Childhood Cataracts and Other Pediatric Lens Disorders

1. Childhood Cataractsand Other Pediatric Lens Disorders Juan G. Santiago, MD Ophthalmology RCM UPR

2. Structural or Positional LensAbnormalities • Congenital aphakia • Usually associated with ocular malformation

3. Structural or Positional LensAbnormalities • Spherophakia • Small, spherical lens that may dislocate • Usually bilateral • Weill-Marchesani

4. Structural or Positional Lens Abnormalities • Lens coloboma • Notched or flattened area • Abnormal closure of the embryonic fissure • Usually associated with dislocation

5. Structural or Positional Lens Abnormalities • Lenticonus (lentiglobus) • Central ectasia of lens surface • Anterior or posterior • Alport syndrome: Nerve deafness + nephritis + anterior lenticonus

6. Lenticonus • Posterior more common • Cataract may have later onset • Important prognostic factor

7. Dislocated Lenses in Children • Ectopia lentis • Lens is not in normal anatomic position • a.k.a. lens dislocation, luxation, subluxation

8. Dislocated Lenses in Children • Simple ectopia lentis • No other abnormality • Bilateral, symmetric • Upward temporal • Autosomal dominant • Ectopia lentis et pupillae • Pupil also displaced • Bilateral, asymmetric • Autosomal recessive

9. Dislocated Lenses in Children • Differential diagnosis • Trauma • Spontaneous (ocular anomaly) • Aniridia • Iris Coloboma • Hereditary ectopic lentis • Congenital glaucoma • Systemic disorders

10. Dislocated Lenses in Children • Must know: • Marfan • Homocystinuria • Weill-Marchesani • Extra credit: • Hyperlysinemia • Sulfite oxidase deficiency • Syphilis • Ehlers-Danlos

11. Marfan syndrome • Autosomal dominant • Fibrillin mutation (chromosome 15) • Physical features • Tall, long limbs, arachnodactyly, loose joints, scoliosis, chest deformities • Cardiovascular • Aortic dilation / Dissecting aneurysm • Dislocated lens in 50%-80% • Usually bilateral and upward

12. Homocystinuria • Autosomal recessive; high homocysteine • Physical features: • Tall, osteoporosis, scoliosis • Life-threatening problem • Thrombotic vascular occlusions; hypertension • Avoid surgery! • Lens dislocation in 90% • Usually bilateral and downward

13. Weill-Marchesani syndrome • Autosomal recessive • Physical features • Short stature • Short stubby fingers • Microspherophakia • Progressive lens dislocation • Pupillary block common • Consider prophylactic peripheral iridectomy?

14. Dislocated Lenses: Treatment • Refraction • Try both parts of pupil: • Phakic • High minus, high astigmatism, irregular • The endless retinoscopy • Aphakic • High plus, low astigmatism • Consider chronic mydriasis + bifocals • Glaucoma • Cataract

15. Pediatric Cataracts: Overview • Prevalence • 1 / 250 newborns • Types • Systemic associations • Clinical evaluation • Treatment • Prognosis

16. Pediatric Cataracts: Types • Congenital • Bilateral • 1/4 hereditary • 1/4 associated diseases • 1/2 idiopathic • Unilateral • Hereditary • Autosomal dominant most common • Traumatic

17. Morphologic Cataract Types • Zonular • Nuclear, Lamellar, Sutural, Capsular • Polar • Anterior polar, Posterior lenticonus • Total • PHPV (PFV)

18. Anterior Polar Cataract • Nonprogressive • Small (<3 mm) • Surgery rarely required • Beware anisometropia! • Anisometropic amblyopia

19. Lamellar Cataract • Often hereditary • Often acquired and progressive • Opacification peripheral to Y sutures • Clear nucleus • Bilateral

20. Nuclear Cataract • Congenital • Often autosomal dominant inheritance • Microphthalmia frequent • Dense, axial opacity

21. Other morphologic types • Posterior lenticonus / lentiglobus • Bulging posterior lens capsule • Acquired; better prognosis • PHPV (PFV) • Microphthalmia • Glaucoma • 90% unilateral • Poor prognosis

