Case Report

Complete Traumatic Luxation of the Eyeball

Manpreet Singh1, MS, DNB, FAICO; Amandeep Singh Jassi2, MD; Manpreet Kaur1, MS; Pankaj Gupta1, MS

1Department of Ophthalmology, Advanced Eye Centre, Post Graduate Institute of Medical Education and Research,
Chandigarh, India

2Department of Radiodiagnosis, Accuscan Diagnostic Centre, Mohali, Punjab, India

ORCID:
Manpreet Singh: https://orcid.org/0000-0003-2846-0597

Abstract

Purpose: To report the computed tomography features of a case with complete luxation
of the globe after a road traffic accident.
Case Report: A 35-year-old male presented with pain, loss of vision, and bleeding from
the left eye 48 hr after a road traffic accident. The ophthalmic examination of the left
upper and lower eyelids showed edema with subcutaneous hematoma, crepitus, and
complete blepharoptosis. On retracting the eyelids, the left eyeball was not visible and
the patient was not able to perceive light. The left temporal region appeared filled
with a soft, palpable globular structure situated beneath the temporalis muscle. A non-
contrast computed tomography (NCCT) of the head and orbits showed a comminuted
and displaced fracture of the floor, medial, and lateral orbital walls in addition to a
displaced tripod fracture of the left zygomatic bone. The intact left eyeball was seen
below the temporalis muscle without any optic nerve or extraocular muscle attachment.
The virtual reality reconstruction highlighted a contributory supero-temporal defect in
the bony orbit, which appeared large enough to accommodate the intact eyeball.
Conclusion: The computed tomography of the orbits provided a detailed location of the
luxated eyeball and provided guidance in further management of the case.

Keywords: Eyeball Displacement; Globe Luxation; Globe Subluxation; Ocular Trauma; Ophthalmic
Trauma

J Ophthalmic Vis Res 2021; 16 (4): 688–690

INTRODUCTION

A complete luxation of the eyeball is a rare
and devastating ophthalmic trauma, which is

Correspondence to:

Manpreet Singh, MS, DNB, FAICO. Department
of Ophthalmology, Advanced Eye Centre, Post
Graduate Institute of Medical Education and Research,
Chandigarh 160012, India.
Email: drmanu83@gmail.com
Received: 16-07-2019 Accepted: 12-04-2021

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DOI: 10.18502/jovr.v16i4.9760

occasionally accompanied by traumatic avulsion
of the optic nerve and extraocular muscles.[1, 2]
Morris et al explained this mechanism in three
categories: direct impact, wedge effect, and lever-
fulcrum action.[2] Orbital computed tomography
(CT) and magnetic resonance imaging revealed
details of fractures, the location of the eyeball, optic
nerve, and extraocular muscle attachments.[1, 2]

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How to cite this article: Singh M, Jassi AS, Kaur M, Gupta P. Complete
Traumatic Luxation of the Eyeball. J Ophthalmic Vis Res 2021;16:688–690.

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Traumatic Globe Luxation; Singh et al

Figure 1. Computed tomography images of the orbit, brain, and 3D face reconstruction. (a) Axial scan illustrates left orbital fractures,
pneumo-orbit, lost eyeball with transected medial rectus (yellow arrow), and optic nerve (black arrow). (b) The coronal section
shows a luxated eyeball (yellow arrow) through the fracture space, pneumo-orbit, and left maxillary hemosinus. (c) The superior
axial section shows the luxated eyeball beneath the anterior fibers of left temporalis muscle with air pockets and multiple small
bone fragments. (d) The virtual reality image illustrates the left displaced tripod fracture of the zygomatic bone and a contributory
wide bony space created (two black arrows).

CASE REPORT

A 35-year-old male presented to ophthalmology
emergency suffering with pain, loss of vision,
and bleeding from his left eye for 48 hr after
experiencing a road traffic accident whilst under
the influence of alcohol. On presentation, the
patient was calm, conscious, co-operative,
and oriented to time, place, and person. His
neurological examination was within normal
limits. On ophthalmic examination, the right eye
appeared normal with a visual acuity of 6/6. The
left upper and lower eyelids were edematous
with subcutaneous hematoma and complete
blepharoptosis. Crepitus was felt on the palpating

eyelids. On retracting the eyelids with a Desmarres
retractor, the left eyeball was not visible, and
the patient was not able to perceive light. The
left temporal region appeared filled with a soft,
palpable globular structure situated beneath the
temporalis muscle.

