Yosemite and Rhine Studies: an editorial

Faricimab was recently approved by the FDA for the treatment of diabetic macular edema (DME). It is the first drug which simultaneously blocks vascular endothelial growth factor A (VEGF-A) and angiopoietin-2 (Ang 2). The anti-VEGF-A action is shared with bevacizumab, ranibizumab, and aflibercept; and stabilizes microvascular permeability and inhibits neovascularization. The Ang 2 inhibition works via the angiopoietin and Tie signaling pathway to reduce microvascular permeability by a pathway independent of VEGF-A blockade. Preclinical studies suggested that faricimab might be more effective than simple anti-VEGF inhibition in treating diabetic macular edema. In particular, there were expectations for improvement over the status quo in duration of action. If similar efficacy with lesser treatment burden were possible, this would help overtaxed clinicians and patients and begin to close the real-world versus randomized trial performance gap.1

The results of two identical, phase 3 randomized clinical trials, YOSEMITE and RHINE, were recently published, allowing clinicians the opportunity to assess how the efficacy of faricimab matches the promise of the preclinical studies.2 There were 3 groups in the randomization: faricimab 6 mg q 8 weeks (F8), faricimab 6 mg with a personalized treatment interval (FPTI), and aflibercept 2 mg q 8 weeks (A8). The study authors reported the following in their paper:

  1. With A8 as the comparator, both F8 and FPTI were noninferior (4 letter margin) based on a primary outcome of mean change in best-corrected visual acuity at 1 year, averaged over weeks 48, 52, and 56.
  2. There were no differences in safety events among the 3 groups.
  3. In the FPTI group, more than 70% of patients achieved every-12-week dosing or longer at 1 year.
  4. Reductions in CST and proportions of eyes without center-involved DME (CI-DME) over 1 year consistently favored faricimab over aflibercept.
  5. Faricimab demonstrated a potential for extended durability in treating CI-DME.

Based on the evidence in the paper, are the claims substantiated? 

With respect to noninferiority of mean change in best corrected visual acuity, the answer is qualified by the authors’ method of measurement. Because the three groups got last injections at different times, there was no single visit for which assessment of final visual acuity was intuitive. Therefore, the authors averaged the visual acuities measured at 48, 52, and 56 weeks. For the F8 group, the 3 components of the average were 4 weeks post-injection (the measurements taken at 48 weeks), 8 weeks post-injection (the measurements taken at 52 weeks), and 4 weeks post-injection (the measurements taken at 56 weeks), implying that the average last visual acuity was at 5.33 weeks post-injection ([4+8+4]/3=5.33). For the A8 group, the 3 components of the average were 8 weeks post-injection (the measurements taken at 48 weeks), 4 weeks post-injection (the measurements taken at 52 weeks), and 8 weeks post-injection (the measurements taken at 56 weeks), implying that the average last visual acuity was at 6.66 weeks post-injection ([8+4+8]/3=6.66). That is, the A8 group was disadvantaged relative to the F8 group by virtue of the F8 group having more injections in the first year, and an injection nearer to the outcome measurement times. This issue might have been averted had the F8 group received the same 5 initial monthly injections as the A8 group.    

It is difficult to provide an analogous comparative calculation for the FPTI group. The relevant information is depicted in figure 3B, but the scale of the figure is microscopic, and only estimates can be made. For example, the YOSEMITE panel of figure 3B, the red-boxed subgroup, appears to comprise 63 patients. For these patients, the 3 components of the average were 16 weeks post-injection (the measurements taken at 48 weeks), 4 weeks post-injection (the measurements taken at 52 weeks), and 8 weeks post-injection (the measurements taken at 56 weeks), implying that the average last visual acuity was at 9.3 weeks post-injection ([16+4+8]/3=9.3). Likewise, for the RHINE panel of figure 3B, the red-boxed subgroup, appears to comprise 67 patients with the average last visual acuity at 9.3 weeks.  At the other extreme of the figure (the bottom) sits the group of eyes that could never be extended beyond 4 weeks.  For YOSEMITE and RHINE this group appears to comprise 19 and 23 patients, respectively. The average last visual acuity for these eyes would be 4 weeks. In between these extremes of the figure, one would need to do an analogous calculation for every row in the figure, pooling all the results for an overall average. This is clearly more than a reader can be asked to do. The authors should have done it and reported the result in the paper, to allow the reader to see if the outcome time for the FPTI group is comparable to the A8 group. The suspicion is that they are not comparable.

