Balanced orbital decompression combined with fat removal in Graves ophthalmopathy: do we really need to remove the third wall?

A meta-analysis of the efficacy of two-wall orbital decompression operations for thyroid-associated ophthalmopathy

BACKGROUND

The main treatment for the symptoms of proptosis and optic nerve compression caused by thyroid-associated ophthalmopathy is orbital decompression surgery. Medial inferior wall decompression and balanced decompression are two frequently used surgical procedures. However, there is no unified consensus on how to choose different surgical options for orbital decompression in clinical practice.

AIMS

To compare the effects of medial inferior wall decompression and balanced decompression surgery through meta-analysis and to provide reference for clinical optimal decision making.

METHODS

Databases, including PubMed, Web of Science, Ovid, Cochrane Library, and ClinicalTrials.gov, were searched for randomized controlled trials and cohort studies on decompression surgery for thyroid-associated ophthalmopathy published from inception to March 21, 2023. Using RevMan 5.3 software, a meta-analysis was conducted based on the following outcome indicators: proptosis, diplopia rate, intraocular pressure, visual acuity, and complication rate.

RESULTS

Two randomized controlled trials and five cohort studies with a total of 377 patients were included in this analysis. After balanced decompression surgery, patients with thyroid-associated ophthalmopathy experienced a significant decrease in proptosis [MD = 4.92, 95% CI (4.26, 5.58), P < 0.0001]. Balanced decompression can improve postoperative visual acuity [MD = - 0.35, 95% CI (- 0.56, - 0.13), P = 0.001] and intraocular pressure [MD = 5.33, 95% CI (3.34, 7.32), P < 0.0001]. The rates of proptosis [MD = 0.33, 95% CI (- 1.80, 2.46), P = 0.76] and diplopia [OR = 1.20, 95% CI (0.38, 3.76), P = 0.76] did not differ between patients who underwent medial inferior wall decompression and those who underwent balanced decompression.

CONCLUSION

Balanced decompression and medial inferior wall decompression are both effective options for surgical treatment of thyroid-associated ophthalmopathy in clinical practice.

[Bony orbital decompression in thyroid eye disease]

This article summarizes the results of research on the morphological and functional features of different types of orbital bone decompression in thyroid eye disease (TED) and presents an analysis of surgical anatomy of the lateral orbital wall in the context of performing deep lateral bone decompression of the orbit was carried out. The study includes an analysis of the results of orbital bone decompression with resection of the greater wing of the sphenoid bone using ultrasound osteodestructor in comparison with osteodestruction using a high-speed drill, description of transethmoidal orbital decompression with endonasal access both as a single method of surgical treatment of TED and in combination with lateral bone decompression of the orbit, including the advantages and disadvantages of the method, and presents a morphological description of the pathological changes in the medial orbital wall bone fragments obtained during endonasal transethmoidal orbital decompression in patients with TED.

Dysthyroid Optic Neuropathy

PURPOSE

Dysthyroid optic neuropathy (DON) is a sight-threatening complication of thyroid eye disease (TED). This review provides an overview of the epidemiology, pathogenesis, diagnosis, and current therapeutic options for DON.

METHODS

A literature review.

RESULTS

DON occurs in about 5% to 8% of TED patients. Compression of the optic nerve at the apex is the most widely accepted pathogenic mechanism. Excessive stretching of the nerve might play a role in a minority of cases. Increasing age, male gender, smoking, and diabetes mellitus have been identified as risk factors. Diagnosis of DON is based on a combination of ≥2 clinical findings, including decreased visual acuity, decreased color vision, relative afferent pupillary defect, visual field defects, or optic disc edema. Orbital imaging supports the diagnosis by confirming apical crowding or optic nerve stretching. DON should be promptly treated with high-dose intravenous glucocorticoids. Decompression surgery should be performed, but the response is incomplete. Radiotherapy might play a role in the prevention of DON development and may delay or avoid the need for surgery. The advent of new biologic-targeted agents provides an exciting new array of therapeutic options, though more research is needed to clarify the role of these medications in the management of DON.

CONCLUSIONS

Even with appropriate management, DON can result in irreversible loss of visual function. Prompt diagnosis and management are pivotal and require a multidisciplinary approach. Methylprednisolone infusions still represent first-line therapy, and surgical decompression is performed in cases of treatment failure. Biologics may play a role in the future.

Prediction of exophthalmos by body mass index for craniofacial reconstruction: consequences for cold cases

It is inconvenient for a forensic practitioner to gather population-specific data before performing a facial reconstruction. The inconvenience may defeat the point of creating the reconstruction. The objective of this study was to evaluate a non-population-dependent method of determining exophthalmos. The protrusion of the eyeball is known to vary with the contents of the orbital cavity based on bony orbital resorption or increased or decreased fat contents, as well as according to relative eyeball size. Of use are available statistics on body mass index, and this is discussed within the context of eyeball protrusion. A weak positive correlation (0.3263) between the body mass index of the country where the study originated, and the degree of exophthalmos was found. The results suggest that eyeball protrusion rates can be established according to body mass index, and this framework may be more useful considering conventional police practices.

Update on the surgical management of Graves' orbitopathy

Graves' orbitopathy (GO) is a complex autoimmune disorder of the orbit that causes the eye to appear disfigured. GO is typically associated with Graves' disease, an inflammatory autoimmune condition that is caused by thyrotropin receptor autoantibodies. Although our knowledge of the pathophysiology of GO has improved, its exact pathogenesis remains unclear. Some patients suffer from disfigurement, double vision, and even vision loss rather than hyperthyroidism. The disease severity and activity prompt different treatments, as the signs of GO are heterogeneous, so their management can be very complex. Despite medical advances, the first-line treatment for moderate-to-severe active GO is still glucocorticoids, while surgery can be critical for the treatment of chronic inactive GO. Surgery is sometimes required in the acute phase of the disease when there is an immediate risk to vision, such as in dysthyroid optic neuropathy. Most surgeries for GO are rehabilitative and subdivided into three categories: decompression, strabismus repair, and lid surgery. This review is a basic overview of the field, with up-to-date knowledge of the surgical techniques for GO. We review and summarize recent literature on the advances in surgery for GO to provide up-to-date insights on the optimal surgical treatment for GO.

Comparison of the decompressive effect of different surgical procedures for dysthyroid optic neuropathy using 3D printed models

PURPOSE

To compare the decompressive effect around the optic nerve canal among 3 different decompression procedures (medial, balanced, and inferomedial) using 3D printed models.

METHODS

In this experimental study, based on data obtained from 9 patients (18 sides) with dysthyroid optic neuropathy, a preoperative control model and 3 plaster decompression models were created using a 3D printer (total, 72 sides of 36 models). A pressure sensor was placed at the optic foramen, and the orbital space was filled with silicone. The surface of the silicone was pushed down directly, and changes in pressure were recorded at 2-mm increments of pushing.