A non-contrast computed tomography (NCCT)
of the head and orbits was requested. The NCCT
axial images revealed a comminuted and displaced
fracture of the medial and lateral orbital walls
[Figure 1a]. The coronal section also revealed a
displaced tripod fracture of the left zygomatic
bone and orbital floor [Figure 1b]. The intact
left eyeball was seen below the temporalis
muscle without any optic nerve or extraocular

JOURNAL OF OPHTHALMIC AND VISION RESEARCH VOLUME 16, ISSUE 4, OCTOBER-DECEMBER 2021 689



Traumatic Globe Luxation; Singh et al

muscle attachment [Figure 1c]. The virtual reality
reconstruction highlighted a contributory supero-
temporal defect in the bony orbit, which appeared
large enough to accommodate the intact eyeball
[Figure 1d].

After receiving informed consent, the removal
of the eyeball from the sub-temporalis space
was performed. Intraoperatively, the eyeball was
found to be hypotonus with a surrounding purulent
foul-smelling discharge. The outer scleral surface
was necrosed and the cornea was opaque. No
optic nerve or muscle stump was identified.
The specimen was sent for histopathological and
microbiological examination. An open reduction
internal fixation surgery using mini-plates was
performed for the tripod fracture repair and
reconstruction of the bony orbital rim. In order to
achieve the best possible cosmetic rehabilitation,
a second-stage orbital volume restoration using a
dense porous polyethylene spherical implant was
planned, to be followed by a customized ocular
prosthesis.

DISCUSSION

A subluxated eyeball is routinely reposited back
in the orbit, surgically or with Tse’s maneuver
(for spontaneous subluxation).[3] However,
complete luxation of the eyeball accompanied with
detachment of all recti and optic nerves justifies its
removal, given its lost vitality and the presence of
obvious future implications. The seven branches of
muscular arteries, ciliary arteries (long – 2, short – 6
to 12) and the retinal artery, which contributes to the
majority of the ocular blood supply, gets detached
from the luxated eyeball. The loss of arterial blood
supply initiates necrosis and enhances tissue
infection. In our detailed published text entitled
“subluxated globes”, we have comprehensively
covered the etiopathogenesis, clinical features,
and management of this disastrous condition.[4]
We pointed out that orbital imaging provides vital

information about the position of subluxated or
luxated eyeballs, and the extent of surrounding
tissue damage and orbital bone fractures.[4] The
joint management of luxated eyeball cases by
ophthalmologists, maxillo-facial surgeons, and
neurosurgeons provides a holistic approach
in achieving the best possible cosmetic and
functional outcomes.

In summary, the CT used to assess this particular
case of luxation provided valuable information
in determining the location of the eyeball, the
detachment of arteries, the presence of orbital
fractures and ocular related injuries.

Acknowledgment

The authors are thankful to Dr. Kasturi
Bhattacharjee, Head of Orbit & Ophthalmic Plastic
Surgery, Sri Sankaradeva Nethralaya, Guwahati,
Assam, India for her support and guidance.

Financial Support and Sponsorship

Nil.

Conflicts of Interest

There is no conflict of interest.

REFERENCES

1. Tucker B. Two cases of dislocation of the eyeball through
the palpebral fissure. J Nerv Ment Dis 1907;34:391–397.

2. Morris WR, Osborn FD, Fleming JC. Traumatic evulsion of
the globe. Ophthal Plast Reconstr Surg 2002;18:261–267.

3. Tse DT. A simple maneuver to reposit a subluxed globe.
Arch Ophthalmol 2000;118:410–411.

4. Bhattacharjee K, Bhattacharjee H, Singh M, Dey D.
Subluxated globes. In: Mukherjee B, Yuen H, editors.
Emergencies of the orbit and adnexa. New Delhi: Springer;
2017, pp. 19–25.

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