Regarding the claim that the safety results of the three groups were equivalent, we agree with the authors’ interpretation. There is no evidence that faricimab is less safe to use over the 52 weeks of follow-up reported.

The authors claim that over 70% of the FPTI group were able to enter the q 12 week dosing interval. The specific term they chose was “achieved” to signal this distinction. However, entering 12 week dosing is different from demonstrating that faricimab can sustain such intervals. The primary outcome at 52 weeks did not give enough time to determine if those eyes entering 12 week or longer durations could sustain that performance, or whether they would regress to require shorter interval injections. In YOSEMITE, 169 eyes (59%) and in RHINE, 172 eyes (56%) completed one 12wk interval to be assessed for successful completion. The reader has no idea if this proportion will be sustained in the second year of the trial, and it would be an unfounded assumption to expect the entrance to q12 week intervals to be maintained. This outcome will be of great interest when the 2-year results are reported. Only 22%/21% (Yosemite/Rhine) actually completed a 16-week interval and none were treated long enough to determine sustainability of this interval.

Another problem with the authors’ claim on duration of effect has to do with a form of spin, specifically type 3 spin, in the classification of Demla and colleagues.3 A reader might think that this achievement by faricimab distinguishes it from aflibercept, but that inference would not be warranted because of the study design. There was no aflibercept personalized treatment interval arm of the randomization, which would be required to make a claim that increased duration between injections was an advantage of faricimab. While true that a drug company investing in faricimab has no obligation to provide an opportunity for the competitor’s comparator drug to perform as well, the authors cannot claim that the feature displayed by faricimab is a differentiator worthy of a clinician’s choice as a deciding factor in the question of which drug to use. It is also true that the authors don’t make this claim differentiating the drugs, but in presenting asymmetric evidence as they do, an erroneous inference is easy to make, which we seek to avert.

The authors’ claim of superior drying effectiveness for faricimab is supported by the presented data, but unremarked by the authors was evidence of similar durations of drying action of faricimab and aflibercept. To see this, examine figure 3C. The slope of the thickness curve trended toward a more rapid decrease in both arms of faricimab compared with aflibercept during the monthly injection stage (initial loading stage).  In an analysis of the graphs after the loading stage (monthly injections), both faricimab and aflibercept showed a similar jagged curve demonstrating a drop-off of treatment effect during the no-treatment month. A jagged response is not seen in the FPTI group because the treatment intervals varied within that group.  The zig-zag rebound of edema seen in both faricimab (F8) and aflibercept (A8) groups suggests the durability of the treatment effect may be similar between the two drugs.  These studies did not perform a direct comparison of faricimab and aflibercept on the same personalized treatment interval protocol.

The authors’ contention that faricimab rendered a higher proportion of eyes free of CI-DME is warranted by the data they present.

Finally, the authors emphasize the potential of faricimab for lesser burden of treatment because of potential longer durability. This emphasis is unsupported by the evidence presented. The F8 group received 10 injections. The A8 group received 9 injections – hence no decreased burden favoring faricimab over aflibercept in this comparison. It is more complicated to analyze in the FPTI group because the needed information is not reported, but we can make some inferences. There were 63 eyes of 286 (22%) in Yosemite and 66 eyes of 308 (21%) in Rhine that achieved the opportunity to extend treatment; these eyes underwent a total of 8 faricimab injections at week 52.  This number represents the least number of scheduled injections and only one less than the aflibercept group. The remainder of eyes were scheduled to have more than 8 injections, but the pooled average is difficult to parse from figure 3B.  We can easily note that from the figure that the greatest number of injections at week 52 in this arm of the study was 14 injections in eyes that required monthly treatment (19 eyes (7%) in Yosemite, and 22 eyes (7%) in Rhine).  This is far more than the 9 injections of A8, and does not demonstrate a reduced treatment burden among eyes in the faricimab group compared with aflibercept. When the remainder of eyes between the extremes of figure 3B are added in to the calculation of average treatment burden, which we encourage the authors to report, we suspect that it was greater for the FPTI arm of the study than for A8, not less.  