RESULTS

At 10 mm of pushing, there was significantly lower pressure in the medial (19,782.2 ± 4319.9 Pa, P = 0.001), balanced (19,448.3 ± 3767.4 Pa, P = 0.003), and inferomedial (15,855.8 ± 4000.7 Pa, P < 0.001) decompression models than in the control model (25,217.8 ± 6087.5 Pa). Overall, the statistical results for each 2-mm push were similar among the models up to 10 mm of pushing (P < 0.050). At each push, inferomedial decompression caused the greatest reduction in pressure (P < 0.050), whereas there was no significant difference in pressure between the medial and balanced decompression models (P > 0.050).

CONCLUSION

All 3 commonly performed decompression procedures significantly reduced retrobulbar pressure. Because inferomedial decompression models obtained the greatest reduction in pressure on the optic nerve canal, inferomedial decompression should be considered the most reliable procedure for rescuing vision in dysthyroid optic neuropathy.

[The significance of surgical anatomy in lateral orbital wall decompression]

The article reviews data on the anatomical and topographic features of the lateral wall in the context of performing orbital surgery and presents a description of the surgical areas of the lateral wall that are most important for increasing the volume of the orbit: the lacrimal keyhole, the sphenoid door jamb, and the basin of the inferior orbital fissure. Particular attention is given to the topographic anatomy of the sphenoid door jamb as the most promising area for orbital decompression and transorbital access to the skull base.

Risk Factors for New Onset Diplopia After Graduated Orbital Decompression

PURPOSE

The aim of the study was to identify possible risk factors for new onset diplopia in 20° of primary position (NOD PP) after orbital decompression. A predisposition for NOD has been established for patients with pre-existing diplopia in secondary gaze; therefore, the authors focused on patients without preoperative diplopia.

METHODS

Retrospective chart review of patients who underwent balanced orbital decompression between 2012 and 2019 due to Graves orbitopathy at the authors' institution. Exclusion criteria were incomplete clinical data set, revision surgery, and medial or lateral decompression only. The following clinical parameters were evaluated preoperatively and postoperatively: Hertel exophthalmometry, objective measurement of misalignment using the prism-cover-test, assessment of the field of binocular single vision, and measurement of monocular excursions. In addition, the diameter of the extraocular eye muscles was measured in all preoperative CT scans.

RESULTS

We included 327 patients (612 orbits), 126 patients (242 orbits) had no preoperative diplopia. In patients with NOD PP (34%, n = 43/126), enlargement of the medial rectus muscle and restriction of abduction and elevation were significantly more frequent than in patients with no NOD PP. The degree of exophthalmos decrease positively correlated with postoperative squint angle.

CONCLUSION

We were able to identify the diameter of the medial rectus muscle, restriction of abduction, and elevation as well as an extensive reduction of exophthalmos as risk factors for NOD PP in patients with no preoperative diplopia.

Bony Orbital Surgery for Graves' Ophthalmopathy

The majority of Graves' ophthalmopathy, or thyroid eye disease, can be managed medically; however, in refractory or severe cases, surgical intervention with orbital decompression may be necessary. The majority of the published literature is retrospective in nature, and there is no standardized approach to orbital decompression. The purpose of this review is to evaluate the various surgical approaches and techniques for orbital decompression. Outcomes are ultimately dependent on individual patient factors, surgical approach, and surgeon experience.

Proposing a surgical algorithm for graduated orbital decompression in patients with Graves' orbitopathy

PURPOSE

To determine the outcome after orbital decompression using a graduated technique, adapting the surgical technique according to individual patients' disease characteristics.

METHODS

We retrospectively examined the postoperative outcome in patients treated with a graduated balanced orbital decompression regarding reduction of proptosis, new onset diplopia and improvement in visual function. 542 patients (1018 orbits) were treated between 2012 and 2020 and included in the study. Clinical examinations including visual acuity, exophthalmometry (Hertel) and orthoptic evaluation were performed preoperatively and at minimum 6 weeks postoperatively. Mean follow-up was 22.9 weeks.

RESULTS

Mean proptosis values have significantly decreased after surgery (p < 0.01). In 83.3% of the patients Hertel measurement normalized (≤ 18 mm) after surgery, New onset diplopia within 20° of primary position occurred in 33.0% of patients, of whom 16.0% had preoperative double vision in secondary gaze. Patients suffering from dysthyroid optic neuropathy (DON) had a significant increase in visual acuity (p < 0.01).

CONCLUSION

We demonstrated that individually adapted graduated orbital decompression successfully improves key disease parameters of Graves' orbitopathy with low morbidity.

Changes in Field of Binocular Single Vision and Ocular Deviation Angle After Balanced Orbital Decompression in Thyroid Eye Disease

PURPOSE

To evaluate influential factors for changes in the binocular single vision (BSV) and ocular deviation angle in the medial direction after bilateral balanced orbital decompression in thyroid eye disease.

METHODS

This retrospective study included 41 patients. The areas of BSV and the angles of medial ocular deviation on the Hess chart were measured. The percentages of pre- and postoperative areas against the normal area (%BSV) and the change in BSV after surgery were calculated. Postoperative change in the angle was calculated by subtraction of the preoperative angle from the postoperative one. Influential factors for the change in BSV and that in the medial deviation angle were evaluated via multivariate linear regression analysis.

RESULTS

The maximum cross-sectional area of the medial rectus muscle, preoperative %BSV, and preoperative medial ocular deviation angle were significant factors of change in BSV (adjusted r2 = 0.449, p < 0.001), although age, history of anti-inflammatory treatment, volume of removed orbital fat, findings on CT images, maximum cross-sectional areas of the other rectus muscles, and presence or absence of a periosteal flap did not affect change in BSV (p > 0.050). On the contrary, all variables did not influence postoperative changes in the medial ocular deviation angle (p > 0.050).

CONCLUSIONS

In balanced orbital decompression, the maximum cross-sectional area of medial rectus muscle, preoperative field of BSV, and medial ocular deviation were significant influential factors for postoperative changes in field of BSV.

Comparison of 2-wall versus 3-wall orbital decompression against dysthyroid optic neuropathy in visual function: A retrospective study in a Chinese population

To compare visual function of 2-wall (medial and lateral) versus 3-wall (medial, lateral, and inferior) orbital decompression in patients with dysthyroid optic neuropathy (DON).A total of 52 eyes of 37 patients underwent orbital decompression for DON between 2013 and 2019 were retrospectively reviewed. Two- or 3-wall decompression was performed in 31 eyes of 23 patients and 21 eyes of 14 patients, respectively. We examined best-corrected visual acuity (BCVA), visual field mean deviation (MD) and pattern standard deviation (PSD), pattern-reversed visual evoked potential (PVEP) for P100 latency and amplitude at 60 and 15 arcmin stimulation checkerboard size, as well as proptosis using Hertel exophthalmometry.Whether 2-wall or 3-wall decompression, all parameters of visual function were improved after surgery (all P < .05). The improvement in BCVA, MD, and PSD was not statistically significant between groups (all P > .05). Proptosis reduction was higher after 3-wall decompression (P = .011). Mean increase in P100 amplitude after 3-wall decompression was statistically higher than that of after 2-wall decompression at 60 and 15 arcmin (P = .045 and .020, respectively), while the mean decrease in P100 latency was similar between the groups (P = .821 and .655, respectively). Six patients (66.67%) had persistent postoperative diplopia and 1 patient (20%) had new-onset diplopia in 3-wall decompression group, which were higher than in 2-wall decompression group (46.15% persistent postoperative diplopia and no new-onset diplopia).Both 2-wall and 3-wall decompression can effectively improve visual function of patients with DON. Three-wall decompression provides better improvement in P100 amplitude and proptosis, however new-onset diplopia is more common with this surgical technique.

