1/23. Functional indications for enophthalmos repair.PURPOSE: In general, orbital augmentation to correct enophthalmos is pursued to prevent or address an aesthetic deformity. In some cases, however, functional deficits may accompany enophthalmos and may serve as an indication for surgical intervention. The authors describe a series of patients with such deficits. methods: A retrospective review at a tertiary health care center of all patients with enophthalmos was conducted to identify a subset of cases in which the enophthalmos was associated with nonaesthetic, functional deficits that could not be attributed to muscular or neural dysfunction, or soft tissue scarring. RESULTS: Six patients with either traumatic enophthalmos (orbital fractures) or non-traumatic enophthalmos (sinus disease and orbital soft tissue atrophy) demonstrated nonaesthetic ocular dysfunction, including gaze-evoked diplopia, eyelid retraction, lagophthalmos, and exposure keratitis. The symptoms and signs resolved in the three patients who underwent orbital augmentation. CONCLUSIONS: In some patients with enophthalmos and globe ptosis, globe malposition may alter the underlying eyelid mechanics or extraocular muscle alignment, resulting in functional as well as aesthetic problems. In these patients, restoring the native orbital anatomy through orbital augmentation can reverse eyelid malposition, ocular surface exposure, and symptomatic diplopia, avoiding the need for eyelid or strabismus surgery.- - - - - - - - - - ranking = 1keywords = fracture (Clic here for more details about this article) |
2/23. Missed orbital wall blow-out fracture as a cause of post-enucleation socket syndrome.BACKGROUND: Post-enucleation socket syndrome (PESS: deep upper lid sulcus, ptosis or upper lid retraction, enophthalmos and lower lid laxity) is a well-recognised complication of a volume-deficient anophthalmic socket. A patient requiring enucleation following severe ocular trauma may have an underlying orbital wall blow-out fracture which if overlooked can cause severe volume deficit with poor cosmesis and limited prosthesis motility. PURPOSE: To establish the prevalence of an undiagnosed blow-out fracture in patients with PESS and a history of relevant trauma. methods: medical records and orbital computed tomography (CT) scans were reviewed for all patients presenting with PESS and a history of relevant trauma. RESULTS: Undiagnosed blow-out fractures were found in 15 (33%) of 45 patients presenting between August 1993 and December 1996. These were significant enough to warrant surgical repair in 13 (29%) patients. CONCLUSIONS: We suggest that any patient presenting with PESS and a history of relevant trauma should be considered to have an orbital wall blow-out fracture until proven otherwise by CT scanning of the orbit. Similarly any patient requiring enucleation following severe ocular trauma should undergo CT scanning to rule out a coexisting blow-out fracture which could be repaired at the time of enucleation.- - - - - - - - - - ranking = 9keywords = fracture (Clic here for more details about this article) |
3/23. The use of the Naugle orbitometer in maxillofacial trauma.BACKGROUND AND OBJECTIVES: Objective measuring of globe position is not a universal practice in the management of orbital trauma. Few studies in the literature advocate its routine use. methods AND MATERIALS: The Hertel exophthalmometer is the most widely used instrument; however, in trauma involving the lateral orbital rim (e.g., in zygoma fractures), the results are inaccurate because the displacement of the zygomatic bone interferes with its reference point on the lateral orbital rim. A more recent measuring device, the Naugle orbitometer, was introduced in 1992. It uses the superior orbital rim (frontal bar) and inferior orbital rim (malar eminence) as reference points. RESULTS AND/OR CONCLUSIONS: This article reports experience with this instrument in objective measuring the position of the globe in orbital trauma. These measurements are used 1) to monitor fractures that may not require repair but should be followed and observed for dystopia or enophthalmos, 2) to determine the adequacy of fracture repair, and 3) to determine the volume adjustment required for correcting enophthalmos. Future studies will be directed to compare the accuracy of Naugle and Hertel exophthalmometers.- - - - - - - - - - ranking = 3keywords = fracture (Clic here for more details about this article) |
4/23. Endoscopic repair of posttraumatic enophthalmos using medial transconjunctival approach: a case report.A blowout fracture of the medial orbital wall should be suspected when periorbital trauma results in epistaxis, orbital hemorrhage, horizontal dysmotility or dystopia of the globe, and/or orbital emphysema. Large medial orbital wall blowout fractures are frequently complicated by posttraumatic enophthalmos. Clinicians should consider a medial transconjunctival approach for repair of these fractures when surgical repair is indicated by a comprehensive clinical and radiologic orbital evaluation. Excellent cosmetic and functional results can be achieved through the use of an extended transcaruncular incision, rigid endoscope, and high-density porous polyethylene implant placement. The technique can be used in the early, delayed, and late stages of medial orbital wall blowout fracture repair. The technique can be used alone in isolated medial orbital wall fractures or combined with other craniofacial approaches.- - - - - - - - - - ranking = 5keywords = fracture (Clic here for more details about this article) |
5/23. Orbital volumetric analysis: clinical application in orbitozygomatic complex injuries.Fifteen patients with unilateral orbitozygomatic complex fractures and five with bilateral injuries were analyzed with respect to the differences in orbital volume between the affected and the uninjured, or other, side. The study was conducted using the ALLEGRO Workstation and software package from ISG Technologies, which was capable of calculating volume partitions from either axial or coronal images. patients without postoperative enophthalmos demonstrated a maximum volume difference of 3.8%; those with enophthalmos demonstrated differences of 4% or greater. The Critical Volume Difference at which enophthalmos becomes clinically apparent (whereby the orbital-corneal distance measured by Hertel exophthalmometry is greater than 3 mm on the affected side) is in the range of 4% to 5%. Volume analysis of the orbits by manipulation of the computed tomography data may allow a better understanding of changes in orbital configuration, which can result in better-directed primary and secondary reconstructions.- - - - - - - - - - ranking = 1keywords = fracture (Clic here for more details about this article) |