In summary, YOSEMITE and RHINE provide data that faricimab as administered in the studies was equivalent to aflibercept in the primary visual outcome, and superior to aflibercept as given in the study in drying the macula. No data were presented supporting a claim that treatment burden is less with faricimab than aflibercept. The published data show that a proportion of eyes can be managed with a reduced injection burden with faricimab, but provide no evidence that this would differentiate faricimab from aflibercept were aflibercept plugged into the same personal treatment interval algorithm. There was no arm of the study that would allow such a comparison to be made. The published data substantiate that faricimab has a greater macular drying effect than aflibercept, but the see-saw central subfield thickness curve in the non-loading phase of the first year suggests that the duration of drying by faricimab is no greater than with aflibercept.

The FDA has approved faricimab for the treatment of CI-DME based on YOSEMITE and RHINE. Retinal specialists will be making choices of which drug to use. An economic perspective will enter into the decision. The clinical decision will not be based exclusively on efficacy. The offered average costs for aflibercept and faricimab to the editorialists are $1747 and $2168, respectively. Is the $441 differential cost a reasonable price to pay for the documented differences in drug performance? Our opinion is no. There is no published difference in visual outcomes, nor any published difference in durability, because it wasn’t checked. There is a difference in macular drying, analogous to the superior drying effect of aflibercept over bevacizumab in the better-vision group of protocol T (eyes with CI-DME)or in the aflibercept versus bevacizumab group in SCORE-2 (eyes with central retinal vein occlusion with macular edema).4,5 We, and many others, did not think that differences warranted the use of aflibercept over the less expensive bevacizumab in cases similar to those in the better seeing group of protocol T or eyes like those studied in SCORE-2, nor do we think that drying difference seen in YOSEMITE and RHINE between faricimab and aflibercept is reason to choose the more expensive drug. We congratulate the authors of these studies for providing ophthalmologists with new options for treating diabetic macular edema, but nothing they have published suggests that this option marks a milestone in reducing treatment burden in DME. The 2-year results will be more informative for decision-making than the 1-year results, and we encourage the authors to remedy the flaws in their year -1 results data presentation so that the 2-year data are more useful.

By David J. Browning, MD, PhD and Scott E. Pautler, MD

References

   1.   Kiss S, Liu Y, Brown J, et al. Clinical utilization of anti-vascular endothelial growth-factor agents and patient monitoring in retinal vein occlusion and diabetic macular edema. Clin Ophthalmol 2014;8:1611-1621.

   2.   Wykoff CC, Abreu F, Adamis AP, et al. Efficacy, durability, and safety of intravitreal faricimab with extended dosing up to every 16 weeks in patients with diabetic macular oedema (YOSEMITE and RHINE): two randomised, double-masked, phase 3 trials. Lancet 2022;DOI:https://doi.org/10.1016/S0140-6736(22)00018-6.

   3.   Demla S, Shinn E, Ottwell R, Arthur W, Khattab M, Hartwell M, Wright DN, Vassar M. Evaluaton of “spin” in the abstracts of systematic reviews and meta-analyses focused on cataract therapies. Am J Ophthalmol 2021;228:47-57.

   4.   Diabetic Retinopathy Clinical Research Network, Welss JA, Glassman AR, Ayala AR, Jampol LM, Aiello LP, Antoszyk AN, Arnold-Bush AN, Baker CW, Bressler NM, Browning DJ, Elman MJ, Ferris FJ, Friedman SJ, Melia M, Pieramici D, Sun JK, Beck RW. Aflibercept, bevacizumab, or ranibizumab for diabetic macular edema. N Engl J Med 2015;372:1193-1203.

   5.   Scott IU, VanVeldhuisen PC, Ip MS, et al, SCORE2 Investigator group. Effect of bevacizumab vs aflibercept on visual acuity among patients with macular edema due to central retinal vein occlusion: the SCORE2 randomized clinical trial. JAMA 2017;317:2072-2087.

