Ocular trauma
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About This Presentation
Ocular Trauma Presentation
Slide Content
DEPT. OF OPTHALMOLOGY
SHER-E-BANGLA MEDICAL COLLEGE HOSPITAL, BARISAL.
OCULAR TRAUMA
DR. MD. NURUL ISLAM
DO STUDENT
SESSION – JULY, 2013
29-10-2013
SHER-E-BANGLA MEDICAL COLLEGE HOSPITAL, BARISAL.
OCULAR TRAUMA
DR. MD. NURUL ISLAM
DO STUDENT
SESSION – JULY, 2013
29-10-2013
Trauma
Definitions from dictionary :
• A deeply distressing or disturbing experience.
• A serious injury or shock to the body, as from
violence or an accident.
• An event or situation that causes great distress and
disruption.
Definitions from dictionary :
• A deeply distressing or disturbing experience.
• A serious injury or shock to the body, as from
violence or an accident.
• An event or situation that causes great distress and
disruption.
Ocular Trauma
•The eye is protected from direct injury by lids,
eyelashes and the projecting margins of the
orbit. Nevertheless, it can be injured in a
variety of ways; by chemicals, heat, radiation
and mechanical trauma.
•The eye is protected from direct injury by lids,
eyelashes and the projecting margins of the
orbit. Nevertheless, it can be injured in a
variety of ways; by chemicals, heat, radiation
and mechanical trauma.
Some key features of ocular trauma:
•It is number one ocular emergency.
•Leading cause of blindness, irrespective of age, sex and
geographical status. (40% of monocular blindness)
•Male & young age group is greater in incidence rate.
•Efficient referral expected from the professionals.
•Every persons should know about the importance of
quick response to an ocular injury.
•Prophylactic measure is always better than
management.
•It is number one ocular emergency.
•Leading cause of blindness, irrespective of age, sex and
geographical status. (40% of monocular blindness)
•Male & young age group is greater in incidence rate.
•Efficient referral expected from the professionals.
•Every persons should know about the importance of
quick response to an ocular injury.
•Prophylactic measure is always better than
management.
Classification of Trauma
•Etiological Classification -
1. Accidental trauma.
2. Self inflicted trauma.
3. Occupational trauma.
1. Accidental trauma.
2. Self inflicted trauma.
3. Occupational trauma.
•Classification according to nature-
1. Physical trauma
a. Perforating
b. Nonperforating
c. Blunt trauma
2. Chemical trauma
a. Acid
b. Alkali
c. Dye (Salt of acid or alkali)
1. Physical trauma
a. Perforating
b. Nonperforating
c. Blunt trauma
2. Chemical trauma
a. Acid
b. Alkali
c. Dye (Salt of acid or alkali)
3. Thermal trauma
a. Heat
b. Cold
4. Radiation trauma
a. Ionizing agents
b. Ultra violet rays
c. Laser burn
5. Miscellaneous
a. Heat
b. Cold
4. Radiation trauma
a. Ionizing agents
b. Ultra violet rays
c. Laser burn
5. Miscellaneous
•Uniform classification based on primary
evaluation; Mechanical trauma to the eye are
of two types:
1. Open globe injuries
– full thickness defect of eye coats.
2. Closed globe injuries
– injuries without full thickness of
eye coats.
evaluation; Mechanical trauma to the eye are
of two types:
1. Open globe injuries
– full thickness defect of eye coats.
2. Closed globe injuries
– injuries without full thickness of
eye coats.
Mechanical eye injuries
Closed-globe injuries
Contusion or Concussion
Lamellar laceration
Superficial foreign body
Open-globe injuries
Laceration Rupture
Penetrating injuries
Perforating injuries
Intraocular FB
Closed-globe injuries
Contusion or Concussion
Lamellar laceration
Superficial foreign body
Open-globe injuries
Laceration Rupture
Penetrating injuries
Perforating injuries
Intraocular FB
Assessment:
•History-
- should be detailed as possible
- time & nature of injury
- missile,blunt,?FB remaining,chemical etc.
- Past ocular history - VA, lid function
- Immunization history
•Rule out life threatening injuries
•Rule out globe threatening injuries
•Examine both eyes
•Documentation +/- photograph
•Plan for repair
•History-
- should be detailed as possible
- time & nature of injury
- missile,blunt,?FB remaining,chemical etc.
