Estimation of papilledema severity using spectral-domain optical coherence tomography

Wang, Jui-Kai

01 May 2016

Papilledema is a particular type of optic disc swelling caused by elevated intracranial pressure. By observing the visible features from fundus images or direct funduscopic examination, a typical method of assessing papilledema (i.e., the six-stage Fris\'en grading system) is qualitative and frequently suffers from low reproducibility. Compared to fundus images, spectral-domain optical coherence tomography (SD-OCT) is a relatively new imaging technique and enables the cross-sectional information of the retina to be acquired. Using SD-OCT images, quantitative measurements like evaluating the retinal volume or depth are intuitively more robust than the traditional qualitative approach to evaluate papilledema. Also, multiple studies suggest that the deformation of the peripapillary retinal pigment epithelium and/or Bruch's membrane (pRPE/BM) may reflect the intracranial pressure change. In other words, modeling/quantifying the pRPE/BM shape can potentially be another indicator of papilledema. However, when the optic disc is severely swollen, the retinal structure is dramatically deformed and often causes the commercial SD-OCT devices to fail to segment the retinal layers. Without appropriate layer segmentation, all the retinal measurements are not reliable. To solve the current issue of inconsistently assessing papilledema severity, a comprehensive machine-learning framework is proposed in this doctoral work to achieve the goal by accomplishing following four aims. First, robust approaches are developed to automatically segment the retinal layers in 2D and 3D SD-OCT images, even though the optic discs can be severely swollen. Second, the semi- and fully automated methodologies are designed to segment the pRPE/BM opening under the swollen inner retina in these SD-OCT images. Third, the pRPE/BM shape models are constructed using both 2D and 3D SD-OCT images, and then the 2D/3D pRPE/BM shape measures are computed. Finally, based on the previously segmented retinal layers, eight OCT 2D/3D global/local measurements of retinal structure are reliably computed. Considering both the 2D/3D pRPE/BM shape measures and these eight OCT features as an input set, a machine-learning framework using the random forest technique is proposed to compute a papilledema severity score (PSS) on a continuous scale. The newly proposed PSS is expected to be an alternative to the traditional qualitative method to provide a more objective measurement of assessing papilledema severity.

publicabstract

Optical Coherence Tomography

Papilledema

Electrical and Computer Engineering

Michelle Loftin Thesis Proper Format 12-3 AS.pdf

Michelle Loftin (17592504)

03 January 2024

<p dir="ltr">Papilledema is the swelling of the optic disc resulting from increased cranial pressure. The diagnosis of papilledema is important not only to treat pathologies of the eye, but it also can be an important indicator for underlying brain pathology since the subarachnoid space surrounding the optic nerve is contiguous with the brain. Therefore increased pressure from the brain from pathologies such as hydrocephalus can be transmitted to the posterior eye. To study papilledema, a reproducible post hemorrhagic hydrocephalic rat model was used to study the changes of the retina, optic disc and optic nerve when exposed to high intracranial pressure. Multiple changes were noted in the post hemorrhagic hydrocephalic model including decreased thickness of the ganglion cell complex, decreased retinal thickness in the periphery in females, increased retinal thickness close to the optic nerve in males, increased optic disc width and diameter along with a decrease number of retinal ganglion cells. These findings were similar to findings in human patients with papilledema. Therefore, future studies are indicated using the post hemorrhagic hydrocephalic rat model to further understand the mechanism of papilledema progression and the use of possible therapeutics.</p>

Central nervous system

Neurology and neuromuscular diseases

Sensory systems

Hydrocephalus

Optic nerve

Retina

post hemorrhagic hydrocephalus

papilledema