Deep lateral orbital decompression for Graves orbitopathy: a systematic review

PURPOSE

To systematically review the literature on the deep lateral orbital decompression (DLD).

METHODS

The authors searched the MEDLINE, Lilac, Scopus, and EMBASE databases for all articles in English, Spanish, and French that used as keywords the terms orbital decompression and lateral wall. Two articles in German were also included. Data retrieved included the number of patients and orbits operated, types of the approach employed, exophthalmometric and horizontal eye position changes, and complications. The 95% confidence intervals (CI) of the mean Hertel changes induced by the surgery were calculated from series with 15 or more data.

RESULTS

Of the 204 publications initially retrieved, 131 were included. Detailed surgical techniques were analyzed from 59 articles representing 4559 procedures of 2705 patients. In 45.8% of the reports, the orbits were decompressed ab-interno. Ab-externo and rim-off techniques were used in 25.4% and 28.8% of the orbits, respectively. Mean and 95% CI intervals of Hertel changes, pooled from 15 articles, indicate that the effect of the surgery is not related to the technique and ranges from 2.5 to 4.5 mm. The rate of new onset of diplopia varied from zero to 8.6%. Several complications have been reported including dry eye, oscillopsia, temporal howling, lateral rectus damage, and bleeding. Unilateral amaurosis and subdural hematoma have been described in only one patients each.

CONCLUSIONS

The low rate of new-onset diplopia is the main benefit of DLD. Prospective studies are needed to compare the rate of complications induced by the 3 main surgical techniques used.

Strategies in Surgical Decompression for Thyroid Eye Disease

Surgical management of thyroid eye disease- (TED-) associated morbidity has been plagued by the complex interplay of different operative techniques. Orbital decompression is the well-recognized procedure for disfiguring exophthalmos and dysthyroid optic neuropathy (DON). There are numerous published techniques described for the removal of the orbital bone, fat, or a combination. The diverse studies are noncomparative as they include different indications, stages of disease, and methods of evaluation. Thus, it is difficult to conclude the most efficient decompression technique. To obtain effective and predictable results, it is therefore important to propose a logical and acceptable clinical guideline to customize patient treatment. Herein, we developed an algorithm based on the presence of DON, preoperative existing diplopia, and severity of proptosis which were defined by patient's disabling symptoms together with a set of ocular signs reflecting visual function or cosmesis. More specifically, we aimed to assess the minimal but effective surgical technique with acceptable potential complications to achieve therapeutic efficacy. Transcaruncular or inferomedial decompressions are indicated in restoring optic nerve function in patients with DON associated with mild or moderate to severe proptosis, respectively. Inferomedial or fatty decompressions are effective to treat patients with existing diplopia associated with mild or moderate to severe proptosis, respectively. Fatty or balanced decompressions can improve disfiguring exophthalmos in patients without existing diplopia associated with mild to moderate or severe proptosis, respectively. Inferomedial or 3-wall decompressions are preferred to address facial rehabilitation in patients associated with very severe proptosis but without preoperative diplopia.

Endoscopic Orbital Decompression by Oculoplastic Surgeons for Proptosis in Thyroid Eye Disease

PURPOSE

Orbital decompression is an established surgical treatment option for a range of orbital conditions. Traditionally, Ear, Nose and Throat surgeons have adopted the endoscopic route while ophthalmologists operate via an external approach. The authors report the outcomes of endonasal decompression performed by oculoplastic surgeons experienced in endonasal techniques.

METHODS

This was a retrospective case series of patients who underwent endoscopic orbital decompression for proptosis secondary to thyroid eye disease across 2 hospital sites between January 2011 and July 2018. Inclusion criteria were patients who had endoscopic decompression for proptosis in inactive thyroid eye disease or active disease without dysthyroid optic neuropathy. Information collected includes patient demographics, diagnosis, surgical details, preoperative and postoperative clinical findings (including, visual acuity, color vision, exophthalmometry readings, palpebral aperture, intraocular pressure, ocular motility, diplopia, and visual field), complications, and further treatment.

RESULTS

There were 70 cases of endoscopic decompression. The majority of patients had endoscopic medial and posterior medial wall/floor decompression (44.3%; 31/70 cases). Visual acuity remained stable in 98.6% (69/70). There was an average reduction in proptosis of 3.5 ± 1.2 mm (standard deviation [SD]) in the endoscopic medial wall only group, 3.9 ± 0.9 mm (SD) in endoscopic medial wall and posterior medial portion of the floor group, and 7.6 ± 2.1 mm (SD) in the 3-wall decompression group. Motility improved in 11.4% (8/70) and worsened in 2.9% (2/70). There were no significant intraoperative or postoperative complications associated with endoscopic surgery.

CONCLUSIONS

Oculoplastic surgeons experienced in endonasal techniques can perform endoscopic orbital decompression with outcomes comparable to the literature.The authors report the outcomes of a series of endonasal orbital decompression carried out by oculoplastic surgeons.

Endoscopic orbital decompression for proptosis in non-thyroid eye disease

PURPOSE

Orbital decompression is an established surgical treatment option for a range of orbital conditions. We report the outcomes of endonasal decompression to recess the globe for conditions and pathologies other than thyroid eye disease.

METHODS

This was a retrospective case series of patients who underwent endoscopic orbital decompression for proptosis secondary to non-thyroid eye disease orbital pathologies. The procedures were carried out by oculoplastic surgeons across two hospital sites between January 2011 and July 2018. Information collected includes patient demographics, diagnosis, surgical details, pre- and postoperative clinical findings (including visual acuity, exophthalmometry readings, intraocular pressure, ocular motility and diplopia), complications and further treatment.

RESULTS

There were seven cases of endoscopic decompression, each due to a different pathology. The reasons for decompression were proptosis secondary to optic nerve sheath meningioma (1); sphenoid wing meningioma (1); idiopathic myositis (1); axial myopia (1); chronic third nerve palsy (1); to protuberant keratoprosthesis (1); and Crouzon syndrome with corneal exposure (1). Visual acuity remained stable or improved in all patients postoperatively. There was an average reduction in proptosis of 3.5 ± 1.4 mm (standard deviation - SD). Ocular motility remained stable in 100% (7/7). There were no intraoperative or postoperative complications, including no new cases of postoperative diplopia.

CONCLUSIONS

Endoscopic orbital decompression can be performed for patients with proptosis associated with a large globe, facial dysplasia or medial and infero-medial orbital lesions.

Outcomes of endoscopic orbital decompression for graves' ophthalmopathy

BACKGROUND/AIMS

We assess outcomes of endoscopic orbital decompression for Graves' ophthalmopathy.