- Past ocular history - VA, lid function
- Immunization history
•Rule out life threatening injuries
•Rule out globe threatening injuries
•Examine both eyes
•Documentation +/- photograph
•Plan for repair
Eyelid trauma
•Periocular Haematoma :
- Generally innocuous but it is very important to exclude -
1. Trauma to the globe or orbit
2. Orbital roof fracture
3. Basal skull fracture
- Generally innocuous but it is very important to exclude -
1. Trauma to the globe or orbit
2. Orbital roof fracture
3. Basal skull fracture
Fig. (A) Periocular haematoma and oedema;
(B) periocular haematoma and subconjunctival
haemorrhage; (C) ‘panda eyes’
(B) periocular haematoma and subconjunctival
haemorrhage; (C) ‘panda eyes’
•Laceration :
1. Superficial lacerations
2. Lid margin lacerations
3. Lacerations with mild tissue loss
4. Lacerations with extensive tissue loss
5. Canalicular lacerations
1. Superficial lacerations
2. Lid margin lacerations
3. Lacerations with mild tissue loss
4. Lacerations with extensive tissue loss
5. Canalicular lacerations
Fig. Lacerated eye injuries
Repair
•General principles of repair:
1. Clean the wound
2. Remove foreign body
3. Careful handling of tissues
4. Careful alignment of anatomy
- lid margins,lash line,skin folds, etc.
5. Close in layers
6. Timing
- Ideally within 12-24 hours of injury but can
delay up to 1 week; pt’s factors, gross swelling
7. Anaesthesia – GA / LA
1. Clean the wound
2. Remove foreign body
3. Careful handling of tissues
4. Careful alignment of anatomy
- lid margins,lash line,skin folds, etc.
5. Close in layers
6. Timing
- Ideally within 12-24 hours of injury but can
delay up to 1 week; pt’s factors, gross swelling
7. Anaesthesia – GA / LA
Repairing procedure
1.Superficial lacerations without gaping can be sutured with 5-0
/ 6-0 black silk, removed after 5 days
2.Lid margin laceration
- Carefully align to prevent notching
a. Align with 5-0 silk suture
b. Close tarsal plate with fine
absorbable suture (5-0 vicryl)
c. Place additional marginal silk
suture
d. Close skin with multiple interrupted suture
3.Lacerations with tissue loss
- Primary closure and may also need a lateral cantholysis
1.Superficial lacerations without gaping can be sutured with 5-0
/ 6-0 black silk, removed after 5 days
2.Lid margin laceration
- Carefully align to prevent notching
a. Align with 5-0 silk suture
b. Close tarsal plate with fine
absorbable suture (5-0 vicryl)
c. Place additional marginal silk
suture
d. Close skin with multiple interrupted suture
3.Lacerations with tissue loss
- Primary closure and may also need a lateral cantholysis
Fig. Repairing lid margin lacerations
4.Canalicular lacerations repair:
- Repair within 24 hours
- Locate & approximate ends
- Bridge the defect with silicone tubing
- Leave the tube in situ for 3-6 months
- Repair within 24 hours
- Locate & approximate ends
- Bridge the defect with silicone tubing
- Leave the tube in situ for 3-6 months
•Complications -
- Lid margin notching
- Lagophthalmos
- Hypertrophic scar
- Infection
- Tearing – canalicular damage, lid malposition, pump
failure
- Ptosis
- Lid margin notching
- Lagophthalmos
- Hypertrophic scar
- Infection
- Tearing – canalicular damage, lid malposition, pump
failure
- Ptosis
Orbital fractures
Types :
•Blow-out orbital floor fracture
•Blow-out medial wall fracture
•Roof fracture
•Lateral wall fracture
•Blow-out orbital floor fracture
•Blow-out medial wall fracture
•Roof fracture
•Lateral wall fracture
•Blow-out orbital floor fracture
Cause:
Sudden increase in orbital pressure by an impacting
object greater in diameter than the orbital aperture (>5 cm)
e.g.- Fist, tennis ball etc.
Cause:
Sudden increase in orbital pressure by an impacting
object greater in diameter than the orbital aperture (>5 cm)
e.g.- Fist, tennis ball etc.
