1.Management of orbit fracture and correction of enophthalmos.
Chinese Journal of Stomatology 2008;43(11):658-661
Enophthalmos
;
surgery
;
Humans
;
Orbital Fractures
;
diagnosis
;
surgery
2.Two Portal Approach(Endoscopic Transnasal and Subciliary) in Medial Orbital Wall Fracture.
Hyun CHANG ; Eun Sang DHONG ; Chang Hoon WON ; Eul Sik YOON
Journal of the Korean Society of Plastic and Reconstructive Surgeons 2006;33(5):552-556
PURPOSE: As the use of computed tomographic scanning spread, the diagnosis of blow-out fractures of the medial orbital wall increased. Conventionally, the surgery of blow-out fractures in medial orbital wall was performed by various approaches with external incision or endoscopic approach. Although the field of orbital surgery has progressed significantly during the last decade, accurate realignment and replacement of component is difficult due to lack of visualization of the fracture site, blind dissection of the orbital wall, and difficulty in insertion of implant. In order to overcome these shortcomings, we explored the use of endoscopic transnasal approach together with subciliary approach. METHODS: The entrapped periorbital tissues in the ethmoid sinus were completely reduced endoscopically, and the bone defect of medial orbital wall was reconstructed with Medpor(R) insertion via subciliary approach. This technique was applied to 13 patients who had medial orbital wall fracture. RESULTS: The patients were followed-up for 3 to 24 months with an average of 9 months. The postoperative courses were satisfactory in all cases. CONCLUSION: The conjunction of endoscopic transnasal and subciliary approach technique seems to produce good results in medial orbital wall fracture.
Diagnosis
;
Ethmoid Sinus
;
Humans
;
Orbit*
;
Orbital Fractures
3.The Value of Computerized Tompgraphy in Diagnosis and Early Surgery of the Orbital Blow Out Fractuers.
Ji Yeong YI ; Hae Jung PAIK ; In Sook MIN
Journal of the Korean Ophthalmological Society 1995;36(11):1854-1863
We compared the diagnostic accuracy of the simple x-ray with that of the computed tomography, and analyzed the surgical results according to the timing of operation in 52 patients with suspected orbital blowout fractures who complained diplopia after midfacial trauma. Of all the cases, 40 orbital fractures were confirmed with CT and forced duction test and the remaining 12 patients were thought to have transient functional impairment because the clinical signs were resolved with time. CT detected all the 40 actual fractures, so the dignostic accuracy(100%) was higher than that of the simple x-ray(75%) which detected 30 fractures of the 40 actual fractures(p=0.001). We operated 19 patients who have persistent diplopia, enophthalmos of more than 2 mm, and large fracture defect, and there was significant improvement of symptoms and signs in patients on whom operations were performed within 2 weeks after trauma rather than after 2 weeks.
Diagnosis*
;
Diplopia
;
Enophthalmos
;
Humans
;
Orbit*
;
Orbital Fractures
4.CT Findings of Orbital Blow-out Fracture.
Jeong Yeol CHOI ; Jun Kyun PARK ; Woo Young LIM ; Kwang Suk RHO ; Yong Suk KO ; Young Chul KIM ; Jae Hee OH
Journal of the Korean Radiological Society 1998;38(2):229-232
PURPOSE: To evaluate the usefulness and radiologic findings of CT in the diagnosis of orbital blow-outfracture. MATERIALS AND METHODS: Forty-four patients with orbital blow-out fractures diagnosed by clinicalfindings and CT were evaluated retrospectively. On CT images, we evaluated the site and frequency of fracture,herniation of orbital fat, extraocular muscle abnormality, intraorbital hematoma, and intrasinus hemorrhage. RESULTS: Forty-eight sites of orbital wall fractures were seen. Of these, 25(52.1%) were observed at the medialwall and 18(37.5%) at the inferior wall. Combined fracture of the medial and inferior wall was seen in fivecases(10.4%), and orbital fat herniation to adjacent sinuses in 25. Associated extraocular muscle abnormalitieswere seen at the medial rectus (n=20) and inferior rectus muscle(n=18). Intrasinus hemorrhage was seen in 15cases, and intraorbital hematoma in five. CONCLUSION: CT is a useful diagnostic modality for the evaluation oforbital blow-out fracture and associated soft tissue abnormalities.