METHODS

A review of endoscopic orbital decompressions of the medial and partial inferior wall between July 2004 and July 2017 was carried out. Outcome was assessed by comparing pre- and post-operative measurements of exophthalmometry and visual acuity. Results were evaluated by repeated measures analysis of variance.

RESULTS

A total of 41 orbits in 25 patients underwent endoscopic orbital decompression for Graves' ophthalmopathy in the time period; however, six orbits in three patients had insufficient data for inclusion. Eleven patients required concurrent septoplasty to allow access. Measurements were taken at a mean of 11 days, 32 days, and 95 days post-operatively. Reduction in mean proptosis was 2.81 mm at 1-month post-decompression and 3.26 mm at 3 months. There was no significant difference between those treated for compressive optic neuropathy compared with those treated for cosmetic reasons. Colour vision by Ishihara plate improved significantly by a mean score of 2.67 post-operatively. Using LogMAR conversion for visual acuity, measured by a best-corrected Snellen chart, improvement of 0.18 was achieved at 1-month post-decompression, equivalent to approximately two lines on the Snellen chart. There was minimal (0.04) further improvement at 3 months. The improvement in visual acuity was greater in cases treated for compressive optic neuropathy than cosmesis, but this did not reach statistical significance (p = 0.06). Three cases required revision surgery. Diplopia disimproved or developed in four cases and squint surgery was required in three cases.

CONCLUSIONS

Endoscopic orbital decompression offers an effective, safe and minimally invasive treatment for Graves' ophthalmopathy. There is a trend towards continued improvement in outcomes over the course of 3 months post-operatively.

Visual changes after transnasal endoscopic versus transcaruncular medial orbital wall decompression for dysthyroid optic neuropathy

OBJECTIVE

To compare postoperative changes in visual acuity between the transnasal endoscopic approach and the transcaruncular approach when comparison of preoperative values used for medial orbital wall decompression in patients with dysthyroid optic neuropathy.

METHODS

We included 14 patients (23 sides) and divided them into a transnasal group (11 sides, 8 patients) and a transcaruncular group (12 sides, 6 patients). Visual acuity was examined preoperatively, on postoperative days 1, 3, and 7, and at a final follow-up visit. The differences in postoperative improvement of the logarithm of the minimum angle of resolution (logMAR) visual acuity and critical flicker frequency (CFF) between the two surgical groups at each time point were analyzed using the Mann-Whitney U test.

RESULTS

Postoperative improvement in logMAR visual acuity on postoperative days 1 and 3 and that in CFF on postoperative day 1 were greater in the endonasal group than in the transcaruncular group (P < 0.050). Vision was improved or maintained in all patients in the transnasal group at the final follow-up. One patient in the transcaruncular group had loss of vision on one side and decreased vision on the other side after surgery.

CONCLUSION

Medial orbital decompression appears to provide better postoperative vision when performed by the transnasal approach than by the transcaruncular approach in patients with dysthyroid optic neuropathy.

Orbital decompression surgery for the treatment of Graves' ophthalmopathy: comparison of different techniques and long-term results

AIM

To evaluate the long-term results of different orbital decompression techniques performed in patients with Graves' ophthalmopathy (GO).

METHODS

Totally 170 cases with GO underwent orbital decompression between 1994 and 2014. Patients were divided into 4 groups as medial-inferior, medial-lateral (balanced), medial-lateral-inferior, and lateral only according to the applied surgical technique. Surgical indications, regression degrees on Hertel exophthalmometer, new-onset diplopia in the primary gaze and new-onset gaze-evoked diplopia after surgery and visual acuity in cases with dysthyroid optic neuropathy (DON) were compared between different surgical techniques.

RESULTS

The study included 248 eyes of 149 patients. The mean age for surgery was 42.3±13.2y. DON was the surgical indication in 36.6% of cases, and three-wall decompression was the most preferred technique in these cases. All types of surgery significantly decrease the Hertel values (P<0.005). Balanced medial-lateral, and only lateral wall decompression caused the lowest rate of postoperative new-onset diplopia in primary gaze. The improvement of visual acuity in patients with DON did not significantly differ between the groups (P=0.181).

CONCLUSION

The study show that orbital decompression surgery has safe and effective long term results for functional and cosmetic rehabilitation of GO. It significantly reduces Hertel measurements in disfiguring proptosis and improves visual functions especially in DON cases.

Abducens nerve palsy after orbital decompression

INTRODUCTION

Double vision after decompression surgery for Thyroid Eye Disease (TED) is well described in the literature and the incidence ranges from 0 to 64%. The Mechanisms for new onset diplopia after orbital decompression are poorly understood. Common theories include: Fibrosis of muscles, displacement of the muscle cone, and reactivation of the TED.

AIM

We present two cases with Abducens nerve palsy after uncomplicated secondary orbital decompression surgery.

RESULTS

Two patients with inactive TED, who were followed for an average of 2 years prior to uneventful secondary decompression surgery, presented at the first postoperative visit with double vision and limitation of abduction in the recently operated eye. Magnetic resonance imaging(MRI) was done in both cases and revealed no abnormal bleeding or scaring.

DISCUSSION

Our two cases of Abducens palsy following reoperative orbital decompression may be due to ischemic neuropathy caused by postoperative hemorrhage or inflammation.

Double Vision After Minimally Invasive Orbital Decompression

INTRODUCTION

New onset Diplopia following orbital decompression in thyroid eye disease patients is estimated to occur in up to 30% to 40% of decompression patients, mostly related to deep lateral and medial wall decompressions.

METHODS

A retrospective chart review of all minimally invasive (fat and minimal bone orbital decompression performed at the UCLA Stein Eye Institute between 2005 and 2015. Inclusion criteria were thyroid eye disease patients older than 18 years undergoing fat only orbital decompression with no previous muscle surgery.

RESULTS

The chart review revealed only 5 patients with new onset diplopia after this surgery. The cases are discussed and a possible mechanism for the diplopia is proposed.

DISCUSSION

Double vision following minimally invasive orbital decompression is rare and the mechanisms are poorly understood.

Surgical Anatomy of the Deep Lateral Orbital Wall

PURPOSE

To determine the exact anatomic location and volume of the thickest section of the greater wing of the sphenoid bone (trigone), which is removed during deep lateral orbital wall decompression.

METHODS

Eighteen dried skulls were used to determine the exact anatomic location and computed tomography (CT) images of 20 patients (10 male, 10 female) were used for volumetric calculations.

RESULTS

Mean values were 14.5 mm for the orbital rim to inferior orbital fissure distance, 23.3 mm for rim to trigone distance, 13.0 mm for width of the trigone base, 5.8 mm for trigone to orbital apex distance, and 12.3 mm for trigone height. The width of the narrowest section of the trigone was 5.2 mm. The trigone was found to have a lower segment (0.92 cc) neighboring the inferior orbital fissure, and an upper segment (0.32 cc) adjoining the thick substance of frontal bone. The narrowest part between these two segments was located just at the superior border of the lateral rectus muscle.

