Pr Eric E. GabisonOphthalmology · Cornea & refractive · Paris
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HomePro areaRefractive surgery › Indications & limits
Course contents ▾
  1. The refractive landscape
  2. Surface photoablation (PRK)
  3. LASIK
  4. Lenticule extraction
  5. Differentiating techniques
  6. Indications & choice
  7. Ablation limits
  8. Complications
  9. Functional side effects
  10. Iatrogenic ectasia
  11. Comparative synthesis
  12. Publications & sources
Chapter 06

Indications & choice of technique

All three families correct the same error; the choice turns on eye anatomy and lifestyle. The reasonable range covers myopia to ≈ −8 to −10 D, hyperopia to +3 to +4 D and astigmatism to 5–6 D; beyond, one shifts to intraocular solutions. Within this range, corneal thickness, topography and refractive stability decide, before any preference.

Surface regains the advantage whenever load-bearing tissue must be spared: thin or borderline cornea, mildly asymmetric topography, impact-prone occupations (military, combat sports) where a flap is a weak point, epithelial basement membrane dystrophy. LASIK keeps its edge on comfort and speed when thickness and topography are clearly favourable. Lenticule extraction holds an appealing middle ground: no flap, nerve sparing, near-immediate recovery.

When to decline any photoablation

Suspected keratoconus or forme fruste, insufficient thickness, predicted residual bed too thin, unstable refraction, severe dryness, and (to a lesser degree) autoimmune background or pregnancy. Preoperative tomographic and biomechanical screening is the main barrier against iatrogenic ectasia — not a formality.

Table 2 — Guiding the choice
SituationPreferred techniqueReason
Thin / borderline corneaSurface (PRK)No flap → load-bearing tissue preserved
Mildly atypical topographySurface, with cautionLess biomechanical impact
Impact-risk occupationSurface or lenticuleNo displaceable flap plane
Favourable thickness & topo, fast recoveryLASIKComfort, useful from day 0
Preop dryness, nerve concernLenticule (SMILE/SILK)Relative nerve sparing
Keratoconus / FFKC / insufficient RSBNo photoablationEctasia risk → consider a lens implant
Chapter 07

Ablation limits — surface & depth

Safety rests not on a single number but on the geometry remaining after surgery. Two limits combine: the optical zone (surface) and the load-bearing stromal bed (depth).

7.1 Ablation depth — Munnerlyn's law

Ablation depth grows with the correction and with the square of the optical-zone diameter:

depth (µm) ≈ (optical zone² × D) / 3  →  ≈ 12–15 µm / D at 6 mm

Hence the optical-zone dilemma: enlarging it improves night vision (fewer halos) but costs tissue; shrinking it saves stroma at the cost of scotopic optical quality.

7.2 Residual stromal bed & percent tissue altered (PTA)

For a long time the rule was one number: residual stromal bed ≥ 250 µm (Barraquer), today ≥ 300 µm as a safer margin. But 250 µm does not equally protect a thick cornea heavily ablated and a thin cornea barely touched. Hence percent tissue altered (PTA, Santhiago 2014), relating everything that weakens the cornea (flap + ablation) to initial thickness:

LASIK flap ~110 µm ablation (FT+AD) residual bed (RSB) RSB floor ≥ 300 µm CCT (~540 µm) Surface (PRK) ablation only (AD) wider residual bed CCT (~540 µm) no flap → lower PTA PTA = (capot + ablation) / CCT  ·  seuil de risque ≥ 40 %
Figure 2 — Depth limits: PTA and residual stromal bed (RSB) by technique (original schematic).

PTA = (flap thickness + ablation depth) / CCT  ·  risk if ≥ 40 %

Key idea — why surface protects

For equal correction, surface removes the flap's contribution to the PTA numerator: thicker residual bed, lower PTA. That is the biomechanical reason to prefer surface on borderline corneas. Landmark: the anterior 40% of stroma carries most of the tensile strength. Validation (Santhiago/Randleman): PTA ≥ 40% in nearly all eyes that became ectatic with normal preop topography (sensitivity ~97%, specificity 89%); mean PTA ~45% (ectatic) vs ~32% (controls).

Table 3 — The numerical limits to remember
ParameterLandmarkComment
Depth / diopter≈ 12–15 µm/D at 6 mmMunnerlyn; grows with optical zone²
Flap thickness~100–110 µm (femto)Microkeratome more variable
Residual stromal bed≥ 300 µm250 µm = historical minimum
PTA< 40 %Ectasia risk threshold (Santhiago)
Risk score (ERSS)≥ 3 to watchTopo, RSB, age, CCT, MRSE (Randleman)
Stromal strength40% ant. > 60% post.Justifies sparing anterior lamellae