Menu

Dietary Riboflavin (Vitamin B-2) and Cornea Cross-Linking

Status

Enrolling

Conditions

Cornea Ectasia
Keratoconus

Treatments

Dietary Supplement: Dietary riboflavin

Study type

Interventional

Funder types

Other

Identifiers

NCT03095235
2006390

Details and patient eligibility

About

Corneal ectasia is characterized by irregularity and thinning of the cornea, causing the cornea to bulge forward and cause distorted vision and impaired visual acuity. Corneal ectasia is a complication after refractive (LASIK) surgery. It is also the primary problem in keratoconus, a gradually progressive inherited condition that typically is manifested in young adulthood, more commonly in women. Treatment approaches to stabilize the cornea's shape include rigid contact lenses, surgical implantation of stiff plastic intrastromal corneal ring segments, a collagen cross-linking procedure and, in severe cases, cornea transplantation. The collagen cross-linking procedure involves topical application of a concentrated riboflavin (vitamin B2) solution after the corneal epithelium is scraped, followed by ultraviolet (UV) light exposure. UV light stimulates riboflavin to form new bonds (cross links) between the cornea's connective tissue, giving the cornea additional strength to maintain its shape and prevent the need for transplantation. The cost of one treatment using this system is $2,500 to $3,500. A small prospective study including 7 patients with keratoconus was started on a trial of oral riboflavin and 15 minutes of natural sunlight exposure daily. These patients reported no adverse effects and preliminary results showed corneal stabilization and/or corneal flattening in all 7 patients It is hypothesized that dietary riboflavin and natural sunlight is as effective in corneal crosslinking as the currently FDA approved Avedro therapy. If the clinical study confirms the investigators' early observations of the benefits of this approach, coupled with animal studies that document corneal cross-linking, the investigators will have data to pursue funding for larger clinical and animal studies. This has the potential to save millions of dollars in health care costs and ease the burden of treatment in patients who require therapy to induce corneal cross-linking to stabilize the cornea's shape.

Full description

Corneal ectasia as a complication from refractive (LASIK) surgery as well as keratoconus is a slowly progressive condition that results in high patient morbidity. Treatment options aim to stabilize the shape of the cornea using rigid contact lenses, surgical insertion of stiff plastic intrastromal rings, corneal cross linking, and ultimately corneal transplant in severe patients. The recently FDA approved "Dresden Protocol" involves painful cornea scraping followed by application of concentrated Riboflavin, followed by immediate collagen cross linking with UV light exposure which results in shortening and thickening of the collagen fibrils, and therefore a stronger, stiffer cornea. Avedro has demonstrated an average cornea flattening (K max reduction) of 1.4 diopters and 1.7diopters in two different studies. The current cost of Avedro therapy is between $2500 -$3500 per treatment. This is considered to be an accepted medical procedure at this time and therefore is beginning to be covered by several insurance companies.To spare the patient the severe pain involved in the current procedure, and to avoid the high cost (Avedro is not covered by any medical insurance), the investigator started 7 patients with keratoconus from 2011-2015 in his private practice in Seattle on a trial of oral riboflavin (100 mg or 400 mg daily) and 15 minutes of sunlight exposure daily. No adverse effects have ever been reported with high-dose dietary riboflavin supplements. The results of this preliminary trial are remarkable. During follow-up from 6 months to 5 years, all 7 patients have had corneal stabilization and/or corneal flattening. One patient experienced flattening of the cornea by 1.5 Diopters, comparable to the best results of the Avedro system. A limited animal study was recently completed and published in Switzerland by Dr. Farhad Hafezi , M.D., PhD which was published in the Journal of Cataract & Refractive Surgery that confirmed corneal cross-linking occurs in response to riboflavin and UV exposure from the sun and proven to successfully crosslink. Our current clinical study would expand the promising preliminary findings to a larger sample size. This has the potential to save millions of dollars in health care costs and ease the burden of treatment in patients who require therapy to induce corneal cross-linking to stabilize the cornea's shape.

To date eye specialists in Brazil, Texas and other locations are beginning to treat patients with our protocol and finding similar successful results using 400 to 800mg dietary riboflavin and 15 to 45 minutes of sunlight exposure for a period of 3 to 6 months with successful results.

Enrollment

24 estimated patients

Sex

All

Ages

12+ years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

  • patients identified as having keratoconus or post refractive cornea ectasia with astigmatism of 1.5 Diopters or greater.

Exclusion criteria

  • Known sensitivity to riboflavin, sunlight.
  • patients on medications with side effects of increased sunlight sensitivity should discuss participation with their prescribing provider prior to participation

Trial design

Primary purpose

Treatment

Allocation

N/A

Interventional model

Single Group Assignment

Masking

None (Open label)

24 participants in 1 patient group

Treatment with riboflavin
Experimental group
Description:
Patients will take 400 mg dietary riboflavin per day and go outside without sunglasses for 15 minutes per day to evaluate the effects of riboflavin B2 and natural UV light from sun exposure on cornea cross linking and stabilization of ectatic disease.
Treatment:
Dietary Supplement: Dietary riboflavin

Trial contacts and locations

1

There are currently no registered sites for this trial.

Central trial contact

Van D Nguyen, MD; John S Jarstad, MD

Timeline

Last updated: May 09, 2024

Start date

May 01, 2017 • 8 years ago

Today

May 08, 2025

End date

Jun 01, 2025 • in 23 days

Sponsors of this trial

Collaborating Sponsor

Data sourced from clinicaltrials.gov