Intracorneal rings
& CAIRS
An intrastromal insert shortens the arc and flattens the cone. The whole decision is a grammar: thickness, arc length and optical zone set the effect; implant symmetry answers cone symmetry. CAIRS replaces PMMA with tissue.
Intracorneal ring segments (ICRS) — optics & sizing
10.1 Physical principle
The insert, placed in the mid-deep stroma, exerts an arc-shortening effect: it flattens the cornea opposite the segment, recentres the cone apex, reduces irregular astigmatism and the myopic spherical equivalent. The effect is additive, adjustable, reversible/explantable.
10.2 Effect rules — to internalise
- Flattening effect ↑ with segment thickness.
- Effect ↑ with arc length (longer arc = more flattening, over a wider sector).
- Effect ↑ as the optical zone ↓ (small OZ = more effect; large OZ = gentler, more centring).
- Segment placed on the steepest / thinnest meridian (at the cone axis, opposite the bulge).
10.3 Astigmatism, irregularity, SE — the decision grammar
Topographic symmetry → implant symmetry; asymmetry/coma → implant asymmetry (or single segment).
10.4 Dimensions of the main ICRS (reference orders of magnitude)
| Model | Section | Optical zone (Ø) | Arc | Thickness | Note |
|---|---|---|---|---|---|
| Keraring (Mediphacos) | triangular | 5.0 mm (SI-5) or 6.0 mm (SI-6) | 90-355° | 150-300 µm (50 steps) | Wide range of arcs, central cones. |
| Ferrara Ring | triangular/prismatic | ~5.0 mm | 90-210° | 150-350 µm | Narrow apex, marked effect. |
| Intacs | hexagonal | 6.8-7.0 mm | 150° | 250-450 µm | Large OZ, more diffuse/peripheral cones. |
| Intacs SK | oval | 6.0 mm | 150° | 400-450 µm | Severe keratoconus, advanced central cones. |
| MyoRing (Daxer) | continuous full ring | — | 360° (closed) | variable (Ø 5-8 mm) | Implanted in a pocket, centring effect. |
Small OZ (5 mm) + thick/long segments = maximal effect (advanced central cones); large OZ (6.8-7 mm) = gentler, centring effect (more diffuse cones). Cone asymmetry is handled by thickness/arc asymmetry or a single segment.
10.5 Tunnels and implantation depth (PMMA)
- Depth: 70-80 % of local pachymetry at the tunnel, measured at the thinnest point of the track (neither too superficial → extrusion; nor too deep → Descemet perforation).
- Femtosecond creation: regular tunnel, programmed depth, entry incision on the chosen axis — far superior to the manual Suarez dissector for depth reproducibility.
- Optical zone: centre the tunnel on the visual axis / pupil centre per nomogram (generally 5.0 / 6.0 / 6.8 mm depending on model).
Extrusion (if too superficial), stromal melt, migration, peri-segment deposits/haze, channel neovascularisation, interface keratitis — precisely the limits that motivate CAIRS.
CAIRS — Corneal Allogenic Intrastromal Ring Segments
11.1 Principle (Jacob, 2018)
Ring segments cut from allogeneic corneal stroma (de-epithelialised donor tissue), implanted in a stromal tunnel. The biological additive tissue replaces PMMA.
11.2 Advantages over PMMA
- Biocompatibility: no melt, no extrusion, no migration, no deposits, near-zero neovascularisation.
- More superficial implantation possible (no melt risk above the segment) → enhanced additive flattening ("tissue addition") and management of corneas where PMMA would be risky.
- Additive (adds tissue volume), combinable with CXL, potentially explantable/adjustable; no permanent foreign material.
11.3 Indications
- Keratoconus with irregular astigmatism and a cornea too thin or too steep for safe PMMA.
- Central/paracentral cones requiring a marked effect.
- Wish to avoid PMMA complications (young patients, borderline corneas).
- Combination CAIRS + CXL ("CAIRS-plus"), or ± topo-guided PTK for fine regularisation.
- Selected PMD (inferior segment).
11.4 Insert preparation & sizing
Allograft cutting: from a de-epithelialised donor corneal button, stromal arcs are harvested using a double trephine (two concentric diameters) or a manual/femto cut; an arc segment of chosen width and thickness is obtained.
The exact sizing tables (width × length × tunnel Ø by K/asymmetry) vary with the preparation method (double-trephine vs free cut) and platform. Always recalibrate on the Jacob/Istanbul source table.
11.5 Tunnel & depth (CAIRS specificity)
- Femtosecond tunnel as for ICRS, but a deliberately more superficial depth (typically ~50 % of stromal depth, ~40-60 % range) — the absence of melt risk allows it and enhances the surface additive effect.
- Tunnel diameter / OZ adapted to segment length (often 5.0-6.0 mm).
- Combined sequence: CXL usually performed after implantation (or deferred); topo-guided PTK as a second step if fine regularisation is needed.
11.6 Points of vigilance
Quality and thickness of donor tissue (cut reproducibility), dimensional segment/tunnel matching, interface (possible but usually transient haze), learning curve of graft preparation.