A 57-year-old Caucasian female, presented to the University of Virginia eye clinic on April 2018 for a contact lens evaluation. She had been referred, with a diagnosis of severe dry eye disease, secondary to ocular GVHD. The patient had a history of acute myeloid leukemia, now in remission after undergoing an allogeneic (matched sibling) bone marrow transplant in 2000.

The patient’s chief complaint during the initial visit was irritation in both eyes (OS>OD) starting in May 2017, which manifested as a “burning and gritty” sensation, redness, tearing, and light sensitivity. She reported that these symptoms had been gradually worsening since their onset and were now constant in duration. Her treatment included preservative-free artificial tears PRN (>6x/day per patient) OU, daily warm compresses OU, erythromycin ointment QHS OU, doxycycline PO 100 mg/day, punctal plugs OU, and serum tears with Restasis QID OU, which had been prescribed prior to her visit. On slit lamp examination, we found that a punctal plug was in place in the left eye only.

In addition to irritation in both eyes, the patient reported mild blurry vision at all distances. She had undergone cataract surgery in both eyes in 2005. She did not wear any correction for distance and used +2.50 OTC readers for near. She had ocular hypertension, for which she took Cosopt BID OU and Xalatan QHS OU. Other medical history included gastroesophageal reflux disease (GERD).

Uncorrected distance visual acuity was 20/30-2 OD and 20/50+2 OS, with pinhole improvement to 20/25-2 OD and 20/25+2 OS. Intraocular pressures were 14 mmHg OD and 17 mmHg OS. Testing of pupils, extraocular muscle movement, and counting fingers visual fields was normal.

Slit lamp examination revealed poliosis of the eyelashes, 1-2+ capped meibomian glands, trace scurf, telangiectasia, tyalosis, and distorted gray lines (per lissamine staining) in both eyes. There were diffuse punctate epithelial erosions, diffuse subepithelial infiltrates, and conjunctival injection in both eyes (Figure 1). As per the grading scales outlined in the International Chronic Ocular GVHD Consensus Group report, the patient had grade 3 corneal fluorescein staining and grade 2 conjunctival injection.

Figure 1: Clockwise from top: Grade 3 (severe) corneal fluorescein staining, Grade 2 (severe) conjunctival injection, Subepithelial infiltrates.

Ocular GVHD has no clinical signs or symptoms that are specific for the disease [1,2]. Patients often present with typical dry eye symptoms such as a gritty or foreign body sensation, burning, itching, tearing and/or redness [1]. Medical history is important to the diagnosis of ocular GVHD.

In 2013, the International Chronic Ocular Graft-Versus-Host Disease Consensus Group provided new diagnostic metrics for chronic ocular GVHD. Their report identified four subjective and objective variables to measure in patients following allogeneic hematopoietic stem cell transplantation: (1) Ocular Surface Disease Index (OSDI), (2) Schirmer’s score without anesthesia, (3) Corneal staining, and (4) Conjunctival injection. Each variable is scored 0-2 or 0-3, with a maximum composite score of 11 (Table 1) [3]. The report provided representative images of corneal staining and conjunctival injection at different levels of severity to help with scoring [3]. Altogether, a diagnosis of ocular GVHD considers the total score, as well as the presence or absence of systemic GVHD [3].

Table 1: Severity scale in chronic ocular GVHD

We did not complete Schirmer’s test without anesthesia at the time of the patient’s visit. The wetting length should be increased without anesthesia. While we expect she would have had values in the moderate to severe range, we have chosen to be conservative and give her a severity score of 0 for Schirmer’s [4]. The patient had severity scores of 3 for corneal fluorescein staining, 3 for OSDI, (detailed in the next section), and 2 for conjunctival injection. A total score of 8 generated a severity classification of mild/moderate (Table 1). According to the International Chronic Ocular GVHD Consensus Group, our patient had “Definite GVHD” whether or not you consider her GERD a systemic manifestation of GVHD (Table 2) [5,6].

Table 2: Diagnosis of chronic ocular GVHD

To quantify our patient’s symptoms prior to the scleral contact lens fitting, the Ocular Surface Disease Index (OSDI) Questionnaire was use. The OSDI is a 12-item questionnaire designed to provide an assessment of the symptoms of dry eye disease (DED) and their impact on vision-related functioning [7]. The OSDI is scored on a scale of 0-100, with higher scores representing greater disability [7]. Our patient had a final score of 90.9 indicating severe DED.

We took a baseline topography using standard Topcon topographer (Figure 2). This topography showed mild to moderate irregular astigmatism. No defined pattern could be identified. Both factors were probably a result of severe ocular surface dryness. Corneal curvature was slightly increased.

Figure 2: Topography results.

The patient was fitted in Onefit 2.0 scleral lenses with a central corneal clearance of 380 ± 110 um [8]. These lenses provided vaults of 450 um OD and 380 um OS (Figures 3 and 4) after ten minutes of wear time. We assumed that the lenses would lose some central corneal clearance (≤ 100 um) over the first hour with settling [9].

