TY - JOUR
T1 - Ex vivo model for the characterization and identification of drywall intraocular foreign bodies on computed tomography
AU - Syed, Reema
AU - Kim, Sung Hye
AU - Palacio, Agustina
AU - Nunery, William R.
AU - Schaal, Shlomit
N1 - Funding Information:
From the *Department of Ophthalmology, University of Louisville, Louisville, Kentucky; and †Department of Ophthalmology, University of Massachusetts School of Medicine, Worcester, Massachusetts. Supported in part by an unrestricted grant from Research to Prevent Blindness, Inc. Poster Presented at American Academy of Ophthalmology Annual Meeting, October 17, 2016. None of the authors has any conflicting interests to disclose. S.-H. Kim and A. Palacio have contributed equally to the manuscript. Reprint requests: Shlomit Schaal, MD, PhD, 281 Lincoln Street, Worcester, MA 01605; e-mail: [email protected]
Publisher Copyright:
© 2017 Ophthalmic Communications Society, Inc.
PY - 2018/7/1
Y1 - 2018/7/1
N2 - Background: The study was inspired after the authors encountered a patient with a penetrating globe injury due to drywall, who had retained intraocular drywall foreign body. Computed tomography (CT) was read as normal in this patient. Open globe injury with drywall has never been reported previously in the literature and there are no previous studies describing its radiographic features. Methods: The case report is described in detail elsewhere. This was an experimental study. An ex vivo model of 15 porcine eyes with 1 mm to 5 mm fragments of implanted drywall, 2 vitreous only samples with drywall and 3 control eyes were used. Eyes and vitreous samples were CT scanned on Days 0, 1, and 3 postimplantation. Computed ocular images were analyzed by masked observers. Size and radiodensity of intraocular drywall were measured using Hounsfield units (HUs) over time. Results: Intraocular drywall was hyperdense on CT. All sizes studied were detectable on Day 0 of scanning. Mean intraocular drywall foreign body density was 171 ± 52 Hounsfield units (70-237) depending on fragment size. Intraocular drywall foreign body decreased in size whereas Hounsfield unit intensity increased over time. Conclusion: Drywall dissolves in the eye and becomes denser over time as air in the drywall is replaced by fluid. This study identified Hounsfield Units specific to intraocular drywall foreign body over time.
AB - Background: The study was inspired after the authors encountered a patient with a penetrating globe injury due to drywall, who had retained intraocular drywall foreign body. Computed tomography (CT) was read as normal in this patient. Open globe injury with drywall has never been reported previously in the literature and there are no previous studies describing its radiographic features. Methods: The case report is described in detail elsewhere. This was an experimental study. An ex vivo model of 15 porcine eyes with 1 mm to 5 mm fragments of implanted drywall, 2 vitreous only samples with drywall and 3 control eyes were used. Eyes and vitreous samples were CT scanned on Days 0, 1, and 3 postimplantation. Computed ocular images were analyzed by masked observers. Size and radiodensity of intraocular drywall were measured using Hounsfield units (HUs) over time. Results: Intraocular drywall was hyperdense on CT. All sizes studied were detectable on Day 0 of scanning. Mean intraocular drywall foreign body density was 171 ± 52 Hounsfield units (70-237) depending on fragment size. Intraocular drywall foreign body decreased in size whereas Hounsfield unit intensity increased over time. Conclusion: Drywall dissolves in the eye and becomes denser over time as air in the drywall is replaced by fluid. This study identified Hounsfield Units specific to intraocular drywall foreign body over time.
KW - Computed tomography
KW - Drywall
KW - Hounsfield units
KW - Intraocular foreign body
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U2 - 10.1097/IAE.0000000000001731
DO - 10.1097/IAE.0000000000001731
M3 - Article
C2 - 28613214
AN - SCOPUS:85049940637
SN - 0275-004X
VL - 38
SP - 1432
EP - 1435
JO - Retina
JF - Retina
IS - 7
ER -