Updates on Optic Disc Drusen

Main Points from Experts InSight Podcast: Updates on Optic Disc Drusen (2025)

• Optic Disc Drusen Studies (ODS) Consortium
  • International group (48 members, 15 countries) led from Denmark
  • Over 70 publications; pioneered standardized research on optic disc drusen (ODD)
  • ODD appears to be inherited in an autosomal dominant fashion (originally described by Sven Lorentzen in Denmark)
  • Current major focus: identifying the genetic causes of ODD (whole-genome sequencing)
• Genetics of Optic Disc Drusen
  • One identified candidate gene: ABCC6 (same gene mutated in pseudoxanthoma elasticum; involved in calcium regulation)
  • Likely multiple genes involved (heterogeneous condition)
  • Ongoing recruitment of families with ≥4 affected members for genetic studies
  • High prevalence in Utah due to Scandinavian ancestry
• Imaging – Major Recent Advance
  • Enhanced Depth Imaging OCT (EDI-OCT) of the optic nerve (especially Heidelberg Spectralis) is now the preferred diagnostic method
  • More sensitive than B-scan ultrasound or fundus autofluorescence, particularly for buried/superficially invisible drusen
  • Classic EDI-OCT appearance: hyporeflective core with hyperreflective shell; early “nascent” drusen appear as horizontal hyperreflective lines deep to Bruch’s membrane
  • Has largely replaced ultrasound in many practices
• Differential Diagnosis – Pseudopapilledema vs True Papilledema
  • EDI-OCT + RNFL OCT usually distinguishes buried drusen from true disc edema (both can coexist)
  • Especially helpful in children with crowded/hyperopic discs
• Management & Follow-up (Dr. Katz’s approach)
  • Highly individualized
  • Mild ODD, no field loss → often no routine follow-up needed; annual IOP check recommended
  • Severe ODD with significant field loss (even in young patients) → closer monitoring (driving safety, school accommodations)
  • Consider brimonidine for ocular hypertension (possible neuroprotective effect)
  • Co-existing glaucoma + ODD is very challenging
  • Baseline visual field; repeat only if symptoms or concern for progression
• Complications & Counseling
  • Increased risk of non-arteritic anterior ischemic optic neuropathy (NAION), especially in younger patients
  • Other vascular complications possible (e.g., retinal vein occlusion)
  • Counseling: most patients never have issues from ODD, but emphasize general vascular risk factor control and annual eye exams; avoid overly alarming patients
• Future Directions
  • Continued genetic research (ODS Consortium)
  • AI likely to play a role in interpreting EDI-OCT for ODD detection soon
  • Potential for AI to help distinguish drusen from mild papilledema
• Resources
  • opticdiscdrusen.com (ODS Consortium website)
  • ODS paper: “Diagnostic Optic Disc Drusen in the Modern Imaging Era” (excellent imaging examples)

Key take-home: EDI-OCT has revolutionized ODD diagnosis; genetics research is active; most patients do well with minimal or no follow-up, but stay vigilant for complications and vascular risk factors.