Figure 3: Anterior Segment Optical Coherence Tomography (OCT) OD

Figure 4: Anterior Segment Optical Coherence Tomography (OCT) OS

HCT involves an intravenous infusion of healthy stem cells that have been harvested from a patient’s own tissue (autologous) or from human leukocyte antigen (HLA)-matched donor tissue (allogeneic). In an allogeneic HCT, stem cells are taken from bone marrow, peripheral blood, or umbilical cord blood [1]. The goal of the treatment is to incite an immune response against malignant cells and to restore hematopoietic function [3]. When using HLA-matching between nonidentical donors and recipients, there are often genetic differences outside of the HLA region, in the form of minor histocompatibility antigens [1]. As a consequence, approximately 40% to 60% of patients receiving allogeneic HCT develop GVHD [1].

GVHD is a multisystem disorder that arises when immune cells transplanted from a donor (the graft) recognize proteins on cells of the recipient (host) as foreign, thereby causing an exaggerated immune reaction and a multitude of complications. GVHD has historically been divided into acute and chronic. Definitions of the acute and chronic variants are based on specific tissue involvement instead of time of onset [8]. Acute GVHD (aGVHD) affects multiple organsprimarily the skin, liver, and intestinal tract-and can be fatal [8]. Chronic GVHD (cGVHD) is more complex in presentation, with manifestations similar to autoimmune disorders such as Sjogren syndrome and rheumatoid arthritis [1], cGVHD causes fibrosis, stenosis, and atrophy of tissues in the skin, lung, and mucous membranes, including the eyes [10]. A large majority of patients with cGVHD have suffered from previous episodes of aGVHD [10]. The risk factors for cGVHD are not fully understood, but it is thought that gender and donor to recipient ages play a role [1,8].

Ocular GVHD is a general term for keratoconjunctivitis sicca, conjunctival disease, and other ocular surface issues following allogeneic HCT [1]. Ocular complications have been reported in roughly 40% to 60% of patients after transplantation, as compared with non-ocular complications in 60% to 90% of patients [1,2]. The presence of skin and/or mouth involvement puts patients at a higher risk for ocular involvement. Ocular involvement can be the first manifestation of systemic GVHD [2] and may be associated with greater GVHD severity [1,9]. Ocular GVHD can significantly impair a patient’s quality of life and restrict activities of daily living. The condition warrants close ophthalmic monitoring and treatment.

Ocular tissues affected by acute and chronic GVHD include: the eyelids and periorbital skin, lacrimal system, cornea, conjunctiva, sclera, lens, uvea, and retina [2]. The most common manifestation of ocular GVHD is dry eye disease (DED), otherwise known as keratoconjunctivitis sicca (KCS), which typically occurs 6 to 12 months after stem cell transplantation [1]. The primary cause of cGVHDrelated KCS is lacrimal gland dysfunction with severe aqueous deficiency, a process that appears to be associated with lymphocytic infiltration [1,8]. T-cells and other inflammatory cells often target the mucous membranes lining of the ducts of major and accessory lacrimal glands and meibomian glands [1,10].

Keratoconjunctivitis sicca related to cGVHD is often exacerbated by meibomian gland dysfunction, and is less often worsened by lid dysfunction, radiation therapy, and chemotherapy [4]. When severe, KCS can lead filamentary keratitis, neovascularization, neurotrophic keratopathy, ulceration, and corneal melting [10]. Other ocular complications associated with GVHD include: cataracts that are commonly posterior subcapsular opacities, microvascular retinopathy, central serous chorioretinopathy, posterior scleritis and vitritis [8,10]. It is important to note that the cataracts and posterior segment findings reported in cases of GVHD may be adverse effects of pharmacologic therapy rather than GVHD [8,10].

Interest in scleral lenses has grown considerably in the past several years. Most patients with ocular GVHD have a normal scleral contour, making the process of fitting scleral lenses on these patients relatively straightforward. Fitting should be followed with quantifiable measures, such as OSDI. GVHD has the potential to cause severe ocular problems in allogenic HCT, impairing quality of life. Therefore it is essential to perform close ocular monitoring of these patients.

There are no known preventative therapies for ocular GVHD [1]. Treatments for this condition are aimed at protecting the eyes from further damage and providing long-term symptomatic relief [8]. The treatment strategies include improving tear function and decreasing ocular surface inflammation. Eye care providers typically use a “stepped care” approach, starting with the simplest forms of therapy and increasing the aggressiveness of their intervention as necessary [8].

Graft-versus-host disease (GVHD) continues to be a significant cause of morbidity and mortality in patients who have undergone allogeneic hematopoietic stem cell transplantation. This condition can affect multiple organ systems and therefore requires close monitoring and care by a multidisciplinary team of doctors. Ocular manifestations are common, eye care providers should expect to be a part of these treatment teams. There are multiple strategies at our disposal to tailor our management plan to each individual patient. Scleral lenses are one such strategy that has been found to provide both symptomatic relief and ocular surface protection for patients with ocular GVHD [8].

We report a patient who presented with severe DED due to cGVHD following allogeneic HCT. By her account and by OSDI questionnaire, this severely impaired her quality of life and restricted her daily activities. Scleral lenses restored much of both and made her eyes “feel normal again”.