It is difficult to identify the exact cause of ocular motility disturbances in orbital wall fracture patients. By performing CT and ocular motility tests before and after surgery, this study analyzes the functions of the extraocular muscles and determines correlations between the results. Between February 2001 and January 2003, 45 eyes of 45 patients with orbital wall fractures, whose medical records could be traced back at least 6 months, underwent surgical repair in our hospital. All variables were analyzed using the independent t-test, paired t-test, and Chi-square test. There was no significant difference in the location and degree of fracture and the incarceration pattern of 6 patients who had moderate or severe diplopia, and of the remaining patients 6 months after surgery. However, in the case of diplopia, the sum of ocular motility limitation was 5.67 +/- 4.18, and the degree of extraocular motility disturbance was 3.67 +/- 2.42 before surgery. When there was no diplopia, the sum of ocular motility limitation was 1.13 +/- 1.38, and the degree of extraocular motility disturbance was 1.08 +/- 1.16 (p < 0.005, independent t-test). Ocular movement was successfully recovered by surgical reduction within 3 weeks from trauma. Postoperative ocular motility disturbance was more related to various ocular motility test results than CT findings. Ocular motility disturbances can remain after surgery if ocular motility limitation and extraocular motility disturbance are significant after trauma. Additional studies on the various tests to examine functions of extraocular muscles are required to identify and analyze the exact cause of ocular motility disturbance.
Adult ; Child ; Diagnostic Techniques, Ophthalmological ; Diplopia/*etiology/radiography ; Humans ; Middle Aged ; Ocular Motility Disorders/*etiology/radiography ; Orbital Fractures/*complications/radiography ; Tomography, X-Ray Computed

A 51-year old man presented with vertical and torsional diplopia after reduction of a blowout fracture at another hospital one year ago. He had no anormalies of head position and 14 prism diopters (PD) right hypertropia (RHT) in the primary position. In upgaze no vertical deviation was found, and hyperdeviation on downgaze was 35PD. Bielschowsky head tilt test showed a negative response. Distinct superior oblique (SO) and inferior rectus (IR) underaction of the right eye was noted but IO overaction was mild on the ocular version test. Double Maddox rod test (DMRT) revealed 10-degree extorsion, but fundus extorsion was minimal in the right eye.Thin-section coronal CT scan showed that there was no fracture line on the anterior orbital floor, but a fracture remained on the posterior orbital floor. Also, the anterior part of the right inferior oblique muscle was vertically reoriented and the medial portion of the inferior oblique muscle was not traced on the coronal CT scan. The patient underwent 14 mm right IO recession and 3 mm right IR resection. One month after the surgery, his vertical and torsional diplopia were eliminated in the primary position.
Constriction, Pathologic/complications/etiology/physiopathology/radiography ; Diplopia/etiology ; Humans ; Male ; Middle Aged ; Muscular Diseases/complications/etiology/*physiopathology/*radiography ; Oculomotor Muscles/*physiopathology/*radiography/surgery ; Orbital Fractures/*complications ; *Tomography, X-Ray Computed

We report four unusual cases of upper eyelid retraction following periorbital trauma. Four previously healthy patients were evaluated for unilateral upper eyelid retraction following periorbital trauma. A 31-year-old man (Case 1) and a 24-year-old man (Case 2) presented with left upper eyelid retraction which developed after blow-out fractures, a 44-year-old woman (Case 3) presented with left upper eyelid retraction secondary to a periorbital contusion that occurred one week prior, and a 56-year-old man (Case 4) presented with left upper eyelid retraction that developed 1 month after a lower canalicular laceration was sustained during a traffic accident. The authors performed a thyroid function test and orbital computed tomography (CT) in all cases. Thyroid function was normal in all patients, CT showed an adhesion of the superior rectus muscle and superior oblique muscle in the first case and diffuse thickening of the superior rectus muscle and levator complex in the third case. CT showed no specific findings in the second or fourth cases. Upper eyelid retraction due to superior complex adhesion can be considered one of the complications of periorbital trauma.
Accidents, Traffic ; Adult ; Eye Injuries/*complications/surgery ; Eyelid Diseases/*etiology/radiography ; Female ; Humans ; Lacerations/complications/surgery ; Lacrimal Apparatus/*injuries ; Male ; Middle Aged ; Oculomotor Muscles ; Orbital Fractures/*complications/surgery ; Tomography, X-Ray Computed

Simulated Brown syndrome is a term applied to a myriad of disorders that cause a Brown syndrome-like motility. We encountered a case of acquired simulated Brown syndrome in a 41-year-old man following surgical repair of fractures of both medial orbital walls. He suffered from diplopia in primary gaze, associated with hypotropia of the affected eye. We performed an ipsilateral recession of the left inferior rectus muscle as a single-stage intraoperative adjustment procedure under topical anesthesia, rather than the direct approach to the superior oblique tendon. Postoperatively, the patient was asymptomatic in all diagnostic gaze positions.
Adult ; Anesthesia, Local ; Diplopia/*etiology/surgery ; Eye Movements ; Humans ; Male ; Ocular Motility Disorders/*etiology/radiography/surgery ; Oculomotor Muscles/surgery ; Ophthalmologic Surgical Procedures ; Orbital Fractures/radiography/*surgery ; *Postoperative Complications ; Strabismus/etiology/surgery ; Tomography, X-Ray Computed ; Vision, Binocular

Child ; Edema ; diagnostic imaging ; etiology ; Emphysema ; diagnostic imaging ; etiology ; Ethmoid Bone ; diagnostic imaging ; injuries ; Eyelid Diseases ; diagnostic imaging ; etiology ; Humans ; Male ; Orbit ; diagnostic imaging ; Orbital Diseases ; diagnosis ; diagnostic imaging ; pathology ; Radiography ; Skull ; diagnostic imaging ; pathology ; Skull Fractures ; complications ; diagnostic imaging

OBJECTIVETo evaluate the application of digital surgical technology in reconstruction of orbital frame and assess the treatment outcomes.

METHODSSeven patients with post-traumatic orbital defect were included in this study. Images of the orbit were obtained for each individual through computed tomography (CT). Preoperative design was finished according to rapid prototyping, computer-aided design and computer-aided manufacturing (CAD-CAM) and other digital surgical techniques. Surgical fracture reductions with internal fixation and implant of Medpor were used in operation to reconstruct orbit as well as correct enophthalmos and diplopia.

RESULTSAccurate realignment of the displaced orbital rim was obtained in all the 7 patients, and enophthalmos and diplopia were corrected in 4 and 2 patients, respectively.

CONCLUSIONSDigital techniques provide a precise means for preoperative design and operation implementation during orbital reconstruction. As a result, complications can be reduced, and the patient's facial appearance can be maximally improved.

Adult ; Computer-Aided Design ; Diplopia ; etiology ; surgery ; Enophthalmos ; etiology ; surgery ; Female ; Fracture Fixation, Internal ; Humans ; Imaging, Three-Dimensional ; Male ; Middle Aged ; Orbit ; diagnostic imaging ; surgery ; Orbital Fractures ; complications ; diagnostic imaging ; surgery ; Radiography ; Reconstructive Surgical Procedures ; methods ; Surgery, Computer-Assisted ; Treatment Outcome ; Young Adult