Lumega-Z: Worth the cost?

What is Lumega-Z?

Lumega-Z is a vitamin/mineral/antioxidant supplement that is taken by mouth and is labelled a medical food. A medical food is simply a name used to identify a product that is taken by mouth and produced by a company for the purpose of treating disease and/or improving health.  By definition, medical food must be prescribed by a physician and not sold over-the-counter.  Lumega-Z is presumed to improve retinal health and potentially prevent or treat macular degeneration.  

What does Lumega-Z do?

Lumega-Z aims to increase the amount of protective pigment in the macula with the hope that it will be helpful in the management of macular degeneration.  Guardion is the company that makes Lumega-Z.  They state in their website: “The Company’s current focus is on the Macular Protective Pigment (“MPP”), a bio-marker and major risk factor for developing Age-Related Macular Degeneration (“AMD”) and other retinal disorders.”

I take issue with this statement.  “Macular Protective Pigment” has not been shown to be a major risk factor for AMD.  Furthermore, the company cites no clinical research (even in their website for ophthalmologists) to support their claim that clinical benefit is derived from using their product.  

Perhaps, we may assume there is benefit from Lumega-Z as another nutritional supplement (PreserVision AREDS-2) has been shown to reduce the risk of progression of macular degeneration.  However, there are no current studies to compare the effectiveness of Lugema-Z with PreserVision AREDS-2.  Alas, the company itself concludes: “Guardion Health Sciences, the maker of Lumega-Z, cannot guarantee…any vision benefit with treatment.”

What about the company that makes Lumega-Z?

Gardion’s business plan is provide medical food (a label that means their product is for medical use and must be provided via prescription) to patients with ophthalmologists who partner with Guardion (and may derive financial benefit).  Gardion’s spokesman, Dr Hovenesian, is a refractive and cataract surgeon from California. His on their medical board of directors and a shareholder.  He is not a retina specialist.  

Is Lumega-Z worth the cost?

Lumega-Z costs twice as much as Preservision AREDS-2.  However, it has not been scientifically demonstrated to be twice as good as PreserVision AREDS-2.  Indeed, it has not even been shown to be equivalent to PreserVision AREDS-2.  At the time of this publication, I am of the opinion that Lumega-Z is not worth the cost.  I currently recommend PreserVision AREDS-2 to patients with AMD at risk for loss of vision as determined by examination.  

By Scott E. Pautler, MD

For a telemedicine consultation with Dr Pautler, please send email request to spautler@rvaf.com. We accept Medicare and most insurances in Florida. Please include contact information (including phone number) in the email. We are unable to provide consultation for those living outside the state of Florida with the exception of limited one-time consultations with residents of the following states: Alabama, Arkansas, Connecticut, Georgia, Minnesota, and Washington.

Retinal Rejuvenation

Retinal rejuvenation is a name given by the company that sells a new-generation laser machine to ophthalmologists. The laser is used to treat the retina with the hope of delaying loss of vision from age-related macular degeneration (ARMD). Although the laser company calls this treatment “retinal rejuvenation,” this name may be overstating the true effects of this new laser.

The scientific basis for the use of the laser for macular degeneration is the LEAD study. This study evaluated 292 patients with ARMD over a three-year period. Half of the eyes were treated with the new micro-pulse laser and the remainder received sham treatment for comparison. Overall, the treatment was not shown to be of benefit in slowing the loss of vision from macular degeneration. However, when looking at subsets of eyes with certain types of macular degeneration (no reticular pseudodrusen), there was a trend toward a benefit. These results, however, had a weak fragility index (meaning that more research is needed). Conversely, eyes with reticular pseudodrusen (subretinal drusenoid deposits) lost vision at a greater rate after undergoing retinal rejuvenation than those eyes that were not treated.

“Retinal rejuvenation” needs more study before it is implemented on a wide scale basis. It is currently (2018) not approved for this use in the United States. More research is needed to better establish its helpfulness in reducing the risk of vision loss from age-related macular degeneration and to identify potential risks involved with its use.

I do not recommend the “retinal rejuvenation” treatment for age-related macular degeneration by the new micro-pulse laser at this time. I look forward to more high-quality research in the future to better establish the potential role of this laser for my patients with ARMD.

