Diabetes Complications Clinical Trial
Official title:
Preoperative Intravitreal Ranibizumab for Persistent Diabetic Vitreous Haemorrhage: A Randomized, Double-masked, Controlled Study
This study will enrol patients with diabetes who have already elected to undergo pars plana
vitrectomy (eye surgery) to remove persistent vitreous haemorrhage (a complication of severe
diabetic eye disease in which blood fills the inner cavity of the eye, obscuring the vision
and preventing treatment to stop the bleeding). Those in the treatment arm will have an
intravitreal injection of ranibizumab (Lucentis) at the same dose used for the treatment of
neovascular (wet) age-related macular degeneration (a disease that has some features in
common with diabetic eye disease).
It is hypothesised that this will promote clearance of the vitreous haemorrhage and that
this, in turn, may mean that some patients do not need to proceed to vitrectomy.
The eye is designed like a camera, with a lens at the front and a film at the back. Using
this analogy, the retina is the film in the camera and the vitreous is the space between the
lens and the retina. Light focused from the lens falls on the retina and creates an image of
the outside world which is then transmitted to the brain.
Within the retina there are small blood vessels which supply it with nutrition. Sometimes in
eye disease such as diabetes these blood vessels can grow abnormal new branches (stimulated
by growth factors such as VEGF) which leave the retina and grow into the vitreous space.
Because these new vessels are very fragile they have a tendency to get damaged and bleed.
When they bleed into the vitreous space it creates a large collection of blood (haemorrhage)
which prevents the focused light from the lens reaching the retina. This dramatically reduces
the vision in this eye for the patient and prevents healthcare practitioners from examining
the eye and giving further treatment for the cause of the bleed. This often means an eye
operation is required to clear the blood from the vitreous space, to allow the patient to see
and to allow further treatment to prevent worsening of the eye disease.
Diabetic retinopathy is the name given to the damage caused by diabetes to the retina in
patients with this condition. It is the leading cause of vision loss in this group of
patients who are mostly of working age. Patients with diabetes require regular eye
examinations to look out for signs of these abnormal new vessels which can bleed into the
vitreous. In the most severe form of diabetic eye disease (proliferative diabetic
retinopathy) laser therapy is used to treat the back of the eye to try and prevent any
further progression of these new proliferating blood vessels. However if a blood vessel has
bled into the vitreous space, it prevents examination of the retina and the ability to
provide any further preventative treatment for the patient. It can often take many months for
these haemorrhages to clear, in which time the patient is left without any useful vision in
that eye and the underlying disease is continuing to worsen. It is in these difficult
situations an eye operation (vitrectomy) is required to remove the blood.
Small, uncontrolled studies with intravitreal (injection into the vitreous space of the eye)
bevacizumab (Avastin) suggest that this agent enhances clearance of diabetic vitreous
haemorrhage(1,2,3). Bevacizumab is a monoclonal antibody licensed for the treatment of
metastatic cancer. It works by inhibiting vascular endothelial growth factor (VEGF), a
chemical mediator that promotes new blood vessel growth within tumours. It has been used
off-label (without a licence)to treat neovascular age-related macular degeneration (nAMD - a
common eye disease with loss of vision), and other conditions characterised by intraocular
new blood vessel growth (neovascularisation).
Ranibizumab (Lucentis) is another monoclonal antibody to VEGF: it was directly cleaved from
Bevacizumab to produce a lower molecular weight molecular that is more appropriate for use
inside the eye. Whereas bevacizumab has been used off-label to treat nAMD, ranibizumab has
been the subject of large Phase III controlled clinical trials (4,5) with robust safety
analysis, and is licensed for the treatment of nAMD in Europe, the USA, and most countries.
Neither bevacizumab nor ranibizumab are licensed for the treatment of diabetic retinopathy.
If ranibizumab produces a similar effect to pilot studies of bevacizumab in diabetic vitreous
haemorrhage,(1,2,3) then it has the potential to speed visual recovery and reduce the
likelihood of patients requiring surgery, with the attendant costs, patient inconvenience,
and operative risks. Whilst bevacizumab is a cheaper alternative to ranibizumab, it does not
yet have such extensive safety data. Further, bevacizumab has to be prepared by the treating
clinician or intermediate pharmacies in a dosage appropriate for intraocular use, whereas
ranibizumab is provided by the manufacturer in a pre-packaged sterile syringe containing the
dose designed for intraocular administration. The relative cost disparity is likely to reduce
in the coming years, and a single intravitreal injection is a very small proportion of the
total treatment costs for proliferative diabetic retinopathy, which consumes considerable
health care resources, particularly if an eye operation is required.
This study will enrol patients who have already decided to undergo an eye operation (pars
plana vitrectomy) to clear a persistent diabetic vitreous haemorrhage. Those in the treatment
arm will have an intravitreal injection of ranibizumab at the same dose used for nAMD. It is
hypothesised that this will promote clearance of the vitreous haemorrhage and that this, in
turn, may mean that some patients do not need to proceed to vitrectomy.
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