Vitrectomy, Subretinal Tissue Plasminogen Activator (TPA) and Intravitreal Gas for Submacular Haemorrhage Secondary to Exudative (Wet) Age-related Macular Degeneration (TIGER).

Overview

The centre of the retina (macula) at the back of the eye contains cells that give us our central vision that we use for reading and recognising faces. These cells can be damaged by a disease called wet age-related macular degeneration (AMD), where new abnormal blood vessels grow through the macula and leak fluid. This can affect vision. In some cases, wet AMD can also cause a bleed under the macula, known as a submacular haemorrhage (SMH), which can lead to marked and persistent loss of vision in the eye. The current standard treatment for wet AMD is to give injections containing 'anti-VEGF' drugs into the eye. Anti-VEGF drugs reduce the leakage of fluid so that the macula can become dry again and sight can improve. Anti-VEGFs are also the current standard of care for SMH, mainly because there is no licensed treatment for the SMH itself (patients with SMH were excluded from most wet AMD studies). The purpose of this study therefore is to compare two treatments: 1. Standard treatment for wet AMD (anti-VEGF injections). 2. Standard treatment above plus surgery. This study will find out if having surgery alongside anti-VEGF injections can improve vision further over the current standard treatment of anti-VEGF injections alone.

SMH is a rare but devastating complication of wet AMD. Untreated, SMH typically leads to permanent and severe loss of vision, ranging from 6/30 (approximately 20% normal vision) to only being able to perceive light versus dark (no useful vision). There are no large, published, randomised controlled trials (RCTs) evaluating treatments for SMH. Hence there is no widely-accepted treatment approach. Some patients are managed by observation, others with drugs (anti-VEGF) injected into the eye, others with eye surgery (vitrectomy, subretinal TPA, gas) and combinations thereof. From a regulatory perspective the standard treatment is with anti-VEGF injections alone, since these are licensed for the treatment of wet AMD (and there is no treatment licensed for SMH). This study will test the hypothesis that surgery with anti-VEGF injections for SMH due to wet AMD is superior to the current standard of treatment with anti-VEGF injections alone. The results will help guide future clinical practice to maximise the visual outcomes for patients with SMH. Most potential participants will present or be referred to the clinics of the investigators who provide routine care for wet AMD. Referrals may arise from research networks, family physicians, optometrists or ophthalmologists. After confirming the diagnosis of SMH, informed consent will be obtained and potential participants will be asked to sign a consent form. Following this, baseline screening will occur, including a clinical examination and a series of vision tests to confirm eligibility to take part in the study. Once successfully screened, each participant will be randomly allocated to one of the two study groups: 1. Standard current treatment with anti-VEGF injections: participants will be given their first injection into the study eye at the screening/baseline visit, or otherwise within a few days. Following this, each participant will receive another injection at month 1, another at month 2 and thereafter one injection every two months until the end of the study (month 12). Anaesthetic eye drops will be given to numb the eye before each injection. 2. Standard current treatment with anti-VEGF injections plus surgery: participants will be given their first injection into the study eye at the time of surgery and then all other injections as per the schedule above. During the surgery, the clear gel (vitreous) that fills the inside of the eye will be removed and a clot-busting drug (TPA) will be injected into the eye to help break up the blood clot. The inside of the eye will then be filled with gas to help push the dissolved clot away from the macula. Various options for anaesthetic will be discussed with each participant before surgery, including (i) local anaesthetic only, (ii) local anaesthetic with some sedation, to reduce any anxiety or (iii) general anaesthetic so the participant is asleep during the surgery. If the participant also has a cataract or is likely to develop one, the surgeon will discuss the option of having cataract surgery as part of the same operation. After the surgery, participants will be asked to keep their heads forward, to enable the gas bubble to move the blood clot away from the macula. This should be done for 50 minutes out of every hour for the first five days. During the 10-minute breaks, participants will be encouraged to move around and be active. At night, participants will be asked to sleep on the side of the operated eye, i.e. with the operated eye lowest. The gas is expected to disappear from the eye around 4-8 weeks after surgery. Participants who have had surgery will be instructed to return for follow up the day after surgery and also one week later. All participants will also have a clinical examination at 6 and 12 months that will include tests of their vision. They will also attend regularly for anti-VEGF injections: every month for the first three visits, then every two months until the study is completed at month 12.