optic nerve diameter were observed to increase with time in the prone position. A small degree of reverse Trendelenburg attenuated the increase in choroidal thickness but not IOP or optic nerve diameter. CONCLUSIONS: : Prolonged prone positioning increases IOP, choroid layer thickness, and optic nerve diameter independent of anesthetics and intravenous fluid infusion and 4 degrees of table inclination (15 cm of head to foot vertical disparity) may not attenuate these effects.
BACKGROUND: : In a pilot study of awake volunteers, intraocular pressure (IOP), choroid layer thickness, and optic nerve diameter were shown to increase in the prone position over 5 h with a nonsignificant trend of attenuation using a 4-degree increase of table inclination. These effects have previously not been isolated from anesthetic and fluid administration over a prolonged period, using an adequate sample size. METHODS: : After institutional review board approval, 10 healthy volunteers underwent IOP measurement (Tono-Pen XL, Medtronic Solan, Jacksonville, FL) as well as choroidal thickness and optic nerve diameter assessment (Sonomed B-1000, Sonomed, Inc., Lake Success, NY, or the I System-ABD, Innovative Imaging, Inc., Sacramento, CA) on a Jackson table (Orthopedic Systems, Inc., Union City, CA), during 5 h horizontal prone and 5 h 4-degree reverse Trendelenburg positioning. Measurements were assessed as initial supine, initial prone, and hourly thereafter. Vital signs were recorded at each position and time point. RESULTS: : IOP, choroidal thickness, and optic nerve diameter were observed to increase with time in the prone position. A small degree of reverse Trendelenburg attenuated the increase in choroidal thickness but not IOP or optic nerve diameter. CONCLUSIONS: : Prolonged prone positioning increases IOP, choroid layer thickness, and optic nerve diameter independent of anesthetics and intravenous fluid infusion and 4 degrees of table inclination (15 cm of head to foot vertical disparity) may not attenuate these effects.
Authors: T Bein; M Bischoff; U Brückner; K Gebhardt; D Henzler; C Hermes; K Lewandowski; M Max; M Nothacker; T Staudinger; M Tryba; S Weber-Carstens; H Wrigge Journal: Anaesthesist Date: 2015-08 Impact factor: 1.041
Authors: Chad H Hochberg; Kevin J Psoter; Sarina K Sahetya; Eric P Nolley; Shakir Hossen; William Checkley; Meeta P Kerlin; Michelle N Eakin; David N Hager Journal: Crit Care Explor Date: 2022-05-13
Authors: Kira L Segal; Peter M Fleischut; Charles Kim; Ben Levine; Susan L Faggiani; Samprit Banerjee; Farida Gadalla; Gary J Lelli Journal: J Ophthalmol Date: 2014-02-04 Impact factor: 1.909
Authors: Th Bein; M Bischoff; U Brückner; K Gebhardt; D Henzler; C Hermes; K Lewandowski; M Max; M Nothacker; Th Staudinger; M Tryba; S Weber-Carstens; H Wrigge Journal: Anaesthesist Date: 2015-12 Impact factor: 1.041