By Scott E. Pautler, MD

Copyright  © 2018 Scott E Pautler MD. All rights reserved.

Stargardt Disease

Stargardt disease image
Color photo and auto fluorescent fundus image of Stargardt disease

What is Stargardt disease?

Stargardt disease is an inherited problem of the retina. The retina is a thin layer of delicate nerve tissue that lines the inside wall of the eye like the film in a camera. In the eye, light is focused onto the retina, which “takes the picture” and sends the image to the brain. Stargardt’s disease mainly affects the central part of the retina that normally provides sharp, central, reading vision and color vision.

What causes Stargardt disease?

Stargardt disease is usually inherited in a recessive pattern, which means it may skip many generations. An individual usually inherits the affected gene from both parents who carry the gene in order to have symptoms of the condition. Individuals who have inherited the gene from only one parent usually do not exhibit symptoms and are called “carriers”. If both parents carry the gene, then one in four children will have symptoms of Stargardt disease. If a person with Stargardt disease has children with someone who does not carry the gene, none of their children will have Stargardt disease, but half of their children will carry the gene. The gene variants that cause Stargardt disease are very common; they are present in about one in twenty people.

What are the symptoms of Stargardt disease?

Stargardt disease may cause no symptoms in the early stages. It may cause symptoms early or late in life. With time, symptoms may include the following:

  1. Photophobia—unusual sensitivity to light.
  2. Hemeralopia—difficulty seeing well in bright light.
  3. Decreased color vision.
  4. Blurring of central vision, sometimes with distortion or blind spots.

If Stargardt disease progresses over many years, it may cause a loss of vision to the point of legal blindness. In such cases, the loss of central vision interferes with the ability to read and drive, but the side-vision usually remains good. Sometimes it progresses very slowly and never causes significant visual loss. The rate of visual loss can be predicted by identifying others in the same family who also have Stargardt disease, as the pattern is often similar among family members. The visual symptoms may be monitored with the Amsler grid test.

How is Stargardt disease diagnosed?

The symptoms listed above may be the first clue to the diagnosis. A routine dilated eye examination can detect the retinal changes of Stargardt disease. In most cases a fluorescein angiogram is helpful. In this procedure the ophthalmologist injects a dye into the vein of the arm and photographs are taken of the retina, which show specific changes in the retina to make the diagnosis. A free genetic test can be ordered by my office and mailed to you.  It involves a painless swab of the lining of the mouth.  It is very reliable to detect the gene that causes Stargardt disease.

How is Stargardt disease treated?

There is no proven treatment for Stargardt disease, but studies are underway to find a treatment to slow the loss of vision. Researchers recommend avoiding excessive exposure to sunlight and avoid taking vitamin A supplements. It may also be helpful to avoid excessive dietary intake of foods that contain vitamin A, such as carrots and liver.

If significant loss of vision does occur, there are programs and devices that focus on helping a person find ways to cope with the visual impairment. Various low-vision optical devices such as magnifying devices, closed-circuit televisions, and large-print reading material can help to minimize the effects of visual impairment. Your ophthalmologist can prescribe optical devices or refer you to a low-vision specialist. Because side vision is less commonly affected, the remaining sight can be very useful.

A wide range of support services, rehabilitation programs, and devices are available to help people with cone dystrophy continue with many of their favorite activities. The Lighthouse for the Blind and the Pinellas Center for the Visually Impaired have classes and specialists in providing prescription lenses to magnify printed material. The Division of Blind Services provides rehabilitation services and financial aid for eye care in selected cases. Your doctor can give free access to the “talking book” library to make “books on tape” available. A form is available from your doctor that establishes legal blindness to be used for property tax and income tax deductions. As always, if you have any questions please do not hesitate to contact your doctor for more information.

By Scott E. Pautler, MD

For a telemedicine consultation with Dr Pautler, please send email request to spautler@rvaf.com. We accept Medicare and most insurances in Florida. Please include contact information (including phone number) in the email. We are unable to provide consultation for those living outside the state of Florida with the exception of limited one-time consultations with residents of the following states: Alabama, Arkansas, Connecticut, Georgia, Minnesota, and Washington.