6/23. Delayed enophthalmos following a minimally displaced orbital floor fracture.We describe a case of an orbital floor fracture resulting in obstruction of the maxillary sinus ostium by herniated orbital contents. Our patient had delayed enophthalmos in a manner similar to silent sinus syndrome or imploding antrum syndrome. Obstruction of the maxillary sinus ostium by orbital contents carries the potential for delayed-onset enophthalmos and therefore suggests an additional indication for orbital floor fracture repair.- - - - - - - - - - ranking = 6keywords = fracture (Clic here for more details about this article) |
7/23. Navigation-aided reconstruction of medial orbital wall and floor contour in cranio-maxillofacial reconstruction.The reconstruction of the anterio-posterior inclination of the medial aspect of the orbital floor, despite a wide 360 degrees exposure, including coronal and conjunctival incisions, is a challenging task in severe injuries of the orbit with massive comminution and complete displacement of the medial orbital wall and orbital floor. Out of a total of 20 patients with orbital fractures, five underwent a surgical intervention of repositioning the medial aspect of the orbital floor and especially the transition area between the orbital floor and medial orbital wall, using navigation-aided procedures. Using the mirroring tool of the Stryker-Leibinger STN-system, post-operative CTs indicated an average difference of the globe position of -4.9% between the operated side and the unaffected side, depending on the position of the medial aspect of the orbital floor. Navigation-aided procedures proved to be an essential precondition for achieving precise and predictable results in orbital reconstruction. In such cases, unlike those with an intact medial orbital wall remnant as a surgical target, bone grafts for reconstruction of the orbital floor cannot be implanted as onlay grafts.- - - - - - - - - - ranking = 1keywords = fracture (Clic here for more details about this article) |
8/23. Treatment of enophthalmos.This article has focused on the prevention and treatment of enophthalmos. It has stressed that enophthalmos is both a common complication of orbital fracture and a complication that can be difficult to treat. The cause of these failures of primary and secondary treatment is failure to recognize that orbital fractures have two distinct patterns and that neither is secondary to the anterior orbital floor defect. The zygoma fracture is the more common fracture and the most frequent cause of late enophthalmos. When this bone fractures, it does so at its sutural attachments. It is essential to reposition it at a minimum of three locations to achieve correction in three dimensions. The key to adequate reduction is not only to identify the frontozygomatic and zygomaticomaxillary suture at the infraorbital rim, but also to examine the zygomaticomaxillary suture in the region of the anterior maxillary buttress. Frequently, reduction at the first two sutural areas still leaves persistent lateral rotation of the zygoma and marked intraorbital volumetric expansion behind the axis of the globe. Complete reduction at three points will prevent late enophthalmos. Reosteotomy with repositioning of the zygoma and bone grafting to restore proper orbital volume can correct secondary enophthalmos once it develops. True blow-out fractures do occur, but the cause of the enophthalmos is most commonly the concomitant medial wall fracture and the occasional posterior expansion. The key to treatment is proper diagnosis, which is dependent upon CT scanning. Following definition of the exact fracture spots, restoration of intraorbital volume and sealing of the defects are satisfactory to avoid enophthalmos.(ABSTRACT TRUNCATED AT 250 WORDS)- - - - - - - - - - ranking = 8keywords = fracture (Clic here for more details about this article) |
9/23. Maxillary distraction resulting in facial advancement at Le Fort III level in cleft lip and palate patients: a report of two cases.An 18-year-old female and a 14-year-old male who had previously received surgery for primary repair of a nonsyndromic cleft lip and palate (including alveolar defect bone grafting) unintentionally developed facial advancement at the Le Fort III level after surgical correction of their maxillary hypoplasia. The Le Fort I osteotomy, originally performed for their maxillary dentoalveolar hypoplasia, was an incomplete osteotomy. It was performed without down-fracture, leaving the pterygomaxillary and septal junctions intact. The gradual advancement of the maxilla during distraction osteogenesis was planned to correct the hypoplastic maxilla, and also prevent subsequent hypernasality; however, during the distraction procedure by means of a rigid external device both patients developed an unintentional facial advancement at the Le Fort III level.- - - - - - - - - - ranking = 1keywords = fracture (Clic here for more details about this article) |
10/23. Endoscopic transmaxillary reduction and balloon technique for blowout fractures of the orbital floor.The indications for and timing of surgical treatment of blowout fractures of the orbital floor remain controversial. We report good results with the endoscopic transmaxillary reduction and balloon technique for blowout fractures of the orbital floor in the early stage after trauma in a consecutive series of 29 patients treated over the last 3 years, based on the following criteria: 1) diplopia observed by ophthalmological examination, 2) entrapment of intraorbital tissue at the fracture site on diagnostic imaging, mainly using CT scans, and 3) no improvement of diplopia during the acute phase (within one week of injury). Even in the presence of eyelid swelling, this method allows reduction and fixation of the fracture and impacted tissues simply and in a short time. Disappearance of diplopia was reported by 27 patients (93 %) within three months after surgery, and all 20 patients with enophthalmos were cured. There were only 4 cases with transient minor operative complications. Re-entrapment at the fracture site or relapse of symptoms was not seen during follow-up for 5 to 39 months (mean: 23.4 months). The combination of endoscopic transmaxillary reduction and the balloon technique for blowout fractures of the orbital floor is an effective and minimally invasive treatment with a high rate of improvement, not just for disturbances of ocular movement, but also for enophthalmos, which is often a problem in the long term.- - - - - - - - - - ranking = 10keywords = fracture (Clic here for more details about this article) |
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