Intravenous tocilizumab in idiopathic pediatric uveitis with refractory cystoid macular edema - A case report

Biologics in ocular inflammatory diseases - Experience from a tertiary referral eye care center in South India

PURPOSE

To analyze the utility of biologics in noninfectious uveitis and other ocular inflammatory diseases in a South Indian patient population.

METHODS

This was a retrospective observational study conducted at the uveitis and ocular inflammatory diseases clinic of a tertiary eye care hospital in South India between 2016 and 2023.

RESULTS

Records of 76 patients on biologics were retrieved from our databases. The mean age was 34.84 ± 17.383 years. In 75% of patients, the duration of follow-up was 52.75 months. Overall, anterior nongranulomatous uveitis was the most common anatomic type of uveitis (34.21%). HLA B27-associated uveitis was the most common etiology (34.21%) in whom biologics were used. Patients <18 years of age formed 23.7% with a mean age of 10.77 ± 2.75 years. Mean duration of follow-up in patients <18 years of age was 36 months. In this subgroup, panuveitis was the most common anatomic subtype (61.1%) and juvenile idiopathic arthritis was the most common etiology (27.7%). The most commonly used biologic in this study was adalimumab (36.84%). Additional conventional immunomodulators were used along with biologics in 50 patients (65.78%), of which methotrexate was the most common (50%). Adalimumab and rituximab were biosimilars, while tofacitinib was the generic version. There was a significant decrease in the mean number of flareups post-biologics ( P = 0.001). Adverse effects were seen in 14 patients (18.42%). The success rate of biologics was low in the parsplanitis group <18 years (33.3%), Blau-associated uveitis (50%), and idiopathic uveitis (30%).

CONCLUSION

In this study, we have analyzed the results of biologics in different anatomic types of ocular inflammation and etiologies. The success rate of biologics was low in parsplanitis, idiopathic uveitis, and Blau-associated uveitis and higher in other etiologies.

Efficacy and Safety of Tocilizumab in the Management of Non-Infectious Uveitis Failed with Conventional Immunomodulatory and Anti-TNFα Therapies

PURPOSE

To determine the outcomes of intravenous (IV) tocilizumab (TCZ) in patients with non-infectious uveitis who failed with conventional immunomodulatory and anti-TNFα therapies.

METHODS

Records of seven patients with non-infectious uveitis treated with monthly IV TCZ (4-10 mg/kg) or biweekly IV TCZ (8 mg/kg) were reviewed. Outcome measures were changes in visual acuity, anterior chamber cell and flare grade, vitreous haze, central subfield thickness (CST), and fluorescein angiography (FA) score.

RESULTS

Ten eyes of seven patients received TCZ therapy. Median age of patients was 14 (range, 7-24) years. Median duration of TCZ therapy was 15 (range, 5-32) months. Mean CST reduced from 373 ± 101.0 μm to 298.2 ± 40.3 μm. Mean FA score reduced from 12.5 ± 4.3 to 3.6 ± 2.6. One patient developed elevated liver transaminases.

CONCLUSION

IV TCZ is a potentially effective and safe therapeutic option for the management of refractory non-infectious uveitis.

Update on the systemic management of noninfectious uveitis in children and adolescents

Noninfectious uveitis (NIU) in children and adolescents is a rare but treatable cause of visual impairment in children. Treatments for pediatric NIU and their side effects, along with the risks of vision loss and the need for long-term disease monitoring, pose significant challenges for young patients and their families. Treatment includes local and systemic approaches and this review will focus on systemic therapies that encompass corticosteroids, conventional synthetic disease-modifying antirheumatic drugs (csDMARD), and biological disease-modifying antirheumatic drugs (bDMARD). Treatment is generally planned in a stepwise approach. Methotrexate is well-established as the preferential csDMARD in pediatric NIU. Adalimumab, an antitumor necrosis factor (TNF) agent, is the only bDMARD formally approved for pediatric NIU and has a good safety and efficacy profile. Biosimilars are gaining increasing visibility in the treatment of pediatric NIU. Other bDMARD with some evidence in literature for the treatment of pediatric NIU include infliximab, tocilizumab, abatacept, rituximab and, more recently, Janus kinase inhibitors. Important aspects of managing children on these systemic therapies include vaccination issues, risk of infection, and psychological distress. Also, strategies need to address regarding primary nonresponse/secondary loss of response to anti-TNF treatment, biological switching, and monitoring regimens for these drugs. Optimal management of pediatric uveitis involves a multidisciplinary team, including specialist pediatric uveitis and rheumatology nurses, pediatric rheumatologists, psychological support, orthoptic and optometry support, and play specialists.

An anchoring molecule increases intravitreal retention of antibody-based therapeutics used in the treatment of ocular diseases

Intravitreal delivery of antibody-based therapeutics has revolutionized the treatment of intraocular vascular diseases involving the retina and choroid. Unfortunately, limited durability requires frequent retreatment placing an enormous burden on patients. We sought to solve this problem with a novel approach that uses an anchoring molecule characterized by two key molecular properties: (1) non-covalent binding to an antibody-based therapeutic, and (2) retention in the vitreous cavity. As an initial proof-of-principle, we chose an anchoring molecule composed of agarose microbeads functionalized with an Fc-binding domain. Bevacizumab was chosen as the antibody-based therapeutic. In vitro experiments demonstrated that bevacizumab was maximally bound to this anchoring molecule within 1 h, and was competitively released upon exposure to either polyclonal human (p < 0.0001) or rat (p = 0.0017) immunoglobulins. In silico modeling predicted prolonged intravitreal retention of an antibody-based therapeutic in the presence of this anchoring molecule, which was confirmed by in vivo experiments with this initial anchoring molecule in rats. This anchoring molecule increased the intraocular half-life of bevacizumab from 5.8 days to over 18 days and maintained therapeutic concentrations for over 80 days. Despite showing no evidence of direct cellular toxicity, this anchoring molecule collected in the anterior vitreous, partially obscuring retinal visualization and eliciting a mild chronic microglial/macrophage inflammatory response. These studies provide a plausible approach to the development of novel non-covalent methods of binding, retention, and release of antibody-based therapeutics in the vitreous.