Mechanism of an orbital floor blow-out fracture
Signs of orbital floor blow-out fracture
•Periorbital ecchymosis,
oedema and emphysema may
also present
•Infraorbital nerve anaesthesia
•Ophthalmoplegia tipically in
up and down-gaze (double
diplopia)
•Enophthalmos – if severe
•Periorbital ecchymosis,
oedema and emphysema may
also present
•Infraorbital nerve anaesthesia
•Ophthalmoplegia tipically in
up and down-gaze (double
diplopia)
•Enophthalmos – if severe
Investigations
• Right blow-out fracture
with ‘tear-drop’ sign
• Restriction of right upgaze and
downgaze
• Secondary overaction of left eye
Coronal CT scan Hess test
• Right blow-out fracture
with ‘tear-drop’ sign
• Restriction of right upgaze and
downgaze
• Secondary overaction of left eye
Coronal CT scan Hess test
Surgical repair of orbital floor blow-out fracture
a. Subciliary incision • Coronal CT scan following repair of
right blow-out fracture with synthetic
material
b.Periosteum elevated and entrapped
orbital contents freed
c.Defect repaired with syntheticmaterial
d. Periosteum sutured
a b
c d
a. Subciliary incision • Coronal CT scan following repair of
right blow-out fracture with synthetic
material
b.Periosteum elevated and entrapped
orbital contents freed
c.Defect repaired with syntheticmaterial
d. Periosteum sutured
a b
c d
Medial wall blow-out fracture
Signs & Investigation
• Periorbital subcutaneous emphysema
• Ophthalmoplegia - adduction and
abduction if medial rectus muscle is
entrapped
• CT coronal view shows fractures of
the medial wall (red arrow)
Treatment
• Release of entrapped tissue
• Repair of bony defect
Signs & Investigation
• Periorbital subcutaneous emphysema
• Ophthalmoplegia - adduction and
abduction if medial rectus muscle is
entrapped
• CT coronal view shows fractures of
the medial wall (red arrow)
Treatment
• Release of entrapped tissue
• Repair of bony defect
Trauma to the Globe
•Principles of Evaluation:
1.Initial assessment
a. Determination of nature, extent, life threatening problems
b. History of the injury, including the circumstances, timing
and likely object
c. Thorough examination of eyes and the orbits
2.Special investigations
a. Plain X-ray
b. CT scan
c. MRI (Never if ferrous metalic FB)
d. USG (B-scan)
1.Initial assessment
a. Determination of nature, extent, life threatening problems
b. History of the injury, including the circumstances, timing
and likely object
c. Thorough examination of eyes and the orbits
2.Special investigations
a. Plain X-ray
b. CT scan
c. MRI (Never if ferrous metalic FB)
d. USG (B-scan)
Blunt Trauma
Pathogenesis of ocular damage by blunt trauma
Anterior segment complications of blunt trauma
•Corneal abrasion
•Stromal oedema
•Tears in Descemet membrane
Corneal complications
•Stromal oedema
•Tears in Descemet membrane
Corneal complications
• Traumatic hyphaema
• Vossius ring
• Radial sphincter tears
• Iridodialysis
Pupillary complications
• Radial sphincter tears
• Iridodialysis
Pupillary complications
• Cataract
• Subluxation
• Dislocation
Lens complications of blunt trauma
• Subluxation
• Dislocation
Lens complications of blunt trauma
Angle Recession Rupture globe
Posterior segment complications of blunt trauma
Commotio retinae
(A) Peripheral (B) central (C) macular hole following resolution
(A) Peripheral (B) central (C) macular hole following resolution
Choroidal rupture
Acute with subretinal haemorrhage Old with secondary choroidal
neovascularization
Acute with subretinal haemorrhage Old with secondary choroidal
neovascularization
Retinal breaks and detachment
Equatorial breaks Avulsion of the vitreous base
with Dialysis
Macular holes
Equatorial breaks Avulsion of the vitreous base
with Dialysis
Macular holes
Traumatic optic neuropathy (TON) Optic nerve avulsion
Penetrating trauma
Complications of penetrating trauma
Penetrating corneal wounds
Flat anterior chamber Small shelving with formed anterior
chamber
Penetrating corneal wounds
Flat anterior chamber Small shelving with formed anterior
chamber
Penetrating corneal wounds
with lens damage with iris involvement
with lens damage with iris involvement
Anterior scleral laceration with
