Intas launches RAZUMAB, the first biosimilar to Lucentis (ranibizumab)

Intas Pharmaceuticals has launched RAZUMAB, its biosimilar to Lucentis (ranibizumab).

Scleral thinning seen following intravitreal anti-VEGF injections

Research conducted at the University Hospital in Bern, Switzerland suggests that scleral changes may occur in patients following repeated intravitreal injections of anti-VEGF agents in the same quadrant.

Japanese woman is first recipient of next-generation iPS stem cells for macular degeneration

A Japanese woman in her 70s has become the first person in the world to receive retinal cells derived from induced pluripotent stem cells (iPS). In a two-hour procedure on September 12, 2014, a team of three eye specialists lead by Dr Yasuo Kurimoto of the Kobe City Medical Center General Hospital, Japan, implanted a 1.3 by 3.0 millimetre sheet made of retinal pigment epithelium (RPE) cells into one eye of this patient, who was diagnosed with age-related macular degeneration (AMD).

A study for new treatments for wet age-related macular degeneration (AMD)

A University of Wisconsin School of Medicine and Public Health scientist, Dr Nader Sheibani, is spearheading a study of new treatments for wet age-related macular degeneration (AMD). Dr. Sheibani, a professor in the department of ophthalmology and visual sciences, was awarded $6.2 million over five years from the National Eye Institute. In the first year, the collaborators will receive $1.2 million.

The project is a collaboration among Dr. Sheibani’s lab and others in the department of ophthalmology and visual sciences; researchers in the UW department of pediatrics; scientists at Northwestern University Center for Developmental Therapeutics and Feinberg School of Medicine; and the University of Nebraska Center for Drug Delivery and Nanomedicine. Each specialist and team brings different skills and techniques to the question of treatment of exudative AMD.

Wet or exudative AMD is the leading cause of blindness among aging Americans. The global rate of AMD is expected to double in the next decade as the population ages.  A cause of vision loss in this type of AMD is associated with angiogenesis, the growth of new blood vessels which are leaky with severe consequences to vision.

Ophthalmologists have developed treatments known as anti-vascular endothelial growth factor (VEGF) to slow or stop new vessels from forming. The anti-VEGF treatments require frequent injections into the eye. They are an important tool for ophthalmologists to help save vision and their use has demonstrated that inhibiting VEGF slows damage from AMD. However, VEGF is essential for normal ocular integrity and function. Therefore, there is a great need for new treatments which preserve vision without interfering with normal functions.

Dr. Sheibani and his collaborators hope to develop treatments using small peptides that mimic those of the body’s own inhibitors of angiogenesis. These treatments will counter VEGF activity and inhibit vascular growth in eyes with exudative AMD while providing an environment resistant to new vessel growth. 

This study will develop peptide mimetics – shorter versions of the proteins the body makes – that will stop vessel growth. Researchers at Northwestern University are developing the peptides and those at the University of Nebraska are developing the drug delivery nanotechnology. Dr. Sheibani and his staff will test whether the treatments work in preclinical models of the disease for its translation to humans.

The hope is that this class of drugs, because they mimic the body’s own defenses, will be more effective and have fewer side effects than the treatments already available. Although human clinical trials are years away, this research is truly translational, with the potential to greatly impact quality of life by preventing a common cause of vision loss.

Source

FDA approves Eylea for patients with Age-related Macular Degeneration

Regeneron Pharmaceuticals, Inc. has announced that the U.S. Food and Drug Administration (FDA) has approved Eylea (aflibercept) Injection, known in the scientific literature as VEGF Trap-Eye, for the treatment of patients with neovascular (wet) Age-related Macular Degeneration (AMD) at a recommended dose of 2 milligrams (mg) every four weeks (monthly) for the first 12 weeks, followed by 2 mg every eight weeks (2 months).

The approval of Eylea was granted under a Priority Review, a designation that is given to drugs that offer major advances in treatment, or provide a treatment where no adequate therapy exists.  This approval was based upon the results of two Phase 3 clinical studies.  In these studies, Eylea dosed every eight weeks, following three initial monthly injections, was clinically equivalent to the standard of care, Lucentis® (ranibizumab injection) dosed every four weeks, as measured by the primary endpoint of maintenance of visual acuity (less than 15 letters of vision loss on an eye chart) over 52 weeks.  The most common adverse reactions (frequency of 5% or more) reported in patients receiving Eylea were conjunctival hemorrhage, eye pain, cataract, vitreous detachment, vitreous floaters, and increased intraocular pressure.  The adverse event profile was similar to that seen with ranibizumab.

