Pr Eric E. GabisonOphthalmology · Cornea & refractive · Paris
FR EN
HomePro areaRefractive surgery › Complications & side effects
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 08

Complications

Each family has its own complications, inherited from its mode of stromal access, plus shared pitfalls. Two scenes concentrate the difficulty: the LASIK interface (several early opacities look alike yet call for opposite treatments) and the PRK surface (epithelial healing → infection, viral reactivation, keratolysis).

8.1 The flap & the cut

At the cut: buttonhole, free or incomplete flap, striae, and later flap displacement after rubbing/trauma. Rarer with femtosecond, these mechanical events still govern final optical quality and set up several interface complications.

8.2 The interface-opacity differential

The core of post-LASIK expertise. Four entities share a cloudy early interface; confusing them risks worsening what you think you are treating.

DLK ("Sands of the Sahara")
Inflammatory, sterile, confined to the interface. Starts day 1 peripherally, migrates centrally. Linebarger grading (1 peripheral → 4 stromal melt + hyperopic shift). Grade 1–2: intensive steroids; grade 3: lift flap + irrigate.
PISK (major trap)
Under prolonged steroids, raised IOP forces interlamellar fluid that mimics DLK — but the mechanism is pressure. Increasing steroids worsens it. Key: measure IOP (central applanation falsely low over the fluid cushion → measure peripherally), stop steroids, lower pressure.
CTK (central toxic keratopathy)
Most likely the severe (grade IV) form of DLK: amorphous central opacity, striae, tissue loss, hyperopic shift. Reassuring trait: spontaneously resolvingobserve, contraindicating any escalation. Normal IOP (vs PISK).
Epithelial ingrowth
Epithelial cells from the flap edge (epithelial defect, buttonhole, re-lift). Stable → watch; progressive (nest rolling the edge, melt, irregular astigmatism) → lift + scrape both surfaces + secure the edge (fibrin glue/suture).
Table 4 — LASIK interface opacities: the differential that changes management
EntityNatureOnsetDistinguishing signManagement
DLKInflammatory, sterileDay 1Periphery → centre, interface-confinedSteroids; lift + irrigate if grade 3
PISKRaised IOP under steroidsWeeksHigh IOP (deceptive applanation)Stop steroids + lower pressure
CTK (= DLK grade IV)Extreme of the DLK spectrumDay 3–9Stromal loss + hyperopic shift; resolvingObserve; spontaneous regression
Epithelial ingrowthCellular (flap edge)Days–weeksEpithelial nest, rolling flap edgeWatch; lift + curettage if progressing
Infectious keratitisMicrobialEarly or latePain, focal infiltrate, chamber reactionLift, sampling, fortified antibiotics

8.3 Infections

Rare but serious, with a useful chronology: early forms (days) mostly Gram-positive cocci (staph, strep); late forms fearing atypical organisms (non-tuberculous mycobacteria, fungi) at the interface — a sanctuary poorly reached by drops. Do not temporise: lift the flap, sample (smear, cultures, PCR), fortified antibiotics, irrigate the interface. After PRK, infection occurs under the bandage lens.

8.4 Herpetic reactivation

Excimer UV and surgical stress can reactivate latent herpes. In any history of ocular herpes: weigh the indication and, if retained, cover with oral antiviral prophylaxis (aciclovir/valaciclovir) begun before surgery and continued postoperatively.

8.5 NSAID keratolysis

Topical NSAIDs, valuable against early post-PRK pain, can turn toxic and trigger sterile keratolysis (an ulcer that deepens, risking perforation). Risk rises with duration, generics, steroid co-use, and above all a fragile surface (dry eye, neurotrophy, diabetes, systemic disease). Mechanism: matrix proteolysis (MMP/TIMP imbalance). Act without delay: stop the NSAID, intensive lubrication, oral tetracyclines, autologous serum, monitor ulcer depth.

Chapter 09

Functional side effects

9.1 Dryness — nerve section & regrowth

The cornea is among the most densely innervated tissues; this innervation drives reflex tear secretion and blink. Every photoablation severs nerves: the circular LASIK flap interrupts the most, surface spares them more, extraction is intermediate. Denervation lowers sensitivity, reduces reflex secretion, slows blink → partly neurotrophic dryness. Regrowth is slow (months to > 1 year), sometimes incomplete — hence possible persistence and a neuropathic surface pain component. Management: substitutes, punctal occlusion, surface anti-inflammatory, and above all time.

9.2 Halos, glare & optical-zone / pupil ratio

Photoablation reshapes only a central disc (optical zone) extended by a transition zone. In photopic conditions the constricted pupil sits within the optical zone → sharp image. In scotopic conditions the dilated pupil overruns the optical zone: peripheral rays cross the transition/untreated cornea, unfocused → halos, glare, ghosting. More marked with a small optical zone, strong correction (abrupt transition) and a large scotopic pupil.

Photopic pupil < optical zone → sharp image optical zone Scotopic pupille > optical zone → halos unfocused rays
Figure 3 — Optical zone & pupil diameter: mechanism of scotopic halos (original schematic).

9.3 Presbyopia

Corneal surgery reshapes the cornea but does not restore accommodation: it neither prevents nor treats presbyopia. A subtle point for the myope: previously, myopia gave spontaneous near vision with glasses off; emmetropising removes it, so at the presbyopic age they become dependent on reading glasses — an effect felt as paradoxical if not anticipated. Monovision mitigates the nuisance, at a cost to stereopsis, after selection and a trial.

9.4 Regression & residual error

Over-/under-correction and regression are managed by retreatment when thickness and stability allow; surface haze is now largely prevented by mitomycin C. Iatrogenic ectasia, preventable and serious, is the subject of the next chapter.

Table 5 — Surface side effects & complications: mechanism & management
EffectMechanismManagement
DrynessNerve section (LASIK > lenticule > surface); slow regrowthSubstitutes, occlusion, anti-inflammatory, time
Halos / glareScotopic pupil > optical zonePrevention by optical-zone sizing
PresbyopiaNo restored accommodationAnticipation, monovision after trial
Subepithelial hazeMyofibroblast response (surface, high correction, UV)MMC; steroids; photoprotection
NSAID keratolysisMatrix proteolysis (MMP/TIMP)Stop NSAID, lubrication, tetracyclines, autologous serum
Herpetic reactivationViral reactivation (UV, stress)Peri-op oral antiviral prophylaxis
Early / late infectionGram+ / atypical (mycobacteria, fungi)Lift, sampling, fortified antibiotics
Iatrogenic ectasiaBiomechanical weakening (high PTA, at-risk cornea)Prevention +++; CXL, rings, graft by stage