Postoperative Complications Clinical Trial
Official title:
Post-enucleation Socket Syndrome Study (PESSS): Part 1 - Three Dimensional Volumetric Assessment of Anophthalmic Sockets With the New Multi-detector Computed Tomographic Technology
Superior sulcus deformity in post-enucleation socket syndrome (PESS) may pose a significant
cosmetic blemish after enucleation surgery despite apparently adequate orbital volume
replacement. The underlying reasons include the lack of accurate pre-operative volumetric
assessment of the anophthalmic socket, leading to either under or over estimation of the
orbital implant required and the shifting in orbital and periocular structures that may
occur post enucleation. Conventional imaging studies (computed tomography and magnetic
resonance imaging) have been used to study the anatomy of anophthalmic sockets, but there
are several drawbacks such as poor image quality for detailed volumetric assessment, long
exposure time with possible motion artifact and etc. The new multi-detector computed
tomographic technology is the latest advance in diagnostic radiology that allows rapid high
resolution images to be obtained for three dimensional reconstruction and volumetric
assessment. This new imaging modality will contribute greatly to the understanding of PESS
and the surgical planning of anophthalmic sockets reconstruction.
This is a pilot study aiming to collect clinical data on the volumetric and structural
changes in PESS. The information obtained will:
1. allow more accurate volume estimation of the primary orbital implants prior to
enucleation surgeries, thus minimize the development of PESS;
2. evaluate the volumetric & structural anomalies that constitute PESS
3. be used for the development of a new customized secondary orbital implant to manage
superior sulcus deformity in PESS.
Purpose:
Primary aim:
Three dimensional volumetric assessment of the changes in orbital soft tissues in patient
with post-enucleation socket syndrome, using the new 16-slice multi-detector computed
tomography scanner.
Background:
Post-enucleation socket syndrome (PESS - enophthalmos, superior sulcus deformity, ptosis or
upper eyelid retraction and lower eyelid laxity1) is a well recognized late complication of
enucleation surgery. The underlying pathophysiology, however, has not been well established.
It is especially prominent when there is inadequate orbital volume replacement or
contraction of the socket.2
Superior sulcus deformity (Fig.1) manifests as a deep groove or space between the upper
eyelid and the superior orbital rim. In a review by Smerdon and Sutton, it was the only
significant factor related to poor cosmetic satisfaction.3 It was suggested that the loss of
orbital volume and relaxation of tissues were the causes.4
With the advance in orbital implant development, most patients received implant replacement
during their enucleation surgery or shortly afterward to improve the cosmetic outcome. A
survey among members of the American Society of Ophthalmic Plastic and Reconstructive
Surgery reported a total of 2,779 primary orbital implant being performed in a year.5
An ideal orbital implant replaces 70-80% of the volume enucleated (~5ml, i.e. implant size
20-22mm), while the ocular prosthesis fills the rest (~2ml). But the predictions of implant
size have been relatively subjective and inaccurate. They are influenced by factors like
phthisis, configuration of the orbit, placement of the extraocular muscles, shape of the
implant, the use of implant warps and the orbital fat volume.6 In a retrospective study by
Kaltreider et al, 76% of the patients would benefit from a larger implant and 63% would need
an implant size larger than 22mm.7 On the contrary, in a prospective study by Custer and
Trinkaus, no implant of larger than 22mm was needed.8 However in both studies, patients with
less volumetric replacement showed significantly more severe enophthalmos and superior
sulcus deformity.
Different surgical procedures, mostly by secondary volume augmentation 9-19, have been
suggested to treat superior sulcus deformity and PESS. They can be categorized into
subperiosteal implants on the orbital floor or eyelid implants.20 Besides filling up the
orbital volume, subperiosteal implants produce upward and forward displacement of orbital
content to correct the superior sulcus deformity. Cosmetic improvement with the eyelid
implants or filler material is achieved by adding bulk to the hollowed area below the brow
and above the upper eyelid crease directly. In spite of these, information on accurate
pre-operative volumetric assessment of the anophthalmic sockets remained inadequate,
resulting in occasional revision of the volume augmented.21
Conventional imaging studies have been used for various oculoplastic conditions for more
than two decades. In studying orbital anatomy and pathology, Nugent RA et al has
demonstrated changes in the extraocular muscle (diameter & volume) in patients with Graves'
orbitopathy with the second generation CT scanner and found to correlate well with the
clinical findings22. In the area of anophthalmic sockets, both computed tomography (CT) and
magnetic resonance imaging (MRI) have contributed to the understanding of the condition.
With the use of high resolution CT, Smith et al had demonstrated deepening of the superior
sulcus, sagging & retraction of the superior muscle complex, distal elevation & retraction
of the inferior rectus and downward & forward redistribution of the orbital fat in 22
anophthalmic sockets without orbital implant insertion. They had further suggested a
rotatory displacement of orbital content from superior to posterior and from posterior to
inferior.23 In anophthalmic sockets with orbital implant, Detorakis's group had used 2mm cut
MRI scan to demonstrate statistically insignificant decrease in rectus muscles volume and no
change in orbital fat volume in 5 patients with enucleation surgery.24 Despite the
information obtained, there were multiple drawbacks: poor image quality for detailed
volumetric assessment, increased radiation exposure with separate scanning in axial and
coronal planes, contra-indicated in patient with metallic foreign body injury, and long
exposure time with possible motion artifact,25 and neither of the investigations have been
translated into pre-operative volumetric assessment for surgical planning.
Multi-detector CT (MDCT) is the newest advance in CT technology. It provides unparalleled
capabilities for detailed analysis of normal anatomy and pathology. MDCT allows very high
resolution sub-millimeter image acquisition, and potentially true isotropic datasets, which
is important in the production of good quality images on multi-planar reformation and
volumetric assessment. In the study of anophthalmic sockets and PESS, high quality three
dimensional reconstruction images mean accurate analysis of orbital soft tissue without the
need of additional CT acquisition in a different plane. In a study comparing radiation
exposure between MDCT and conventional CT in the imaging of para-nasal sinus, Zammit-Maempel
et al have demonstrated an 84% reduction in radiation exposure with MDCT, the radiation dose
of 9mGy was 54 times less than the threshold dose of 0.5-2Gy for detectable lens
opacities26. Moreover, since the required coverage is less in the imaging of anophthalmic
sockets, we can expect an even smaller and safer dose of radiation exposure. Last but not
least, the 16-slice MDCT scanner is faster than conventional scanner, it can shorten the
examination time and minimize motion artifact.
Despite all the published data, the patho-physiology of PESS remained unclear and the
management of it is far from satisfactory. We are planning to answer some of the questions
with anophthalmic sockets in 3 stages:
1. Anatomical and radiological analysis
1. With this pilot study we are trying to identify the volumetric changes and the
changes in anatomical relationship of the orbital soft tissue in anophthalmic
sockets by comparing with contra-lateral eyes.
2. Although MRI provide superior soft tissue contrast, CT still provides better
detail of the eye, orbital soft tissue and bony orbit which is important for
pre-operative surgical planning of secondary sub-periosteal orbital implant27.
2. Bioengineering and animal study (with the information obtained in part 1)
1. We will assess the usefulness of MDCT in i. correct sizing of primary orbital
implant in preventing PESS; and ii. correct sizing and effective placement of
secondary orbital implant in restoring both the volumetric and positional changes
in PESS.
2. In addition, with the use of VGStudio MAX software, we may be able to offer
customized secondary orbital implant for optimal correction of PESS.
3. Clinical trials
;
Time Perspective: Prospective
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