TY - JOUR
T1 - Ophthalmic Trauma Correlation Matrix (OTCM)
T2 - a potential novel tool for evaluation of concomitant ocular tissue damage in open globe injuries
AU - Khatri, Anadi
AU - Shrestha, Saurav M.
AU - Kuhn, Ferenc
AU - Subramanian, Prem
AU - Hoskin, Annette K.
AU - Pradhan, Eli
AU - Agrawal, Rupesh
PY - 2022/5
Y1 - 2022/5
N2 - Purpose: To introduce a novel tool to investigate the correlation between concomitant injuries and primary open globe injury (OGI) in the setting of ophthalmic trauma, the “Ophthalmic Trauma Correlation Matrix” (OTCM). Methods: Retrospective cohort review, performed at a tertiary referral eye care center in Eastern Nepal, involving all eyes with OGI meeting the inclusion criteria from 2015–2018. Clinical data including details of primary injury, concurrent injuries, and clinical course were noted from hospital medical records. A correlation matrix chart was devised using matrix correlation and Pearson’s correlation coefficient. This chart was then used to evaluate the association of the various injuries in the setting of OGI. Results: A total of 109 eyes with OGI were included. Majority of the eyes (78, 71.6%) had zone I injuries, while most of the eyes (66, 60.6%) had penetrating injury. The most frequent concomitant injuries in all zones of OGI were traumatic lens injury (77, 70.64%), followed by hyphema (48, 44.03%), and vitreous hemorrhage (35, 32.11%). The most common concomitant injury associated with zone I was hyphema (0.873), while traumatic subluxation/cataract (0.894) and vitreous hemorrhage (0.972) were commonly associated with zone II and III, respectively. Conclusions: OTCM could be a useful tool to manage injuries related to the primary ocular injury. This additional information will aid in the prognostication, planning, and management of OGI and potentially prevent repeat surgeries and inadequate treatments.
AB - Purpose: To introduce a novel tool to investigate the correlation between concomitant injuries and primary open globe injury (OGI) in the setting of ophthalmic trauma, the “Ophthalmic Trauma Correlation Matrix” (OTCM). Methods: Retrospective cohort review, performed at a tertiary referral eye care center in Eastern Nepal, involving all eyes with OGI meeting the inclusion criteria from 2015–2018. Clinical data including details of primary injury, concurrent injuries, and clinical course were noted from hospital medical records. A correlation matrix chart was devised using matrix correlation and Pearson’s correlation coefficient. This chart was then used to evaluate the association of the various injuries in the setting of OGI. Results: A total of 109 eyes with OGI were included. Majority of the eyes (78, 71.6%) had zone I injuries, while most of the eyes (66, 60.6%) had penetrating injury. The most frequent concomitant injuries in all zones of OGI were traumatic lens injury (77, 70.64%), followed by hyphema (48, 44.03%), and vitreous hemorrhage (35, 32.11%). The most common concomitant injury associated with zone I was hyphema (0.873), while traumatic subluxation/cataract (0.894) and vitreous hemorrhage (0.972) were commonly associated with zone II and III, respectively. Conclusions: OTCM could be a useful tool to manage injuries related to the primary ocular injury. This additional information will aid in the prognostication, planning, and management of OGI and potentially prevent repeat surgeries and inadequate treatments.
KW - Concurrent ocular injuries
KW - Eye trauma
KW - Heat map analysis
KW - Ocular injury
KW - Ophthalmic trauma
UR - http://www.scopus.com/inward/record.url?scp=85119512070&partnerID=8YFLogxK
U2 - 10.1007/s00417-021-05491-8
DO - 10.1007/s00417-021-05491-8
M3 - Article
C2 - 34792638
AN - SCOPUS:85119512070
SN - 0721-832X
VL - 260
SP - 1773
EP - 1778
JO - Graefe's Archive for Clinical and Experimental Ophthalmology
JF - Graefe's Archive for Clinical and Experimental Ophthalmology
IS - 5
ER -