Vabysmo better than Eylea?

Yosemite/Rhine Studies: a critical analysis

The Yosemite and Rhine Studies were twin randomized, double-masked, multicenter non-inferiority trials comparing the efficacy of faricimab (Vabysmo) vs aflibercept (Eylea) in the treatment of diabetic macular edema.

The study abstract begins with the statement, “To reduce treatment burden and optimize patient outcomes in diabetic macular oedema, we present the 1-year results from two phase 3 trials of faricimab, a novel angiopoeitin-2 and vascular endothelial growth factor-A bispecific antibody.”  However, analysis of the data reveals the study report did NOT demonstrate reduced treatment burden at one year.  It did demonstrate potential non-inferiority of faricimab compared with aflibercept with an increased treatment burden in the faricimab arms of the studies. 

Treatment burden was greater in both faricimab treatment arms of both studies compared with aflibercept. Table 1 reveals 25% greater injections in the faricimab q8 week group compared with aflibercept.  The faricimab group received 10 injections at 52 weeks compared with aflibercept at 9 injections.  The faricimab group did not experienced a reduced treatment burden compared with aflibercept.  Moreover, the faricimab group sustained a more intense treatment burden to meet the “non-inferiority” assessment compared with aflibercept.  

Table 1. Injection schedule for faricimab (Fq8) and aflibercept (Aq8) q8 week study arms.

wk#1481216202428323640444852total
Fq81111110101010110
Aq8111110101010109

There was only one subgroup of eyes that received one less injection of faricimab at one year compared with aflibercept.  There were 63 eyes of 286 (22%) in Yosemite and 66 eyes of 308 (21%) in Rhine who underwent 7 faricimab injections within the group randomized to “personalized treatment interval” (PTI) compared with 8 injections in the aflibercept group.  Unfortunately, the visual and anatomic outcomes of this subgroup of faricimab eyes were reported a part of the entire PTI group, which overall had more injections than the aflibercept group. 

The primary outcome of the study was the number of letters of improvement on the standard ETDRS chart. However, because of the uneven staggered injection schedule between the q8 week treatments groups, the method to calculate the visual improvement outcome favored faricimab over aflibercept.  The study design called for averaging the measurements of visual improvement over a three-month time frame (i.e. at week 48, 52, and 56).  As a result, the three averaged measurements for faricimab (Fq8) was 4 weeks, 8 weeks, and 4 weeks post-injection (average 5.3 weeks), while the three measurements for aflibercept (Aq8) were 8, 4, and 8 weeks post injection (average 6.6 weeks).  Thus, the unevenly staggered injection schedule resulted in a final visual endpoint measurement inappropriately in favor of faricimab.  

Even in the subgroup of faricimab (Fpti) that touted one 16week treatment interval, the visual acuity measurements were taken at 16weeks, 4weeks, and 8 weeks post-injection.  This represents an average of 9.3 weeks post-injection; this is nowhere near the measurement taken at 16 weeks.  In addition, the acuity outcomes in the Fpti group were reported as a group without reporting the acuity gains made specifically by the subgroup of eyes extended to a 16-week interval.  Therefore, the reported acuity gains do not apply to this subgroup with extended treatment.       

A secondary outcome of the study was the central subfield macular thickness (CST).  This measurement shows the anatomic improvement in macular edema.  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).  Analysis of the results 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 similar jagged response is not seen in the Fpti group as the treatment intervals varied within that group.  The rebound in edema seen in both faricimab and aflibercept suggests the durability of the treatment effect may be similar.  These studies did not perform a direct comparison of faricimab and aflibercept on the same personalized treatment interval protocol.

Remarkably, these limitations of the study were not discussed in the published article and the FDA granted approval of faricimab for use in the United States based on these data drawn from an imperfect study design that favored faricimab.  More research is needed in order to determine if faricimab is truly non-inferior to aflibercept and whether faricimab may offer a reduced treatment burden.  

UPDATE Oct 2022: I have been using Vabysmo in the office. I am please with the results in patients with wet AMD in that I can extend the treatment interval further than with older drugs. However, patients with large serous pigment epithelial detachments (PED) appear to be at greater risk of vision loss from rips in the PED. I have not been impressed with superior effectiveness of Vabysmo in patients with diabetic retinopathy.

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  © 2022 Designs Unlimited of Florida

Better Diabetes Management with the Hemoglobin A1c Test

What is hemoglobin A1C?

Hemoglobin A1C is a blood test that measures the average blood sugar level in the blood over the past two or three months. Specifically, this test measures the amount of sugar that permanently attaches to hemoglobin, a protein in red blood cells. Because red blood cells live for about three months, this test shows the average blood sugar level during that time. This test gives some of the information that you could get if you measured your blood sugar every day continuously throughout the day and night.

Why is hemoglobin A1C important?

We know high blood sugar damages blood vessels and may cause blindness, kidney failure, nerve damage, amputation, heart attack, stroke, and premature death. Managing blood sugar dramatically reduces the risk of these complications. The hemoglobin A1C test helps to determine whether your blood sugar control has been adequate to minimize damage from diabetes.

Do I need both hemoglobin A1C and standard blood sugar testing?

Yes. Each test gives different information about blood sugar control. For example, your fasting blood sugar may be normal, but if your hemoglobin A1C is high, then you know there are times in the day that the blood sugars are too high and you are still at risk of having complications from diabetes. On the other hand, if your hemoglobin A1C is high, you need spot checks of the blood sugar level to know specifically what part of the day in which you may need to manage differently.

How do results from hemoglobin A1C compare with blood sugar levels?

The hemoglobin A1C test measures the percent of hemoglobin that is chemically bound to sugar. The normal range of hemoglobin A1C is 4-6%, which corresponds to an average blood sugar level of 60-120 mg/dl. Your doctor will help determine what level is best for you, but generally a hemoglobin A1C greater than 7% (average blood sugar equal to 140 mg/dl) means that measures must be taken to achieve better management.

The hemoglobin A1C  test results may be inaccurate in certain conditions. The test results may be falsely low in the following situations: the use of dapsone, certain types of anemia, mechanical heart valves, recent blood transfusion, enlarged spleen, treatment with erythropoietin, severely elevated triglycerides, high-dose vitamin C or E.

Conversely, test results may be falsely elevated in the following situations: untreated hypothyroidism, after surgical removal of the spleen, Iron deficiency, vitamin B12 deficiency, reduced red blood cell production by the bone marrow, chronic alcoholism, chronic kidney disease.

If there is a question about the reliability of the test results, other means of testing may be considered, such as the fructosamine test.

Hemoglobin A1cBlood Sugar
A1c(mg/dL)
4%60
5%90
6%120
7%150
8%180
9%210
10%240
11%270
12%300
13%330

What can I do if my hemoglobin A1C results are high?

While it is important to keep blood sugar levels from being too high, it is also important not to risk frequent or severe episodes of dangerously low blood sugar levels. You and your doctor will evaluate your situation to determine which of the following factors may be playing a role:

  • Too little exercise
  • Inadequate medication type or dosing
  • Too much food
  • Wrong types of food
  • Increased stress
  • Infection

The hemoglobin A1C test provides you with more information to maintain good management of your diabetes. Better control means a longer, healthier life. And any positive change in your care, no matter how small, makes a difference. For example, each 1% decrease in the hemoglobin A1C reduces the risk of eye and kidney damage by 37% and reduces the risk of diabetes-related death by 21%. The more you are involved with your health care, the greater the likelihood of living a longer and healthier life.

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.

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