As per the experts, Eylea offers the potential of achieving the efficacy that the ophthalmic world had come to expect from the current anti-VEGF agents, but with less frequent injections and no monitoring requirements. This, as per these experts, may reduce the need for costly and time-consuming monthly office visits for patients and their caregivers.

About Eylea™ (aflibercept) Injection:

Vascular Endothelial Growth Factor (VEGF) is a naturally occurring protein in the body.  Its normal role in a healthy organism is to trigger formation of new blood vessels (angiogenesis) supporting the growth of the body's tissues and organs.  However, in certain diseases, such as wet age-related macular degeneration, it is also associated with the growth of abnormal new blood vessels in the eye, which exhibit abnormal increased permeability that leads to edema. Scarring and loss of fine-resolution central vision often results.  

Eylea, known in the scientific literature as VEGF Trap-Eye, is a recombinant fusion protein, consisting of portions of human VEGF receptors 1 and 2 extracellular domains fused to the Fc portion of human IgG1 and formulated as an iso-osmotic solution for intravitreal administration.  Eylea acts as a soluble decoy receptor that binds VEGF-A and placental growth factor (PlGF) and thereby can inhibit the binding and activation of these cognate VEGF receptors.

Eylea is indicated for the treatment of patients with neovascular age-related macular degeneration (wet AMD).  Eylea is contraindicated in patients with ocular or periocular infections, active intraocular inflammation, or known hypersensitivity to aflibercept or to any of the excipients in EYLEA.

The recommended dose for Eylea is 2 mg administered by intravitreal injection every four weeks (monthly) for the first 12 weeks (3 months), followed by 2 mg once every eight weeks (2 months).  Although Eylea may be dosed as frequently as 2 mg every four weeks (monthly), additional efficacy was not demonstrated when Eylea was dosed every four weeks compared to every eight weeks.

There is a potential risk of arterial thromboembolic events (ATEs) following use of intravitreal VEGF inhibitors, including Eylea, defined as nonfatal stroke, nonfatal myocardial infarction, or vascular death (including deaths of unknown cause).  The incidence of ATEs with Eylea in clinical trials was low (1.8%).

Serious adverse reactions related to the injection procedure have occurred in less than 0.1% of intravitreal injections with Eylea and include endophthalmitis, traumatic cataract, and increased intraocular pressure.

About the VIEW 1 and VIEW 2 Clinical Studies:

The safety and efficacy of Eylea were assessed in two randomized, multi-center, double-masked, active-controlled studies in patients with wet AMD.  A total of 2412 patients were treated and evaluable for efficacy (1817 with Eylea) in the two studies (VIEW 1 and VIEW 2). In each study, patients were randomly assigned in a 1:1:1:1 ratio to one of four dosing regimens: 1) Eylea administered 2 mg every eight weeks following three initial monthly doses Eylea 2Q8); 2) Eylea administered 2 mg every four weeks Eylea 2Q4); 3) Eylea 0.5 mg administered every four weeks Eylea 0.5Q4); and 4) ranibizumab administered 0.5 mg every four weeks (ranibizumab 0.5Q4).  Patient ages ranged from 49 to 99 years with a mean of 76 years.

In both studies, the primary efficacy endpoint was the proportion of patients who maintained vision, defined as losing fewer than 15 letters of visual acuity at week 52 compared to baseline.  Data are available through week 52.  Both the Eylea™ (aflibercept) Injection 2Q8 and 2Q4 dosing groups were shown to have efficacy that was clinically equivalent to the ranibizumab 0.5Q4 group for the primary endpoint.

Select results of the VIEW 1 and VIEW 2 studies as described in the full Prescribing Information for the Eylea 2 mg every four weeks and Eylea 2 mg every eight weeks dosing groups as compared to ranibizumab dosed monthly group are shown below.

To check the efficacy outcomes at week 52 in VIEW 1 and VIEW 2 Studies, please click on the source below. 

Safety of Eylea:

Eylea™ (aflibercept) Injection is contraindicated in patients with ocular or periocular infections, active intraocular inflammation, or known hypersensitivity to aflibercept or to any of the excipients in Eylea.

Intravitreal injections, including those with Eylea, have been associated with endophthalmitis and retinal detachments.  Proper aseptic injection technique must always be used when administering EYLEA.  Patients should be instructed to report any symptoms suggestive of endophthalmitis or retinal detachment without delay and should be managed appropriately. Acute increases in intraocular pressure have been seen within 60 minutes of intravitreal injection, including with Eylea.  Sustained increases in intraocular pressure have also been reported after repeated intravitreal dosing with VEGF inhibitors.  Intraocular pressure and the perfusion of the optic nerve head should be monitored and managed appropriately. There is a potential risk of arterial thromboembolic events (ATEs) following use of intravitreal VEGF inhibitors, including Eylea, defined as nonfatal stroke, nonfatal myocardial infarction, or vascular death (including deaths of unknown cause).  The incidence of ATEs with Eylea in clinical trials was low (1.8%). Serious adverse reactions related to the injection procedure have occurred in less than 0.1% of intravitreal injections with Eylea including endophthalmitis, traumatic cataract, and increased intraocular pressure. The most common adverse reactions (greater than or equal to 5%) reported in patients receiving Eylea were conjunctival hemorrhage, eye pain, cataract, vitreous detachment, vitreous floaters, and increased intraocular pressure.