CONCLUSIONS

The authors recommend avoiding the thin rectangular portion located in the inter-fissural area adjacent to the superior orbital fissure. A high intersubject variability underscores the need for individualized preoperative analysis by imaging studies.

[Orbital decompression : Indications, technique, results]

Orbital decompression is an effective surgical procedure to reduce intraorbital pressure. Causes may diseases leading to rapid pressure increases, e. g., bleedings, and those causing slower, progressive pressure increases, e. g., tumors or Graves' orbitopathy. During fat tissue decompression, peri- and retrobulbar adipose tissue is removed; in bony decompression, one or more bony orbital walls are removed (one-, two-, or three-wall decompression). In many cases the procedures are combined. Recent developments are the transconjunctival approaches for removing parts of bony orbital walls. Complications include double vision, which occurs in up to 30% of cases depending on the approach, hemorrhage, infections, development of chronic sinusitis, and iatrogenic skull base lesions with consecutive meningitis. In the hands of an experienced rhino- and head and neck surgeon, the intervention has low complication rates.

Strabismus After Ocular Surgery

Many types of ocular surgery can cause diplopia, including eyelid, conjunctival, cataract, refractive, glaucoma, retinal, and orbital surgery. Mechanisms include direct injury to the extraocular muscles from surgery or anesthesia, scarring of the muscle complex and/or conjunctiva, alteration of the muscle pulley system, mass effects from implants, and muscle displacement. Diplopia can also result from a loss of fusion secondary to long-standing poor vision in one eye or from a decompensation of preexisting strabismus that was not recognized preoperatively. Treatment, which typically begins with prisms and is followed by surgery when necessary, can be challenging. In this review, the incidence, mechanisms, and treatments involved in diplopia after various ocular surgeries are discussed. [J Pediatr Ophthalmol Strabismus. 2017;54(5):272-281.].

Postoperative Changes in Strabismus, Ductions, Exophthalmometry, and Eyelid Retraction After Orbital Decompression for Thyroid Orbitopathy

INTRODUCTION

Surgical rehabilitation of thyroid orbitopathy involves reducing proptosis, treating strabismus, lengthening the eyelids, and managing aesthetic changes. Not all are necessary in each patient; however, they often are. The current investigation intends to describe postdecompression changes that may influence the staging of these procedures.

METHODS

In this retrospective cohort study, records of 169 patients who underwent orbital decompression between 1983 and 2001 were reviewed. A single orbital specialist confirmed all measurements. Time to follow up was defined as the most recent follow up after decompression and prior to any secondary procedures. No strabismus or eyelid surgery was performed at the time of decompression. Strabismus was measured with alternating prism cover test. Ductions were estimated utilizing Hirschberg's method. Exophthalmometry was measured with Hertel. Eyelid positions were defined relative to the pupillary light reflex. Strabismus data were analyzed within eye pairs. Ductions, exophthalmometry and eyelid position were analyzed for each eye. T-test for paired data was utilized to compare means pre- and postoperatively.

RESULTS

The study population was on average 45 years old and 73.4% women. Average length of follow up was 1.2 years. Esotropia was significantly increased after decompression by an average of 8.1 prism diopters (p < 0.01). Exotropia and vertical deviations were not significantly altered. Ductions decreased by >5 degrees in at least one meridian for 68.1% of the population. Upper eyelid retraction remained unchanged; however, lower eyelid retraction improved by 50% from 1.4 mm to 0.7 mm (p < 0.01). Exophthalmometry improved from 23.5 mm to 19.7 mm (p < 0.01), and this result was correlated with the number of walls removed (Pearson r = -0.302, p < 0.01).

CONCLUSIONS

On average, esotropia and ductions tend to worsen with decompression surgery. This result supports the clinical dictum to avoid strabismus surgery until after decompression. The improvement in lower eyelid retraction suggests that at least lower eyelid-lengthening surgery should be reserved for after decompression, as there may be significant spontaneous improvement, while the same may not be true for upper eyelid retraction, which does not tend to change with decompression.

Long-term outcomes of orbital fat decompression in Graves’ orbitopathy

Purpose

To evaluate the long-term clinical efficacy of orbital fat decompression in treating proptosis in Graves' ophthalmopathy (GO).

Methods

Retrospective review of 1604 eyes of 845 patients with symmetric (1518 eyes) and asymmetric (86 eyes) proptosis who received orbital fat decompression between 2003 and 2014. Changes in Hertel values were evaluated at baseline, 6 months postoperatively and yearly thereafter. Recurrence of proptosis, diplopia and other complications that required additional surgeries were documented and analysed. The surgical outcome was defined as complete success if there was proptosis reduction with no recurrence and improved or no diplopia. Partial success was considered if there was proptosis reduction without recurrence yet persistent or new-onset diplopia. Failure was considered if there was recurrence of proptosis regardless of diplopia. The patient’s quality of life was also evaluated as a long-term outcome.

Results

After follow-up for 37.9±24.4 months, 1365 eyes (85.1%) achieved complete success, 219 eyes (13.7%) achieved partial success and 20 eyes (1.2%) had failure. Newly onset diplopia and secondary decompression occurrence rate remained low at 3.3% and 0.6%, respectively. The total proptosis reduction was 4.1±1.3 mm, which was consistent all through the intermediate and long-term (5–10 years) follow-up. The amount of orbital fat removal (4.5±1.1 mL) played a significant role in the long-term Hertel change. Importantly, the overall quality of life increased significantly for GO patients after undergoing orbital fat decompression.

Conclusions

Orbital fat decompression has a long-term efficacy in correcting disfiguring proptosis with a low complication rate and without the need of secondary decompression procedures. This was also associated with a significant improvement in quality of life.

Orbital decompression for thyroid eye disease

The literature regarding orbital decompression for thyroid eye disease is vast, spanning multiple specialty areas including neurosurgery, head and neck, maxillofacial, and ophthalmic plastic surgery. Although techniques have advanced considerably over the more than 100 years during which this procedure has been performed, the 4 major approaches remain: transorbital, transcranial, transantral, and transnasal. The explosion in literature related to orbital decompression has mostly involved minor technical variations on broader surgical themes. The purpose of this review is to organize the major approaches in terms of bony anatomy and to contextualize variation in transdisciplinary techniques within a common conceptualization.

Orbital Decompression for Thyroid Eye Disease

Although most cases of thyroid eye disease (TED) can be managed medically, some refractory or severe cases are treated surgically with orbital decompression. Due to a lack of randomized controlled trials comparing surgical techniques for orbital decompression, none have been deemed superior. Thus, each case of TED is managed based on patient characteristics and surgeon experience. Surgical considerations include the extent of bony wall removal, the surgical approach, the choice of incision, and the use of fat decompression. Outcomes vary based on surgical indications and techniques; hence, vision can improve or worsen after the surgery.

Association of orbital decompression and the characteristics of subsequent strabismus surgery in thyroid eye disease

OBJECTIVE

To examine the association of orbital decompression and the characteristics and outcome of subsequent strabismus surgery in patients with thyroid eye disease (TED).