22. Cataracts: Key causes • Genetic / Metabolic • Lowe syndrome • Galactosemia • MANY others • Infectious • TORCH • Syphilis

23. Cataract Evaluation: General • Family history • Examine family members • If positive, further evaluation may not be needed • But: Beware hereditary syndromes (e.g. Lowe) • Pregnancy • Rash, febrile illness • Physical exam

24. Cataract Evaluation: Eye Exam • A scan • Corneal diameter • Keratometry if IOL planned • B scan if needed • Rule out mass / stalk / detachment • Intraocular pressure

25. Cataract evaluation: Lab studies • When to defer laboratory studies: • Most unilateral cases • But rule out subtle bilateral disease • Bilateral cases with a definite hereditary basis

26. Cataract evaluation: Lab studies • Urine • Reducing substance (after milk feeding) • Amino acids IF Lowe suspected • Blood • Fasting blood sugar • Plasma calcium/phosphorous • RBC transferase / galactokinase • TORCH (toxoplasmosis, rubella, CMV, HSV) • IF maternal rash during pregnancy: • Varicella antibody titers

27. When to intervene • Dense cataracts • Urgent removal and optical correction • Provide focused image by age 8 weeks • Nystagmus = poor prognosis

28. When to intervene • Partial cataracts • Judgment call • Party line: 3 mm or greater • My approach: • Retinoscopy • If you can’t refract, then baby can’t see • Direct ophthalmoscopy • If you can’t see, then neither can baby

29. Treatment approaches • Non-surgical (very mild cases) • Mydriasis • Occlusion of uninvolved eye • Lensectomy / vitrectomy • Intraocular lens implantation • PC or not PC?

30. Lensectomy • Stab incisions • Limbus or pars plana • Insert vitreous cutter • Aspirate nucleus and cortex • Primary posterior capsulectomy • Anterior vitrectomy

31. Lensectomy • Postoperative optical rehabilitation • Aphakic spectacles • Contact lenses

32. Intraocular Lens Implant • Party line: OK for age 2 and up • Some say older; many will go younger • Under 6 months not advisable • Under 3 months strongly discouraged

33. Intraocular Lens Implantation: Mitigating factors • Unilateral cataract • Earlier threshold for IOL insertion • Ocular anatomy • Anterior chamber size (microphthalmia) • Coexisting ocular disease • Glaucoma • Inflammation • Dislocated lens • Aniridia • ROP

34. Bilateral cataracts: When to consider IOL • Nystagmus • Contact lenses difficult to fit and position • Dry eye • Unusual circumstances • Dirty or sandy living conditions • Limited access to contact lens care • Compliance concerns

35. IOL power: Target refraction • Age at cataract surgery • Myopic shift of 7-8 D from age 1-10 yr • The closer to birth, the more marked the undercorrection will need to be • Status of the fellow eye • Monocular cataract or pseudophakia – Minimize the aniseikonia • Both eyes – Larger amount of hyperopia may be acceptable • Visual acuity • Late myopia is acceptable if it helps the child recover vision during the amblyopia treatment years • Expected compliance • Poor compliance – Better to leave less refractive error.

36. IOL power: Target refraction • Parent’s refractive error (Myopic parents) • Expected to undergo more growth • May be left with more hyperopia • IOL power • The higher the IOL power, the higher early residual refraction • Microphthalmia • The highest available IOL power should be chosen

37. Postoperative Care:Short term • Aggressive control of inflammation • Topical steroids every 1-2 hours for 2 weeks • Taper slowly for IOL, quickly for contact lens • Maintain antibiotic coverage as well • Cycloplegia • Atropine for first day • Then use judiciously to prevent IOL capture • Prompt fitting of contact lenses

38. Postoperative Care:Long term • Contact lens management issues • Constant surveillance for amblyopia • Prompt institution of penalization or patching • Strabismus is common • Don’t over-patch! • Constant surveillance for glaucoma • May not show up for 10 years • EUA to check IOP for sudden myopic shift

39. Summary: Pediatric cataract • Autosomal dominant most common • Several important hereditary conditions • Early treatment is key • Surgical approach differs from adults • Surgery is the easy part • IOL power calculations • Contact lenses or IOL problems • Amblyopia, strabismus, glaucoma