Copyright © 2016-2022 Designs Unlimited of Florida. All Rights Reserved.

Cystoid Macular Edema (CME)

globe anatomy
anatomy of the eye (click on image to enlarge)

What is cystoid macular edema?

Cystoid macular edema (CME) is an accumulation of fluid in the center of the retina. The fluid is clear like water and comes from abnormal leakage of the blood vessels in the retina. The retina is a thin layer of delicate nerve tissue which lines the inside wall of the eye like the film in a camera. In the eye, light is focused onto the retina which “takes the picture” of objects you look at and sends the message to the brain. The macula is the central area of the retina that gives you sharp central vision and color vision. CME frequently causes a blurring of vision described as fuzzy, hazy, or cloudy. Cystoid macular edema is NOT related in anyway to macular degeneration.

What causes cystoid macular edema?

Although the exact causes of CME are unknown, it may accompany blood vessel problems or inflammation. It most commonly occurs after cataract surgery and may be seen in as many as 3% of eyes undergoing surgery.

How is cystoid macular edema treated?

Since many factors may lead to CME, many different types of treatment are available. Usually weeks to months are required to improve the vision. Sometimes more than one type of treatment is needed for best results. Rarely, vision cannot be restored.

Treatment may include eye drops (steroid, and non-steroid) instilled into the eye several times a day. Sometimes, pills are used to decrease inflammation. Occasionally, medication is injected next to the eye under the eyelid. Anesthetic eye drops help to make the injections painless. Sometimes, surgery is needed to look for infection or remove abnormal scar tissue from inside the eye. With treatment most cases of CME can be managed successfully with improvement in vision. For more information visit www.retinavitreous.com

By Scott E. Pautler, MD

For a telemedicine consultation with Dr Pautler, please send email request to spautler@rvaf.com. We accept Medicare and most insurances in Florida. Please include contact information (including phone number) in the email. We are unable to provide consultation for those living outside the state of Florida with the exception of limited one-time consultations with residents of the following states: Alabama, Arkansas, Connecticut, Georgia, Minnesota, and Washington.

Copyright © 2015-2022 Designs Unlimited of Florida. All Rights Reserved.

Posterior Uveal Effusion

globe anatomy
anatomy of the eye (click on image to enlarge)

What is posterior uveal effusion syndrome (PUES)?

PUES is an abnormal leakage of clear fluid under the retina, which causes symptoms of blurred vision, sometimes with distortion of straight lines. It is also call the peripapillary pachychoroid syndrome. This condition frequently presents as central serous retinopathy. The retina is a thin layer of delicate tissue in the back of your eye, which lines the inside wall like the film in a camera. The retina “takes the picture” of objects you look at and sends the message to the brain.

What causes PUES?

PUES appears to be due to an abnormal leakage of serum (clear fluid) from blood vessels in the choroid. The choroid is a layer of tissue with many blood vessels lying under the retina. When the choroid is thick, it may abnormally leak fluid into the retina (Figure A-D) causing visual symptoms. Thick choroid is seen more commonly in far-sighted eyes than near-sighted eyes.

PUES
Thickened choroid leads to leakage of fluid into the retina

What is the treatment of PUES?

If the leakage is mild, observation may be all that is needed. If symptoms of blurred vision become significant, treatment may include eye drops or pills taken by mouth (Figure E-F). In rare cases, laser treatment or surgery in the operating room may be required to control the leakage. An attempt is made to eliminate aggravating factors such as ocular inflammation and, rarely, medications.

What will happen to my vision?

With prompt treatment the vision usually remains stable. In some cases, there may be a degree of permanent damage to the retina affecting the vision from past leakage that cannot heal. Treatment needs to be continued as a return of leakage may occur is medications is stopped (Figure G-H).

For more information see: Isolated Posterior Uveal Effusion: expanding the spectrum of the uveal effusion syndrome.

By Scott E. Pautler, MD

For a telemedicine consultation with Dr Pautler, please send email request to spautler@rvaf.com. We accept Medicare and most insurances in Florida. Please include contact information (including phone number) in the email. We are unable to provide consultation for those living outside the state of Florida with the exception of limited one-time consultations with residents of the following states: Alabama, Arkansas, Connecticut, Georgia, Minnesota, and Washington.