METHODS

Data on patients with TED who underwent orbital decompression at the Goldschleger Eye Institute, Sheba Medical Center, Israel, between January 1990 to December 2011 were extracted. The characteristics of decompression and strabismus surgeries were recorded. The outcomes and association of both surgical procedures were analyzed. Statistical analysis included distribution, Pearson correlation, and matched paired tests.

RESULTS

145 eyes underwent orbital decompression, of which 45 eyes (31.0%) underwent strabismus surgery. Esotropia developed in 70% of the patients. Men and smokers underwent strabismus surgeries after decompression procedures more frequently than women and nonsmokers (χ² test, p = 0.07, 0.002). Moreover, patients who complained of diplopia before the decompression surgery underwent strabismus surgery more frequently (χ² test, p = 0.005). Seventy-seven percent of the patients who underwent medial wall decompression developed esotropia (χ² test, p = 0.004).

CONCLUSIONS

To the best of our knowledge, this is the largest series in the literature examining the association between decompression and strabismus surgeries. The patients' characteristics and the orbital walls involved in the decompression procedures are associated with the characteristics of subsequent strabismus that develops thereafter. These findings may have significant implications in planning TED management.

Minimally invasive surgery for thyroid eye disease

Thyroid eye disease (TED) can affect the eye in myriad ways: proptosis, strabismus, eyelid retraction, optic neuropathy, soft tissue changes around the eye and an unstable ocular surface. TED consists of two phases: active, and inactive. The active phase of TED is limited to a period of 12–18 months and is mainly managed medically with immunosuppression. The residual structural changes due to the resultant fibrosis are usually addressed with surgery, the mainstay of which is orbital decompression. These surgeries are performed during the inactive phase. The surgical rehabilitation of TED has evolved over the years: not only the surgical techniques, but also the concepts, and the surgical tools available. The indications for decompression surgery have also expanded in the recent past. This article discusses the technological and conceptual advances of minimally invasive surgery for TED that decrease complications and speed up recovery. Current surgical techniques offer predictable, consistent results with better esthetics.

[Potentials of intraoperative navigation during balanced orbital bony decompression in thyroid eye disease (preliminary results)]

Precise instrument localization is of great importance in orbital decompression surgery. Different navigation systems were designed to fulfill this task and gained wide acceptance.

AIM

to describe principal features and determine advantages of intraoperatively navigated orbital bony decompression.

MATERIAL AND METHODS

Data on orbital decompression surgery performed with or without intraoperative image guidance is presented. Each time two surgeons were involved - an ophthalmologist (lateral wall decompression) and otolaryngologist (medial wall decompression).

RESULTS

In lateral wall decompression, electromagnetic navigation was mostly used to enlarge the created bone window upward and backward, which is particularly challenging in case of bone thinning in the posterior part of its inner rim. In transethmoidal decompression, the image guidance allowed a more extensive removing of the greater sphenoid wing as well as the posterior medial wall where it joins the lateral wall of the sphenoid sinus. As shown by MSCT, lateral rectus muscle dislocation into the created bone window was more significant in navigated procedures.

CONCLUSION

This preliminary data convincingly shows advantages and potentials of the use of electromagnetic navigation in orbital decompression surgery, especially, for optic neuropathy in thyroid eye disease patients.

Combined Endoscopic Medial and External Lateral Orbital Decompression for Progressive Thyroid Eye Disease

OBJECTIVE: To compare the efficacy of endoscopic medial and lateral orbital wall surgery to 3-wall decompression in patients with thyroid eye disease.

STUDY DESIGN AND SETTING: A retrospective study of patients with thyroid eye disease with severe proptosis, exposure keratitis, or compressive optic neuropathy was conducted.

RESULTS: Mean reduction in proptosis was 4.37 mm in the 2-wall approach and 4.59 mm in the 3-wall group. Seventy-five percent of patients in the 2-wall group demonstrated improved visual acuity; 50% improved after 3-wall decompression. Vertical palpebral fissure height decreased by an average of 2.50 mm in the 2-wall group and by 2.03 mm in the 3-wall group. New onset diplopia was 11.8% and 12.5%, respectively.

CONCLUSIONS: Improvement in the degree of proptosis, visual acuity, and palpebral fissure height was seen in the majority of our patients and compared favorably to our results with 3-wall orbital decompression.

EBM rating: C-4

Surgical Outcomes of Balanced Deep Lateral and Medial Orbital Wall Decompression in Korean Population: Clinical and Computed Tomography-based Analysis

Purpose

To evaluate the clinical outcomes of balanced deep lateral and medial orbital wall decompression and to estimate surgical effects using computed tomography (CT) images in Korean patients with thyroid-associated ophthalmopathy (TAO).

Methods

Retrospective chart review was conducted in TAO patients with exophthalmos who underwent balanced deep lateral and medial orbital wall decompression. Exophthalmos was measured preoperatively and postoperatively at 1 and 3 months. Postoperative complications were evaluated in all study periods. In addition, decompressed bone volume was estimated using CT images. Thereafter, decompression volume in each decompressed orbital wall was analyzed to evaluate the surgical effect and predictability.

Results

Twenty-four patients (48 orbits) with an average age of 34.08 ± 7.03 years were evaluated. The mean preoperative and postoperative exophthalmos at 1 and 3 months was 18.91 ± 1.43, 15.10 ± 1.53, and 14.91 ± 1.49 mm, respectively. Bony decompression volume was 0.80 ± 0.29 cm³ at the medial wall and 0.68 ± 0.23 cm³ at the deep lateral wall. Postoperative complications included strabismus (one patient, 2.08%), upper eyelid fold change (four patients, 8.33%), and dysesthesia (four patients, 8.33%). Postsurgical exophthalmos reduction was more highly correlated with the deep lateral wall than the medial wall.

Conclusions

In TAO patients with exophthalmos, balanced deep lateral and medial orbital wall decompression is a good surgical method with a low-risk of complications. In addition, deep lateral wall decompression has higher surgical predictability than medial wall decompression, as seen with CT analysis.

Customized Orbital Decompression Surgery Combined with Eyelid Surgery or Strabismus Surgery in Mild to Moderate Thyroid-associated Ophthalmopathy

Purpose

To evaluate the efficacy and safety of customized orbital decompression surgery combined with eyelid surgery or strabismus surgery for mild to moderate thyroid-associated ophthalmopathy (TAO).

Methods

Twenty-seven consecutive subjects who were treated surgically for proptosis with disfigurement or diplopia after medical therapy from September 2009 to July 2012 were included in the analysis. Customized orbital decompression surgery with correction of eyelid retraction and extraocular movement disorders was simultaneously performed. The patients had a minimum preoperative period of 3 months of stable range of ocular motility and eyelid position. All patients had inactive TAO and were euthyroid at the time of operation. Preoperative and postoperative examinations, including vision, margin reflex distance, Hertel exophthalmometry, ocular motility, visual fields, Goldmann perimetry, and subject assessment of the procedure, were performed in all patients. Data were analyzed using paired t-test (PASW Statistics ver. 18.0).

