1. Ocular Trauma Mohamad Abdelzaher MSc

2. Epidemiology 40% of monocular blindness is related to trauma The leading cause of monocular blindness 70-80% injured are males Age: more in children and young age group Incidence of penetrating eye injuries: 3.6/100000 Occupation : construction, industry Sports : boxing, racket sports Motor vehicle accidents

3. Classification Ocular Injuries Mechanical BluntPerforating ChemicalThermalPhysical

4. Assessment Rule out life threatening injuries Rule out globe threatening injuries Examine both eyes Image Plan for treatment

5. Blunt ocular trauma Direct force “coop” Shock waves “counter-coop” Antero-posterior compression & equatorial expansion

6. Orbital blow-out fractures Fracture Floor

7. Periocular ecchymosis and oedema Infraorbital nerve anaesthesia Ophthalmoplegia - typically in up and down gaze (double diplopia) Enophthalmos - if severe Signs of orbital floor blow-out fracture

8. Lid Black “raccoon” eye Lid laceration Traumatic ptosis Surgical emphysema

9. Conjunctiva Subconjunctival hemorrhageConjunctival laceration

10. Cornea Corneal abrasionCorneal FB

11. Corneal rupture with iris prolapse

12. Sclera Scleral rupture

13. Anterior Chamber Hyphema

14. Iris Iridodialysis Aniridia

15. Ciliary Body Angle recession Iridocyclitis CB shut down “Hypotony”

16. Lens Dislocation Cataract

17. Vitreous Vitreous hemorrhage

18. Choroid Choroidal ruptureChoroidal detachment

19. Retina Commotio retinae Retinal detachment

20. Penetrating injuries Without FB retention: -Cut wound: lid, conjunctiva, cornea, … -Infection: corneal, endo, panophthalmitis -Sympathetic ophthalmitis

21. With Intraocular FB: MechanicalInfectionFB reaction Cut wound: lid, conjunctiva, cornea, … corneal, endo, panophthal mitis -Non specific -Siderosis bulbi “Fe” -Chalcosis bulbi “Cu ”

22. Kayser Fleischer’s ringSunflower cataract Chalcosis bulbi

23. Cemical Ocular Injuries Most chemical substances that come in contact with the conjunctiva or cornea cause little harm. The chief danger comes from alkali-containing compounds found in household cleaning fluids, fertilizers and pesticides. They erode and opacify the cornea. Acid-containing compounds (battery fluid, chemistry labs) are somewhat less dangerous. There are no antidotes to these chemicals. The best you can do is to dilute them immediately with plain water. The resultant reaction of the tissue causes the damage.

24. Treatment should be instituted immediately, even before testing vision. Emergency treatment: 1-copious irrigation of the eyes, preferably with saline or ringer lactate. Don’t use acidic solutions to neutralize alkalis or vice versa. Pull down the lower eyelid and evert the upper eyelid to irrigate the fornices 2-irrigation should be continued until neutral PH is reached. Except lime

25. For mild to moderate burns (during and after irrigation): cycloplegic topical antibiotic oral pain medication if increase IOP use drugs to reduce it (acetazolamide, methazolamide add b blocker if additional IOP control is required) frequent use of preservative free artificial tear

26. For severe burns (Treatment after irrigation): Admission to the hospital Lysis of conjunctival adhesion Debride necrotic tissue Topical antibiotic Topical steroid Antiglaucoma medication if the IOP is increased or cant be determined Frequent use of preservative free artificial tear Other consideration: Therapeutic contact lenses, collagen, amniotic membrane transplant IV ascorbate and citrate for alkali burns If any melting of the cornea occurs, collagenase inhibitors may be used If the melting progresses an emergency patch graft or corneal transplat may be necessary.

27. A hazy cornea following an alkali burn

28. Physical Injuries Glass blowerIron melterArc flash Infra Red Cataract Photophthalmia UVR

29. Punctate epithelial erosions “photophthalmia”