Copyright © 2015-2022 Designs Unlimited of Florida. All Rights Reserved.

Iluvien Fluocinolone Implant for Diabetic Macular Edema

Iluvien
Iluvien Implant

What is the Iluvien implant?

The Iluvien implant is shaped like a small thin tube so that it can be injected into the eye in the office with a needle attached to an injector. The tube contains a corticosteroid medicine that is released into the eye slowly for up to 2-3 years. Repeated injections may be performed. When the tube-like implant is empty it remains in the eye and usually causes no problems.

What is the Iluvien implant used for?

The Iluvien implant decreases inflammation, leaky vessels and swelling inside the eye. It has been approved to treat diabetic macular edema. It helps keep the vision from worsening and may improve vision over time.

How is an Iluvien implant inserted into the eye?

Anesthetic solutions are used to make the procedure pain-free. The eye is treated with an iodine solution in an effort to prevent infection and an instrument is used to gently keep the lids open during the injection. A pressure sensation may be felt as the implant is injected into the eye with a very thin, short needle. The procedure is very brief.

What are the possible side-effects?

It is normal to experience a red area on the white of the eye, which disappears in one to two weeks. It is rare to see the tube floating in the vision. Most eyes require cataract surgery several months after injection of the implant. About 30-40% of eyes experience a pressure increase (glaucoma) in the eye. Although the pressure is not usually painful, it may require eye drops to prevent permanent loss of vision. In 1-5% of eyes, glaucoma surgery is needed. Rare risks of injection include bleeding, infection, retinal detachment, and loss of vision/loss of the eye. Please report any severe loss of vision to the doctor without delay.

How do I care for the eye?

You may be given eye drops and instructions on how to use them. Physical activity is not limited. Tylenol or Ibuprofen may be used if there is discomfort, but severe pain should be reported to your doctor without delay. If you have any questions or concerns, please call the office.

By Scott E. Pautler, MD

For a telemedicine consultation with Dr Pautler, please send email request to spautler@rvaf.com. We accept Medicare and most insurances in Florida. Please include contact information (including phone number) in the email. We are unable to provide consultation for those living outside the state of Florida with the exception of limited one-time consultations with residents of the following states: Alabama, Arkansas, Connecticut, Georgia, Minnesota, and Washington.

Copyright © 2014-2022 Designs Unlimited of Florida. All Rights Reserved.

Hydroxychloroquine (Plaquenil) and your eyes

What side effects can Plaquenil have in the eye?

Although Plaquenil is of proven benefit for a number of medical problems, very rarely it can cause damage to the eyes (1-2% at 10 years and 3-20% at 20 years).  Early symptoms may be subtle.  Small blind spots may develop just above or around the center of vision.  Sometimes they progress to form a doughnut-shaped blind area around the central vision.   If not detected early, the central vision itself may be lost.  When this occurs, color vision is usually affected.  These symptoms, however, are not specific to Plaquenil damage.  The Eye MD must use special tests to determine whether any eye changes are due to Plaquenil or not.  Ocular side effects appear to be dose related, so the risk increases with increased daily dosage.  Individuals less than 5’3” to 5’7” in height regardless of weight should take less than 400mg of Plaquenil per day.  Additionally, a person who weighs less than 135 pounds should take less than 400mg of Plaquenil per day according to current recommendations.  Other factors that may increase the risk of ocular damage include age over 60 years, kidney disease, liver disease, and use of Tamoxifen.

Plaquenil 200mg tablets
Recommended maximum dosage based on height and weight:
Weight (lbs):Height:Maximum dosage:
68-774’0″ – 4’1″One table per day
78-864’2″ – 4’3″One per day except Sunday take two a day
87-964’4″ – 4’5″One per day except M-F take two a day
97-1064’6″ – 4’8″One per day except M-W-F two a day
107-1164’9″ – 4’10”One per day except M-W-F-S two a day
117-1254’11” – 5’0″Two per day except weekend take one a day
126-1345’1″ – 5′ 2″Two per day except Sunday take one a day
≥1355’3″ or tallerTwo per day

*** See updated dosing schedule based on 2017 American Academy of Ophthalmology Guidelines.

What can you do to protect yourself?