Results

Forty-nine decompressions were performed on 27 subjects (16 females, 11 males; mean age, 36.6 ± 11.6 years). Twenty-two patients underwent bilateral operations; five required only unilateral orbital decompression. An average proptosis of 15.6 ± 2.2 mm (p = 0.00) was achieved, with a mean preoperative Hertel measurement of 17.6 ± 2.2 mm. Ocular motility was corrected through recession of the extraocular muscle in three cases, and no new-onset diplopia or aggravated diplopia was noted. The binocular single vision field increased in all patients. Eyelid retraction correction surgery was simultaneously performed in the same surgical session in 10 of 49 cases, and strabismus and eyelid retraction surgery were performed in the same surgical session in two cases. Margin reflex distance decreased from a preoperative average of 4.3 ± 0.8 to 3.8 ± 0.5 mm postoperatively.

Conclusions

The customized orbital decompression procedure decreased proptosis and improved diplopia, in a range comparable to those achieved through more stepwise techniques, and had favorable cosmetic results when combined with eyelid surgery or strabismus surgery for mild to moderate TAO.

Clinical and surgical implications regarding morphometric variations of the medial wall of the orbit in relation to age and gender

The ethmoidal foramens are located on the medial wall of the orbit and are key reference points for intraoperative orientation. Detailed knowledge of the anatomy, bony landmarks and morphometric characteristics of the medial wall of the orbit is essential for various surgical procedures. The aim of this study was to determine the morphometric variations in the medial wall of the orbit and establish significant variations regarding age and gender. A total of 110 orbits were analyzed and subdivided by age (over or under 40 years) and gender. The distances of the medial wall of the orbit between the anterior lacrimal crest, the ethmoidal foramen, the optic canal and the interforamina were determined. Safe surgical areas were sought. Statistical tests were used to determine the differences between groups. In men, there is a safe surgical area proximal to the anterior and posterior ethmoidal foramen. In women, this area is in the posterior third of the medial wall of the orbit between the posterior ethmoidal foramen and the optic canal. Regarding variation according to age, the results of this study suggested that the anteroposterior diameter of the medial wall increases with age. This study showed that the anteroposterior total length of the medial orbit wall is similar between genders of similar age, increases with age, and has significant variations in the distances between the various structures that make up the medial orbit wall with regard to gender and age.

Critical Appraisal on Orbital Decompression for Thyroid Eye Disease: A Systematic Review and Literature Search

INTRODUCTION

Orbital decompression is the indicated procedure for addressing exophthalmos and compressive optic neuropathy in thyroid eye disease. There are an abundance of techniques for removal of orbital bone, fat, or a combination published in the scientific literature. The relative efficacy and complications of these interventions in relation to the specific indications remain as yet undocumented. We performed a systematic review of the current published evidence for the effectiveness of orbital decompression, possible complications, and impact on quality of life.

METHODS

We searched the current databases for medical literature and controlled trials, oculoplastic textbooks, and conference proceedings to identify relevant data up to February 2015. We included randomized controlled trials (RCTs) comparing two or more interventions for orbital decompression.

RESULTS

We identified only two eligible RCTs for inclusion in the review. As a result of the significant variability between studies on decompression, i.e., methodology and outcome measures, we did not perform a meta-analysis. One study suggests that the transantral approach and endonasal technique had similar effects in reducing exophthalmos but the latter is safer. The second study provides evidence that intravenous steroids may be superior to primary surgical decompression in the management of compressive optic neuropathy requiring less secondary surgical procedures.

CONCLUSION

Most of the published literature on orbital decompression consists of retrospective, uncontrolled trials. There is evidence from those studies that removal of the medial and lateral wall (balanced) and the deep lateral wall decompression, with or without fat removal, may be the most effective surgical methods with only few complications. There is a clear unmet need for controlled trials evaluating the different techniques for orbital decompression. Ideally, future studies should address the effectiveness, possible complications, quality of life, and cost of each intervention.

Surgical Treatment of Dysthyroid Optic Neuropathy: Long-Term Visual Outcomes with Comparison of 2-Wall versus 3-Wall Orbital Decompression

PURPOSE

To compare the long-term visual outcomes after 2-wall (medial-lateral) versus 3-wall (medial-lateral-inferior) orbital decompression combined with fat removal in patients with dysthyroid optic neuropathy (DON).

METHODS

Records of 68 eyes of 42 patients were retrospectively reviewed. Two-and 3-wall decompression was performed in 41 and 27 eyes, respectively. Transcaruncular approach was used for medial wall decompression. Lateral canthotomy combined with upper eyelid crease incision was used for lateral wall removal, and combined with transconjunctival lower eyelid incision if floor decompression performed. Outcome measures were visual acuity (VA), color vision, Hertel measures, visual field mean deviation (MD) and pattern standard deviation (PSD) Result: The mean follow-up time was 39.3 months (range, 12-72 months). All indicators of visual function significantly improved after 2-and 3-wall decompression. The improvement in VA and color vision was similar between groups. (logMAR VA: 2-wall: 0.52 ± 0.68 versus 3-wall: 0.71 ± 0.86, p = 0.335); (color vision on Ishihara plates: 2-wall: 10.1 ± 8.1 versus 3-wall: 11.6 ± 7.8, p = 0.447). The improvement in MD and PSD were higher after 3-wall decompression (MD: 2-wall: 10.0 ± 5.5 versus 3-wall: 14.3 ± 7.5 dB, p = 0.020); (PSD: 2-wall: 3.5 ± 1.9 versus 3-wall: 4.8 ± 3.0 dB, p = 0.045). Proptosis reduction was higher after 3-wall decompression (2-wall: 5.1 ± 1.3 versus 3-wall: 7.2 ± 1.9 mm, p = 0.0001). New onset diplopia was seen 20% and 28.5% of cases in 2-and 3-wall decompression, respectively. No adnexal/orbital complications were seen in 2-wall group, however orbital hematoma (1 case) and persisting eyelid edema (1 case) were encountered in 3-wall group.

CONCLUSION

Both 2-and 3-wall orbital decompressions are safe and effective for management of visual dysfunction in DON. Although 3-wall decompression provide better improvement in the parameters of visual field analysis and Hertel measures, new onset diplopia, adnexal/orbital complications are more common with this technique.

Characterization and outcomes of repeat orbital decompression for thyroid-associated orbitopathy

Orbital decompression for thyroid-associated orbitopathy (TAO) is commonly performed for disfiguring proptosis, congestion, and optic neuropathy. Although one decompression typically achieves goals, a small percentage requires repeat decompression. We performed a 10-year retrospective chart review of all orbital decompressions for TAO at a single tertiary referral institution. Four-hundred and ninety-five orbits (330 patients) were decompressed for TAO, with 45 orbits (37 patients) requiring repeat decompression. We reviewed the repeat cases for indications, clinical activity scores, approach, walls decompressed, and outcomes. Nine percent of orbits required repeat decompression for proptosis (70%), optic neuropathy (25%) or congestion (45%). Sixty-four percent were for recurrence of disease, 36% were for suboptimal decompression. Three incisional approaches were used: lateral upper eyelid crease, inferior transconjunctival, and transcaruncular, with inferior transconjunctival being most common. Of the three walls removed, deep lateral, inferior, and medial, the deep lateral wall was most common (51%). A repeat lateral decompression was the most frequent pattern. Of 37 patients requiring repeat decompression, 40% had diplopia prior to repeat, and an additional 24% developed diplopia after the repeat. Whereas previous studies published by our group cited only 2.6% of deep lateral wall orbital decompressions leading to new-onset primary gaze diplopia, repeat orbital decompressions have a much higher rate of post-operative diplopia. The new onset primary gaze diplopia after repeat decompression group had a higher average preoperative CAS (3.3 vs. 2.4, p < 0.01), higher mean blood loss (56 vs. 19 mL, p = 0.04), more frequent medial wall decompressions (47% vs. 29%, p = 0.33), and greater proptosis reduction (2.4 vs. 1.7 mm, p = 0.24).

