Increased choroidal thickness in macular commotio retinae tied to decreased visual acuity

Marie Burke et al carried out a study to investigate the subfoveal choroidal thickness (CT) and choroidal area (CA) in patients with unilateral commotio retinae of the macula. After analysis of SD-OCT images obtained with EDI protocol, CT, CA, and best-corrected visual acuity (BCVA) were compared using the nontraumatized fellow eye as the control.

This was a retrospective review of 16 eyes of 8 consecutive patients with unilateral macular commotio retinae within 7 days of blunt ocular trauma that underwent optical coherence tomography with enhanced-depth imaging seen at the institution. The contralateral, nontraumatized eye served as the control group.

All patients underwent spectral domain optical coherence tomography imaging with enhanced-depth imaging protocol. Using the electronic caliper within the Zeiss optical coherence tomography review software, CT was measured from the outer portion of the retinal pigment epithelium band to the inner surface of the sclera. The central horizontal and vertical rasters were averaged to calculate the final CT measurement of each eye. The final CA reading of each eye was obtained by averaging the central 1,500 mm2 of subfoveal CA using the same rasters. The researchers compared the CT, CA, and best-corrected visual acuity in traumatized eyes with macular commotio with their fellow nontraumatized control eyes.

RESULTS:

• The BCVA in traumatized eyes ranged from 20/30 to no light perception compared with a BCVA of 20/20 to 20/60 in control eyes.

• The difference in mean visual acuity was significant between traumatized eyes compared with control eyes (P = 0.0180).

• Eyes with macular commotio retinae displayed increased subfoveal CT (P = 0.0027).

• In addition, subfoveal mean CA was larger in eyes with macular commotio retinae compared with control eyes (P = 0.0279)

Several mechanisms for the sheen-like, opacified appearance of the retina in commotio retinae after blunt ocular trauma have been proposed, including extracellular edema, glial swelling, and photoreceptor outer segment disruption. Optical coherence tomography has dramatically improved understanding of the morphologic changes to the outer retina when commotio retinae involves the macula. In addition, macular photoreceptor function has been shown to be impaired in eyes with Berlin edema when tested with multifocal electroretinography.

Subfoveal CT and area were greater in eyes with commotio retinae than in the fellow nontraumatized eye after recent blunt trauma. Therefore, the commotio retinae does not only result in well-established changes to the outer retina but choroidal changes as well. The mechanism of increased CT is unclear; however the authors suggest that the findings could be attributable to choroidal vascular dilation in response to trauma.

Given the lack of automated CT and area measurements on existing OCT analysis software, one limitation of this study was the dependence on manual measurements of the CT using the software's built-in caliper function. As a result, intragrader variability may occur regarding recognition of choroidal boundaries. In an attempt to minimize the impact of this variability, CA was also analyzed in addition to CT.

The researchers concluded, "Subfoveal CT and CA were greater in eyes with commotio retinae when compared with normal fellow eyes. Increased CT and CA in macular commotio retinae were associated with decreased visual acuity."

Source: Marie Burke, Philip Lieu, Gary Abrams & Joseph Boss; RETINAL CASES & BRIEF REPORTS 15:417–420, 2021