Treatment of Graves' Orbitopathy to Reduce Proptosis With Teprotumumab Infusions in an Open-Label...
Thyroid Eye DiseaseThe overall objective is to evaluate the safety and efficacy of teprotumumab in the treatment of thyroid eye disease (TED) in participants who participated in the lead-in study HZNP-TEP-301 (NCT03298867; OPTIC) and who were either proptosis non-responders at Week 24 of HZNP-TEP-301 or were proptosis responders at Week 24 but met the criteria for re-treatment due to relapse during the Follow-Up Period of HZNP-TEP-301.
Trial of Rituximab for Graves' Ophthalmopathy
Thyroid-associated OphthalmopathyThis study is being done to investigate the effects (good and bad) of Rituximab for the treatment of an autoimmune eye disease called Graves' ophthalmopathy. This disease has proven to be difficult to treat. Rituximab is a monoclonal antibody that depletes a line of cells involved in the autoimmune response. The study hypotheses is that rituximab is effective in the treatment of patients with moderate to severe active Graves' ophthalmopathy.
Randomized Study of Sequential Orbital Radiotherapy for Graves' Ophthalmopathy
Graves' DiseaseOBJECTIVES: I. Evaluate the effects of 20 Gy of external-beam radiotherapy to 1 orbit vs. the untreated orbit at 3 and 6 months after therapy in patients with Graves' ophthalmopathy. II. Evaluate whether 20 Gy of external-beam radiotherapy delivered to the second orbit 6 months later in the course of the disease produces effects of equal magnitude to those observed when the first orbit was treated. III. Relate the magnitude of treatment effects to the time since onset of eye symptoms. IV. Evaluate whether characteristics of radiation retinopathy are present 3 years after orbital radiotherapy.
99Tc-MDP for Thyroid-Associated Ophthalmopathy
Thyroid-Associated OphthalmopathyTo investigate the efficacy,safety and tolerability of 99Tc-MDP in comparison to Methylprednisolone, in the treatment of participants suffering from active moderate to severe TAO.
Teprotumumab (RV 001) Treatment in Patients With Active Thyroid Eye Disease
Thyroid Associated OphthalmopathiesThyroid-Associated OphthalmopathyThe primary objective of this study is to investigate the efficacy, safety, and tolerability of RV 001 (teprotumumab), a fully human anti-IGF1R antibody, administered q3W for 6 months, in comparison to placebo, in the treatment of participants suffering from active TED. "Funding Source - FDA OOPD"
Efficacy of Subantimicrobial Dose Doxycycline for Moderate to Severe and Active Graves' Orbitopathy...
Graves OphthalmopathyGraves Disease8 moreThe aim of this study is to evaluate the effects of subantimicrobial dose doxycycline (50 mg/d), administered for 12 wk, for patients with active moderate-severe Graves' Orbitopathy (GO).
Tocilizumab Treatment in Graves´ Ophthalmopathy (Graves´ Orbitopathy or Thyroid Eye Disease)
Thyroid Associated OphthalmopathiesGraves´ Ophthalmopathy1 moreThe purpose is to investigate tocilizumab administration in patients with moderately to severely or sight-threatening GO (Graves' ophthalmopathy) without response to treatment with corticoid intravenous pulses. Currently, these patients only have surgery as therapeutic alternative. The principal aim of this study is to evaluate efficacy and safety of tocilizumab treatment in order to provide a better alternative to surgery for this patients.
Treatment of Upper Eyelid Retraction Related to Thyroid-associated Ophthalmopathy Using Subconjunctival...
Thyroid-associated OphthalmopathyThyroid-associated ophthalmopathy (TAO) is an autoimmune process that can affect the orbital and periorbital tissues and the thyroid gland. Periorbital inflammation can cause swelling, fatty infiltration, and scarring of the eyelid muscles resulting in eyelid retraction and upper scleral exposure, which is the most common clinical features of TAO.Even with mild eyelid retraction and swelling, most patients become disappointed and depressed due to their cosmetically unacceptable appearance, and they are unwilling to wait for spontaneous resolution or a clinically inactive period for surgical intervention. Thus, most ophthalmologists and endocrinologists recommend surgery in the chronic burnt-out stage. Several treatment options have been described for correction of eyelid retraction, including Botox and filler injection, and surgeries in the burnt-out stage such as lowering the upper lid by recessing the levator muscle, excision of Müller's muscle, introducing a spacer, or myotomies.Surgical options have significant risks as well as an unpredictable course and outcome in some cases. Several authors have reported that subconjunctival botulinum toxin injection provides an immediate, effective treatment by reducing excessive levator function in patients who suffer from disfiguring eyelid appearance and do not want to wait for surgery for upper eyelid retraction.Botox treatment is usually temporary. However, unwanted ptosis, although temporary, was observed in five out of 24 patients (20.8%) in the study by Costa, which may be even more disappointing and cosmetically unacceptable to some patients.Recently, hyaluronic acid gel fillers, which were injected into the subconjunctival levator-Muller plane, demonstrated efficacy in managing Graves' eyelid retraction in three patients.However, complications such as a lumps, fluid buildup, and skin pigment darkening may occur using this technique.Steroid treatment represents a well-established TAO management strategy due to its anti-inflammatory and immunosuppressive actions. However, multiple systemic side effects such as diabetes, infection, hypertension, osteoporosis, and stomach ulcers are major drawbacks of systemic steroid treatment. Due to limitations of systemic steroid treatment, several studies reported TAO improvement with periorbital injections of methylprednisolone and triamcinolone, primarily focusing on reducing proptosis and diplopia. So far, however, only a single small case series study has suggested that an injection of 20 mg triamcinolone into the subconjunctival region of the lid, between the conjunctiva and Muller's muscle, improves upper eyelid retraction within 1 month in three of the four patients. The investigators are not aware of any study designed to demonstrate the treatment efficacy of locally administered triamcinolone to improve eyelid retraction and swelling in a prospective manner. Therefore, we aimed to evaluate both the short-term and long-term effects of subconjunctival triamcinolone injections in treating eyelid retraction and inflammatory swelling caused by TAO.