ciliary and vitreous prolapse
Scleral laceration with
iridociliary prolapse
ciliary and vitreous prolapse
Scleral laceration with
iridociliary prolapse
Vitreous haemorrhage Tractional retinal detachment
Foreign body
Superficial foreign body
Subtarsal foreign body Corneal foreign body with surrounding
cellular infiltration
Subtarsal foreign body Corneal foreign body with surrounding
cellular infiltration
•Management:
a. Careful slit-lamp examination for exact position & depth
b. Removal under slit-lamp with 26-gause needle
c. Magnetic removal for a deeply embedded metallic foreign body
c. Residual ‘rust ring’ may remove with sterile ‘burr’
d. Antibiotic oint. with cycloplegic and/or NSAIDs
a. Careful slit-lamp examination for exact position & depth
b. Removal under slit-lamp with 26-gause needle
c. Magnetic removal for a deeply embedded metallic foreign body
c. Residual ‘rust ring’ may remove with sterile ‘burr’
d. Antibiotic oint. with cycloplegic and/or NSAIDs
Intraocular foreign body
Intraocular foreign body
(A) In the lens (B) In the angle
(C) in the anterior vitreous
(D) on the retina
(A) In the lens (B) In the angle
(C) in the anterior vitreous
(D) on the retina
•Management:
a. Accurate history- helpful for nature of FB
b. Examination
- Entry exit point
- Gonioscopy & fundoscopy must
- Documentation for damaged structure
c. CT scan
d. MRI contraindicated for metalic FB
a. Accurate history- helpful for nature of FB
b. Examination
- Entry exit point
- Gonioscopy & fundoscopy must
- Documentation for damaged structure
c. CT scan
d. MRI contraindicated for metalic FB
Removal technique
• Removal with magnet or by pars plana vitrectomy
• with forceps either through the pars plana or limbus
• Removal with magnet or by pars plana vitrectomy
• with forceps either through the pars plana or limbus
Chemical Injury
Key features:
•Majority of injuries are accidental
•Few due to assault
•2/3 rd of accidental burns occur at work place
•Alkali burns are twice as common as acid
•Alkali burns more severe than acid
•Majority of injuries are accidental
•Few due to assault
•2/3 rd of accidental burns occur at work place
•Alkali burns are twice as common as acid
•Alkali burns more severe than acid
Grading of severity of chemical injuries
Grade I (excellent prognosis)
•Clear cornea
•Limbal ischaemia - nil
Grade II (good prognosis)
•Cornea hazy but visible iris
details
•Limbal ischaemia <1/3
Grade III (guarded prognosis)
•Hazy cornea with no iris
details
•Limbal ischaemia 1/3 to 1/2
Grade IV (very poor prognosis)
•Opaque cornea
•Limbal ischaemia >1/2
•G - II
•G - III
•G - IV
Grade I (excellent prognosis)
•Clear cornea
•Limbal ischaemia - nil
Grade II (good prognosis)
•Cornea hazy but visible iris
details
•Limbal ischaemia <1/3
Grade III (guarded prognosis)
•Hazy cornea with no iris
details
•Limbal ischaemia 1/3 to 1/2
Grade IV (very poor prognosis)
•Opaque cornea
•Limbal ischaemia >1/2
•G - II
•G - III
•G - IV
Medical Treatment of Chemical Injuries
1.Copious irrigation (15-30 min) – to restore normal pH
2.Topical steroids (first 7-10 days) – to reduce inflamation
3.Topical and systemic ascorbic acid – to enhance collagen
production
4.Topical citric acid – to inhibit neutrophil activity
5.Topical and systemic tetracycline – to inhibit collagenase and
neutrophil activity
6.Cycloplegia – to improve comfort
1.Copious irrigation (15-30 min) – to restore normal pH
2.Topical steroids (first 7-10 days) – to reduce inflamation
3.Topical and systemic ascorbic acid – to enhance collagen
production
4.Topical citric acid – to inhibit neutrophil activity
5.Topical and systemic tetracycline – to inhibit collagenase and
neutrophil activity
6.Cycloplegia – to improve comfort
Surgical Management of Severe Chemical Injuries
Treatment of severe corneal opacity by
keratoplasty or keratoprosthesis
Division of conjunctival bands Re-establish the fornices
Correction of eyelid
deformity
Treatment of severe corneal opacity by
keratoplasty or keratoprosthesis
Division of conjunctival bands Re-establish the fornices
Correction of eyelid
deformity
Thank You
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