Diagnosis
;
Hematoma
;
Hemorrhage
;
Humans
;
Orbit*
;
Orbital Fractures*
;
Retrospective Studies
5.Lateral paracanthal transconjunctival incision for orbital fractures.
Eul Sik YOON ; Sang Whan KOO ; Seung Ha PARK ; Duck Sun AHN
Journal of the Korean Society of Plastic and Reconstructive Surgeons 1998;25(3):411-418
Orbital fracture represents one of the common lesions encountered today with our modern mechanized life. Reduction of these fracture is important in preventing the untoward complications that may ensue such as diplopia and enopththalmos. Although various types of incision have been employed to approach the orbital floor and infraorbital rim, subcilliary and transconjunctival approach are most commonly used. The subcilliary approach has been used for a number of years successfully although it does have shortcommings such as cutaneous scar and ectropion in many cases. The conventional transconjunctival approach provides limited exposure, so it can be used only with small fractures. In order to avoid above problems, it is preferable to use a paracanthal transconjunctival incision: however, it is combined with severance of the lower limb of the lateral canthal tendon approximately 2mm from the canthus. We have used this technique in fifty one cases with diagnosis varying from blow-out fracture to extensive facial fracture. We found that this approach provides good exposure and gives an excellent postoperative result with a concealed apparent cutaneous scarring and no scleral or corneal complications and visualization of the orbital floor and rim with minimal morbidity and insignificant cosmetic impact. In contrast to previously reported similar approaches, it is simple to use in traumatic and congenital lesions that go beyond the orbital floor.
Cicatrix
;
Diagnosis
;
Diplopia
;
Ectropion
;
Lower Extremity
;
Orbit*
;
Orbital Fractures*
;
Tendons
6.Considerations for the Management of Medial Orbital Wall Blowout Fracture.
Yong Ha KIM ; Youngsoo PARK ; Kyu Jin CHUNG
Archives of Plastic Surgery 2016;43(3):229-236
Recently, diagnoses of and operations for medial orbital blowout fracture have increased because of the development of imaging technology. In this article, the authors review the literature, and overview the accumulated knowledge about the orbital anatomy, fracture mechanisms, surgical approaches, reconstruction materials, and surgical methods. In terms of surgical approaches, transcaruncular, transcutaneous, and transnasal endoscopic approaches are discussed. Reconstruction methods including onlay covering, inlay implantation, and repositioning methods are also discussed. Consideration and understanding of these should lead to more optimal outcomes.
Diagnosis
;
Inlays
;
Orbit*
;
Orbital Fractures
;
Surgical Procedures, Operative
7.Correct realizing and treating orbital blowout fracture.
Chinese Journal of Stomatology 2011;46(8):467-469
8.A Case of Canine Tooth Syndrome due to Blow-out Fracture.
Hyung Goo KWON ; Mi Ra PARK ; Se Youp LEE ; Young Chun LEE
Journal of the Korean Ophthalmological Society 2004;45(11):1945-1949
PURPOSE: This is the first report of canine tooth syndrome associated with blow-out fracture in the Korean literature. METHODS: We examined a 13-year-old male patient complaining of intermittent ocular pain who had a past history of blow-out fracture in the left eye at the age of 6 years. He showed left hypertropia at the primary position and an inability to elevate the left eye in adduction. Orbital CT showed displacement of the superior portion of the ethmoid bone that comprises the medial aspect of the orbit wall and entrapment of the superior oblique muscle in association with the misaligning lesion. In conjunction with orbit CT findings and physical examination, we were able to make a diagnosis of Canine tooth syndrome. RESULTS: We anticipated surgical difficulty due to the surgical field having a lot of scar formation in situation 7 years after the trauma. In this case, we chose observation as our current treatment modality as this was not a case suitable for surgery.