Thyroid Treatment Trial
Graves OphthalmopathyThis project will compare the efficacy and safety of 2 methods of disease modification in the treatment of active moderate and severe thyroid orbitopathy. A prospective, randomized, double-blind, parallel, controlled multidisciplinary clinical trial involving Singapore National Eye Centre, National University Hospital, Changi General Hospital, Tan Tock Seng Hospital and University of British Columbia Orbital Services, Singapore Eye Research Institute, Singapore General Hospital Endocrinology and Radiology Departments and Tan Tock Seng Hospital Rheumatology Department is planned. The SingHealth-SGH High Field MR Research Laboratory will be involved in the MR imaging of the trial patients. Patients who satisfy the inclusion and exclusion criteria will be asked to participate in this trial. After informed consent (Appendix B) is obtained, each patient will be randomized into one of two treatment arms: 1) Intravenous high-dose pulsed methylprednisolone (1 gram infusion over 1 hour per day with a total of 3 doses over 3 days; 4 cycles at 6 weekly intervals) and oral placebo and 2) Intravenous high-dose pulsed methylprednisolone (same dose) plus oral methotrexate 7.5 mg per week for 2 weeks, increased to 10 mg per week for another 2 weeks then 12.5 mg per week for 5 months (total 6 months of methotrexate treatment). Depending on patient response, the dose can be further increased by 2.5mg per week every 4 weeks to a maximum of 20 mg per week. A strict management protocol will be observed for each recruited patient. Patients who develop adverse side effects or need for surgical intervention will receive appropriate treatment (i.e. treatment will deviate from the protocol but will continue to be monitored). Patients who refuse treatment will be observed clinically and with imaging as a natural control group until such time as intervention is accepted. The patients will have a baseline assessment followed by regular visits to assess treatment response and adverse effects. Observations will include the use of an inflammatory index, motility measurements including quantitative ductions, exophthalmometry readings, palpebral aperture readings and indices of optic nerve function. With regards to the imaging, the patients will be assessed with an initial quantitative CT scan and 3-Tesla MRI scan prior to treatment. After treatment is started, patients will also undergo repeat MRI scan at 24 weeks and 72 weeks to assess quantitative changes with treatment using the Muscle Diameter Index (MDI) and Pixel Value Ratio (PVR) for the inferior rectus, superior rectus, the medial rectus, lateral rectus and orbital fat (Appendix E). Serum and urine will be obtained at the same time intervals as the MRI scan to assess levels of thyroid hormones, thyroid antibodies and urinary glycosaminoglycans (GAGs). Free T4, free T3 and TSH will be recorded to monitor control of hyperthyroidism. Thyroid antibodies measured will include thyroid stimulating immunoglobulin (TSI), thyrotropin-binding inhibition antibody (TB II), thyroid peroxidase antibodies and thyroglobulin antibody. Other tests including the full blood count, urea and electrolytes will be run prior to each dose of steroid treatment and during follow-up to monitor for adverse effects. The results of the assessments will be analyzed for significant differences in treatment response between the 2 groups. The indices of interest will include the percentage of patients in each group who demonstrate a decrease in the inflammatory index of at least 2 points and the time taken for 50% of patients to show such a decrease. Other parameters that reflect the visual function and motility will be compared at different points in time after starting treatment to observe response and sustainability of response. From the serial MRI scans, quantitative analysis of orbital tissues will be done to identify changes with treatment. Antibody and GAG levels will be analyzed to detect any change with treatment. The types and frequency of adverse side effects in the 2 groups will also be assessed. 80 normal subjects will be recruited for MRI scan of the orbits and brain to obtain normative values for the MDI and PVR for the Asian population (Appendix E). This will include 20 subjects from each of 4 decades (21-30 years, 31-40 years, 41-50 years, 51-60 years). The normative data will also be used to create a virtual orbital atlas. This aspect of the study will be performed in collaboration with the Labs for Information Technology (A-Star).
Thyroid-Associated Ophthalmopathy Subtypes and Orbital Antibodies
Graves' OphthalmopathyThe purpose of this study is to determine whether radioactive iodine, as compared to anti-thyroid medications, is a risk factor for the development or progression of thyroid-associated ophthalmopathy in patients with hyperthyroidism due to Graves' disease. The other aim of this study is to determine the incidence of the various ophthalmopathy subtypes and the utility of orbital antibodies in the diagnosis, classification and monitoring of patients with thyroid-associated ophthalmopathy.