ABSTRACT
Purpose: To study the intraoperative retinal macular morphology during macular surgery using handheld spectral domain optical coherence tomography (SDOCT). Design: Prospective, observational case series. Methods: A handheld SDOCT device was used to characterize the preoperative and intraoperative OCT images in 10 eyes of 10 patients undergoing vitrectomy for macular hole (MH) and epiretinal membrane (ERM). I intraoperative imaging was repeated after removal of the internal limiting membrane or the ERM and the images were analyzed. Results: Intraoperative SDOCT images from patients undergoing surgery (5 for full thickness MH including 2 previously failed surgeries and 5 for ERM were reviewed and quantitatively analyzed. In the 5 eyes undergoing surgery for MH, the minimum diameter of the hole showed a significant decrease (P = 0.031; the mean reduction 15.18%; range 6.14- 34.88%). Basal diameter increased in 2 eyes (mean change 9.96%), reduced in 2 (mean reduction 3.28%) while it remained unchanged in 1 case. The MH height decreased in 2 eyes (mean reduction 5.43%) and increased in 3 (mean change 20.04%). Intraoperative imaging in 5 eyes undergoing surgery for ERM revealed immediate decrease in retinal thickness in 3 eyes (mean change 5.00%), and increase in 2 eyes (mean change 17.76%). Comparison of the preincisional and intraoperative handheld SDOCT images demonstrated distinct changes in retinal macular morphology. Conclusion: The intraoperative use of handheld SDOCT provides a novel method for visualizing and quantifying changes in retinal anatomy during macular surgery. Further study is warranted to determine whether intraoperative macular morphological changes could affect and prognosticate MH closure.
ABSTRACT
Optical coherence tomography (OCT) has revolutionized imaging of ocular structures and various disease conditions. Though it has been used in the clinic for some decades, the OCT has only recently found its way into the operating theater. Early attempts at intraoperative OCT, hand‑held and microscope mounted, have already improved our understanding of the surgical pathology and the role it might play in surgical decision‑making. The microscope‑integrated OCT now allows seamless, high‑resolution, real‑time imaging of surgical maneuvers from the incision to wound closure. Visualization of instruments and intraoperative tissue manipulation are possible with this in vivo modality and, therefore, help improve the outcome of surgery. In this article, we describe the advantages it offers during various vitreoretinal procedures.