Results after En Bloc Lateral Wall Decompression Surgery with Orbital Fat Resection in 111 Patients with Graves' Orbitopathy

Purpose. To evaluate the effect of en bloc lateral wall decompression with additional orbital fat resection in terms of exophthalmos reduction and complications. Methods. A retrospective, noncomparative case series study from 1999 to 2011 (chart review) in Graves' orbitopathy (GO) patients. The standardized surgical technique involved removal of the lateral orbital wall including the orbital rim via a lid crease approach combined with additional orbital fat resection. Exophthalmos, diplopia, retrobulbar pressure sensation, and complications were analyzed pre- and postoperatively. Results. A total of 111 patients (164 orbits) with follow-up >3 months were analysed. Mean exophthalmos reduction was 3.05mm and preoperative orbital pressure sensation resolved or improved in all patients. Visual acuity improved significantly in patients undergoing surgery for rehabilitative or vision threatening purposes. Preoperative diplopia improved in 10 patients (9.0%) but worsened in 5 patients (4.5%), necessitating surgical correction in 3 patients. There were no significant complications; however, one patient had slight hollowing of the temporalis muscle around the scar that did not necessitate revision, and another patient with a circumscribed retraction of the scar itself underwent surgical correction. Conclusions. The study confirms the efficiency of en bloc lateral wall decompression in GO in a large series of patients, highlighting the low risk of disturbance of binocular functions and of cosmetic blemish in the temporal midface region.

Treatment modalities of thyroid related orbitopathy

Aims:

The aim was to highlight recent advances in the treatment of thyroid eye disease.

Settings and Design:

Review article.

Materials and Methods:

Existing literature and the authors’ experience was reviewed.

Results:

Thyroid ophthalmopathy is a disfiguring and vision-threatening complication of autoimmune thyroid disease that may develop or persist even in the setting of well-controlled systemic thyroid status. Treatment response can be difficult to predict, and optimized algorithms for disease management do not exist. Thyroid ophthalmopathy should be graded for both severity and disease activity before choosing a treatment modality for each patient. The severity of the disease may not correlate directly with the activity; medical treatment is most effective in active disease, and surgery is usually reserved for quiescent disease with persistent proptosis and/or eyelid changes.

Conclusions:

Intravenous pulsed corticosteroids, orbital radiotherapy, and orbital surgical techniques form the mainstay of current management of thyroid ophthalmopathy. Immunosuppressive and biologic agents may have a role in treating active disease although additional safety and efficacy studies are needed.

Horizontal eye position in thyroid eye disease: a retrospective comparison with normal individuals and changes after orbital decompression surgery

Objective

To compare horizontal eye positions between proptotic thyroid eye disease patients and normal individuals, and to examine positional changes after orbital decompression surgery in thyroid eye disease patients.

Methods

The present case-controlled and retrospective comparative study included 78 proptotic thyroid eye disease patients who underwent bilateral orbital decompression surgery [lateral orbital wall decompression (Group L), 47 patients; medial orbital wall decompression (Group M), 9 patients; and balanced orbital decompression (Group B), 22 patients] and 143 age-matched healthy volunteers as controls. The interpupillary distance was measured to determine horizontal eye positions before and 3 months after surgery in thyroid eye disease patients and was also examined in control eyes. Horizontal eye shifts were calculated by subtracting postoperative from preoperative interpupillary distances.

Results

Preoperative interpupillary distances in thyroid eye disease patients were significantly larger than in controls. The interpupillary distances were significantly decreased postoperatively in Groups M and B, but were significantly increased in Group L. The order of the magnitude of the horizontal shifts was Groups M>B>L.

Conclusions

Proptotic thyroid eye disease patients preoperatively showed laterally displaced eyes in comparison with controls. However, the eyes shifted medially after the medial orbital wall decompression and the balanced orbital decompression, although the former showed more shift. Medial orbital wall or balanced orbital decompression can be used to correct both lateral and anterior displacement of the eyes.

Inferolateral marginal orbitectomy: a simple adjuvant technique for orbital decompression

The number of patients with mild exophthalmos, without severe eye symptoms, who wish to undergo aesthetic orbital decompression, is increasing. Removal of the lateral and inferior orbital walls is a common procedure for mild to moderate exophthalmos. However, the limited space between the globe and the orbital wall is often troublesome for surgeons introducing surgical devices. As a result, the decompression tends to be insufficient in the posterior region of the orbit. We describe a simple adjuvant surgical technique to address this limitation. Through a laterally extended, transconjunctival approach, the inferior and lateral margins of the orbit are removed in a crescent shape before the actual decompression. This manoeuvre widens the working space and offers better visibility, enabling sufficient removal of the orbital walls. The technique presented facilitates the approach to the posterior regions of the orbit, enabling surgeons to more easily perform orbital decompression.

Navigational area of the cranio-orbital foramen and its significance in orbital surgery

The cranio-orbital foramen (COF) is located on the lateral wall of the orbit. It is a potential source of hemorrhage during deep lateral orbital dissection, since it functions as an anastomosis between the lacrimal artery and the middle meningeal artery. The aim of this study was to guide and facilitate the surgical procedures in the orbit, so as to determine a navigational area and the precise location of the COF and to standardize certain anatomical marks. The navigational area of the COF and topographical features were studied in 75 craniums with presented COF. 33 bilateral main COFs, 41 (18 on the right, 23 on the left) unilateral main COFs at the main cranium and 19 accessory COFs were studied for their navigational features on the orbit. The distances between the COF and the fronto-zygomatic suture, supraorbital notch, lateral angle of the superior orbital fissure (SOF) and Whitnall's tubercle were measured. The mean distance of the COF from the fronto-zygomatic suture, supraorbital notch, lateral angle of the SOF and Whitnall's tubercle was 26.3, 37.3, 92 and 27.1 mm, respectively. For the navigational area signs of the COF, areas of the orbit that form the transversal and vertical lines are generated on the reference points. Whilst the upper outer area of the orbit contains a potential bleeding risk, the bottom section of the outer column is identified as safe for the surgical operations of the lateral orbital wall. The fronto-zygomatic suture and Whitnall's tubercle are recommended as the most reliable navigational landmarks for identifying the COF. Hence, the transversal and vertical orientation of the COF should be mastered by the surgeons reconstructing the anterior base of the skull and the orbit.