To see the full prescribing Information for Eylea, please click here.

Regeneron is collaborating with Bayer HealthCare on the global development of Eylea.  Bayer submitted an application for marketing authorization in Europe for wet AMD in June 2011.

Bayer HealthCare will market Eylea outside the United States, where the companies will share equally the profits from any future sales of Eylea.  Regeneron maintains exclusive rights to Eylea in the United States.

Source

Comparison of Avastin versus Lucentis for treatment of wet type of Age-Related Macular Degeneration Treatments (CATT trial)

People with vascular diseases of the retina, such as age-related macular degeneration (AMD), diabetic macular edema, vascular occlusions like the central retinal vein occlusion, even retinopathy of prematurity (ROP) have been offered treatment in the form of injections of Ranibizumab (trade name Lucentis)or Bevacizumab (trade name Avastin) into the eye every few weeks. These injections control the expression of vascular endothelial growth factor (VEGF), which is a signal protein produced by cells that stimulates vasculogenesis and angiogenesis. It is part of the system that restores the oxygen supply to tissues when blood circulation is inadequate. VEGF's normal function is to create new blood vessels during embryonic development, new blood vessels after injury, muscle following exercise, and new vessels (collateral circulation) to bypass blocked vessels. When VEGF is overexpressed, it can contribute to disease.

Genentech, a wholly owned susdiary of the Swiss pharmaceutical conglomerate Hoffmann-La Roche [], developed Lucentis, which is a monoclonal antibody fragment (Fab) derived from the same parent murine antibody as Avastin. It is much smaller than the parent molecule, and has a stronger binding to VEGF-A. This feature gives it anti-angiogenic properties, which has helped it get regulatory approval in many countries around the world to treat wet AMD, which is a common form of age-related vision loss. It is marketed in the United States by Genentech and elsewhere by Novartis. Avastin, developed specifically for use in colorectal cancers, was found to be useful in the eye for AMD as well. With a significant cost difference between Avastin at an average cost of $42 a dose (in the U.S.) versus Lucentis at an average cost of $1,593 a dose, there was a difference of opinion between retina specialists and those who marketed the drug, with the specialists claiming that the effect from both appeared to be equal, while the latter claimed they were not responsible for any untoward side-effects from the use of off-lable Avastin in the eye.

With an on-going debate that showed no signs of resolution, a clinical trial comparing the two treatments in patients with wet AMD (CATT) was planned to effectively answer the question whether Lucentis has any potential benefit over Avastin.

In a multicenter, single-blind, noninferiority trial, 1208 patients with neovascular (or wet) AMD were randomly assigned to receive intravitreal injections of ranibizumab or bevacizumab on either a monthly schedule or as needed with monthly evaluation. The primary outcome was the mean change in visual acuity at 1 year, with a noninferiority limit of 5 letters on the eye chart.

The study group recently reported its result in the New England Journal of Medicine, with the conclusion that Avastin administered monthly or as needed was equivalent to Lucentis administered monthly or as needed respectively. The mean decrease in central retinal thickness was greater in the ranibizumab-monthly group (196 μm) than in the other groups (152 to 168 μm, p = 0.03 by analysis of variance). Rates of death, myocardial infarction, and stroke were similar for patients receiving either bevacizumab or ranibizumab (p>0.20). The proportion of patients with serious systemic adverse events (primarily hospitalizations) was higher with Avastin than with Lucentis (24.1% vs. 19.0%; risk ratio, 1.29; 95% confidence interval, 1.01 to 1.66).

So the major conclusion from this CATT study is that at the end of 1 year, Avastin and Lucentis had equivalent effects on visual acuity when administered according to the same schedule. The authors mention that the differences in rates of serious adverse events require further study. (The study was funded by the National Eye Institute; ClinicalTrials.gov number, NCT00593450.)

p.s. In this continuing saga of Lucentis versus Avastin, New York Times reports that Genentech has been  offering secret rebates to eye doctors as an apparent inducement to get them to use more of the company’s expensive drug Lucentis rather than a less costly alternative.