Adolescent
;
Cicatrix
;
Cuspid*
;
Diagnosis
;
Ethmoid Bone
;
Humans
;
Male
;
Orbit
;
Orbital Fractures*
;
Physical Examination
;
Strabismus
9.Transnasal Edoscopic Reduction Of Medial Orbital Blowout Fracture.
Woo Cheol CHUNG ; Myung Ju LEE ; Yang Soo KANG ; Jeong Yeol YANG ; Han Jo NA ; Hong Cheol LIM
Journal of the Korean Society of Plastic and Reconstructive Surgeons 1999;26(6):1101-1106
As the use computed tomographic (CT) scanning spread, the diagnosis of blowout fractures of the medial orbital wall increased. Now, the diagnosis of blowout fracture in the medial wall are not uncommon. Conventionally, the surgery of blowout fractures in medial orbital wall was performed by the various approach with external incision. The conventional method had seveal possible disadvantages, including an external scar, incomplete reduction, increased mobidity rate and general anesthesia. Recently, endoscopic reconstruction of the medial orbital wall has provided good functional and cosmetic results. We performed endoscopic transnasal reduction surgery without external incision in 12 cases of medial blowout fracture under local anesthesia. The fractured bony fragments were removed after the intranasal ethmoidectomy and the entrapped medial rectus was released. And then a sheet of silicone late or uncinate process were placed on the fracture site. For the maintain of the position of fractured wall, Merocel packing or urinary ballon catheter were used in orbital fracture site for 1-3 weeks. There were no specific complications related to this procedure. Result of the surgery in all cases were satisfactory. In this article, we discussed the surgical procedure, the benifit of the transnasal endoscopic approach, the indications for surgery, and possible comlications.
Anesthesia, General
;
Anesthesia, Local
;
Catheters
;
Cicatrix
;
Diagnosis
;
Orbit*
;
Orbital Fractures
;
Silicones
10.Effectiveness of Computed Tomography for Blow-out Fracture.
Seung Hyun RHEE ; Tae Seup KIM ; Jae Min SONG ; Sang Hoon SHIN ; Jae Yeol LEE
Maxillofacial Plastic and Reconstructive Surgery 2014;36(6):273-279
PURPOSE: This study assessed the association between eye symptoms (enophthalmos or diplopia) and site of damage, volume, deviated inferior rectus muscle (IRM) and type of fracture with computed tomography (CT). The intent is to anticipate the prognosis of orbital trauma at initial diagnosis. METHODS: Forty-five patients were diagnosed with fractures of the inferior wall of one orbit. Fracture area, volume of displaced tissue, deviated IRM, and type of fracture were evaluated from coronal CT by one investigator. The association of those variables with the occurrence of eye symptoms (diplopia and enophthalmos) was assessed. RESULTS: Of 45 patients, 27 were symptom-free (Group A) and 18 had symptoms (Group B) of enophthalmos and/or diplopia. In Group B, 12 had diplopia, one was enophthalmos, and five had both. By CT measurement, group A mean area was 192.6 mm2 and the mean volume was 673.2 mm3. Group B area was 316.2 mm2 and volume was 1,710.6 mm3. The volume was more influential on symptom occurrence. Each patient was categorized into four grades depending on the location of IRM. Symptom occurrence and higher grade were associated. Twenty-six patients had trap-door fracture (one side, attached to the fracture), and 19 had punched-out fracture (both sides detached). The punched-out fracture was more strongly associated with symptoms and had statistically significantly higher area and volume. CONCLUSION: In orbital trauma, measurement of fracture area and volume, evaluation of the deviated IRM and classification of the fracture type by coronal CT can effectively predict prognosis and surgical indication.
Classification
;
Diagnosis
;
Diplopia
;
Enophthalmos
;
Humans
;
Orbit
;
Orbital Fractures*
;
Prognosis
;
Research Personnel