Plaquenil is an effective medication with fewer side effects than other medicines used for the same purpose.  However, it is important to monitor your eyes for side effects that might indicate the need to stop taking Plaquenil.  The Amsler grid chart (below) should be checked at least once a week testing each eye separately, using glasses if needed.  Look for a missing part of the grid either above or below the central dot while looking only at the center of the grid.  Additionally, your Eye MD should examine your eyes every year with specific testing to look for early signs of retinal changes.

Blue Yellow Amsler Grid
While focusing on center of grid, make sure the whole grid is seen…no missing areas (click on image to enlarge)

What happens if you develop retinal changes from Plaquenil?

Retinal damage from Plaquenil is extremely rare. If early retinal changes are found, Plaquenil may be discontinued.  By discontinuing Plaquenil at an early stage, vision can be saved.  Continued examination is important to monitor the eyes for further changes.

By Scott E. Pautler, MD

Reference: Article on early detection

For a telemedicine consultation with Dr Pautler, please send email request to spautler@rvaf.com. We accept Medicare and most insurances in Florida. Please include contact information (including phone number) in the email. We are unable to provide consultation for those living outside the state of Florida with the exception of limited one-time consultations with residents of the following states: Alabama, Arkansas, Connecticut, Georgia, Minnesota, and Washington.

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Macular Telangiectasia

normal macular OCT
The macula is the center of the retina (in box). The bottom image is an optical coherence tomogram of the macula. (Click to enlarge)

What is macular telangiectasia (MacTel)?

Macular telangiectasia is a disorder of retinal cells and tiny blood vessels located in the center of the retina. It has also been called juxtafoveal telangiectasis. The retina in your eye is like the film inside a camera. The retina “takes the picture” of objects you look at and sends the message to the brain. The macula is the central portion of the retina that is responsible for sharp reading vision. In MacTel the macula undergoes slow degeneration, and tiny foveal blood vessels become irregular and dilated for unknown reasons. They rarely leak blood or clear fluid in the fovea. MacTel may resemble changes in the retina from drugs that are used to treat breast cancer (Tamoxifen).

Who is at risk for developing macular telangiectasia?

Macular telangiectasia is usually found in males and females during their 5th to 8th decade of life. It may occur in as many as one in every 1,000 persons. MacTel is associated with diabetes, high blood pressure, and tobacco use, but the exact cause has not been determined. Hereditary factors appear significant. Low serum levels of an amino acid called L-serine may play a role, but there are no clear recommendations for supplementation to date.

What are the symptoms of macular telangiectasia?

Blurring of vision is the most common symptom. Distortion of vision may also make reading or seeing small details difficult. Distortion is when straight lines appear wavy or crooked. It may be monitored with the Amsler grid test. Symptoms and clarity of vision may change from day to day. If sudden loss of vision or increased distortion occurs, your doctor should be notified without delay (within a week) as treatment may be needed.

What treatment is available?

There is no cure, but treatment may improve vision or keep the vision from worsening in certain instances. No specific treatment may be recommended if the symptoms are mild. Supplements containing the amino acid L-serine are being investigated. Laser and medicine injections help selected patients. Treatment usually does not return the vision to normal.

Your doctor is going to order appropriate tests and recommend the best course of action to take at this time. Physical activity and use of your eyes will not worsen macular telangiectasia. Magnification may help with reading. If you have any questions, please feel free to ask. If you would like to participate in research, contact www.mactelresearch.com.

By Scott E. Pautler, MD

For a telemedicine consultation with Dr Pautler, please send email request to spautler@rvaf.com. We accept Medicare and most insurances in Florida. Please include contact information (including phone number) in the email. We are unable to provide consultation for those living outside the state of Florida with the exception of limited one-time consultations with residents of the following states: Alabama, Arkansas, Connecticut, Georgia, Minnesota, and Washington.

Copyright  © 2014-2022 Designs Unlimited of Florida. All Rights Reserved.