New treatments for Age-related Macular Degeneration and Stargardt's disease

Elderly people losing their vision from age-related macular degeneration might one day have a treatment option that requires fewer injections into the eye than the standard drug now used.

In testing, an experimental drug being developed by Regeneron Pharmaceuticals, when injected every eight weeks, proved as effective as the standard treatment, Lucentis from Genentech, which was injected every four weeks. The findings are from two clinical trials that Regeneron is expected to announce on Monday.

In a separate development, Advanced Cell Technology is expected to announce Monday that it has won regulatory approval to test a therapy derived from human embryonic stem cells in people with Stargardt’s macular dystrophy, another retina disease.

It is only the second trial of a therapy derived from human embryonic stem cells to be cleared by the Food and Drug Administration. The first involves a treatment for spinal cord injury developed by Geron.

Age-related macular degeneration is the leading cause of blindness in the elderly. Lucentis can restore a person’s ability to drive and read, in some cases.

But the drug works best when given every four weeks, which can be inconvenient for patients and doctors. Doctors often give Lucentis less frequently, but even if that regimen produces good results, patients must still get checkups every month to make sure their vision is not deteriorating.

Regeneron’s drug, which is called VEGF Trap-Eye, “gives us the opportunity to not have to see them monthly,” said Dr. Jeffrey Heier of Boston, an investigator in one of the trials and a consultant to Regeneron. That would be “very meaningful to patients and their families,” he said.

Regeneron and its partner, Bayer, said they planned to apply for approval of the drug in the first half of 2011.

The two similar trials involved a total of 2,457 patients who were randomly chosen to receive either Lucentis every four weeks or VEGF Trap-Eye either every four weeks or every eight weeks. In the eight-week arm, the first three doses were given every four weeks.

After a year, roughly 95 percent of the patients in all the arms of the trial maintained their vision, meaning their ability to read an eye chart declined by no more than 15 letters, or three lines.

VEGF Trap-Eye was also “noninferior” to Lucentis in terms of the average change in vision after one year. Lucentis recipients had a mean gain of 8.1 letters and 9.4 letters in the two trials. Those getting Regeneron’s drug every eight weeks had gains of 7.9 letters and 8.9 letters. Regeneron said the two drugs were equally safe.

Both VEGF Trap-Eye and Lucentis block a protein called vascular endothelial growth factor that causes blood vessels to grow and leak into the eye.

VEGF Trap-Eye could become the first big product for Regeneron, which was founded in 1988 and is based in Tarrytown, N.Y. It sells one drug for a rare disease and has garnered hundreds of millions of dollars from licensing deals with big pharmaceutical companies.

Regeneron’s drug is likely to face competition from off-label use of Genentech’s cancer drug Avastin. When used in the eye, Avastin costs about $50 a dose, compared with about $2,000 for Lucentis. Still, even with such low-priced competition, Lucentis has sales exceeding $2 billion globally.

Meanwhile, Advanced Cell Technology, of Marlborough, Mass., said it would test its stem cell therapy on 12 adults with severe vision loss caused by Stargardt’s, an inherited disease.

The company has turned human embryonic stem cells into retinal pigment epithelial cells, which will be surgically implanted into the eye. The hope is that the implanted cells will replace those injured by the disease.

Human embryonic stem cells are controversial because their creation usually entails the destruction of human embryos, although Advanced Cell Technology is working on a technique to avoid that.

Embryonic cells can also form tumors if injected into the body. Dr. Robert Lanza, chief scientist at Advanced Cell, said the company had to prove to the F.D.A. that its retinal cells contained virtually no residual embryonic stem cells. It took a year for the company to get clearance for the trial from the F.D.A.

It is likely to be several years before such a treatment can reach the market, if it works. Still, even starting the trial could be a boost to Advanced Cell, which often makes headlines but has struggled to raise money. Its shares closed at 5 cents on Friday.

Dr. Peter J. Francis, an associate professor at the Oregon Health and Science University, which will be a site for the trial, says the eye is a good place to test stem cell therapy because it is accessible. Also, he said, there is less chance of rejection of the implanted cells because the eye is shielded somewhat from the body’s immune system.

There is no treatment for Stargardt’s, which affects more than 25,000 people in the United States (and about 1 lakh people in India). The disease is usually diagnosed during childhood and it causes a loss of central vision, though not usually peripheral vision.

From the New York Times

Note from Retina India:
Retina India is creating registries or databases of patients with macular degeneration and Stargardt's disease. If you, or someone you know has the above diseases, or any other retinal disease, please write to info@retinaindia.org to be included in the database. Retina India also runs Connect Programs, which allow patients and family members interested in one particular diseases (e.g. Stargardt Connect) to connect with each other, which allows them to discuss and resolve their problems.