1.Comparative study of STIR image with SE image in diagnosis of the orbital disease.
Soo Nami CHOI ; Ho Kyu LEE ; Dae Chul SUH
Journal of the Korean Radiological Society 1993;29(6):1140-1145
To evaluate the efficacy of STIR (short tau inversio recovery) image in the diagnosis of orbital diseases, we compared the STIR images with conventional SE(spin-echo) images in 17 patients. The fat signal was reliably nulled at inversion time of approximately 160-170 msec in all cases. We analyzed all the cases in the aspects of the detection of lesion and the lesion-to-back ground contrast retrospectively. Regarding lesion, the detection rates of STIR, T1 and T2-weighted images were 89, 88 and 83% respectively. In the aspect of lesion-to-background contrast, the contrast ratios of STIR and T1, T2-weighted image were 87% and 64, 56%, respectively. In conclusion, STIR images were similar to T1-and T2-weighted images in the detection of lesion, but superior in the aspect of lesion-to-background contrast. So the STIR images may be a useful adjunct to conventional SE images for the diagnosis of orbital disease.
Diagnosis*
;
Humans
;
Orbit*
;
Orbital Diseases*
;
Retrospective Studies
2.Ultrasonograms in the Ocular and Orbital Diseases.
Seung In BAK ; Song Hee LEE ; Byung Guk BAK
Journal of the Korean Ophthalmological Society 1979;20(1):73-81
Ultrasonograms were obtained from 27 cases of intraocular and 10 cases of orbital diseases with S.K.L containing a general transducer(A-mode), 1~3 MHz in its frequency and 15mm in its diameter. The authors summerized that these ultrasonograms would provide some benefits in supplementary clinical diagnosis, especially in confirming the presence of intraocular tumors, differential diagnosis of primary and secondary retinal detachment and deciding the location and surgical procedure preoperatively in the orbital tumors.
Diagnosis
;
Diagnosis, Differential
;
Orbit*
;
Orbital Diseases*
;
Retinal Detachment
;
Ultrasonography*
3.Density of Orbital Fat and Extraocular Muscle in Thyroid-Associated Myopathy and Idiopathic Orbital Myositis.
Hye Mi CHEONG ; Woo Jin JEONG ; Hee Bae AHN
Journal of the Korean Ophthalmological Society 2013;54(11):1641-1648
PURPOSE: To perform and compare differential diagnosis of patients with thyroid-associated myopathy, idiopathic orbital myositis and normal controls based on orbital computed tomography. Orbital fat and extraocular muscle densities were quantified using Hounsfield Unit (HU) and their characteristics were compared and analyzed. METHODS: From February 2005 to January 2013, orbital computed tomography was performed on 90 eyes of 47 thyroid-associated myopathy patients, 18 eyes of 14 idiopathic orbital myositis patients and 280 eyes of 140 normal subjects. The average values of orbital fat and extraocular muscle densities were measured and compared using HU. The density differences between the patients with thyroid-associated myopathy and the normal group were analyzed by age, clinical activity score, ocular protrusion and disease duration. RESULTS: In the thyroid-associated myopathy group, orbital fat and extraocular muscle densities were -87.8 +/- 12.5 HU and 48.7 +/- 7.1 HU, respectively. In the idiopathic orbital myositis group, the orbital fat and extraocular muscle densities were 79.9 +/- 9.9 HU and 49.2 +/- 9.1 HU, respectively. There was a statistically significant lower result of orbital fat in the thyroid-associated myopathy group (p = 0.002), however, the extraocular muscle density did not show a statistically significant difference (p = 0.775). The orbital fat and extraocular muscle densities of the normal group were -79.0 +/- 11.2 HU and 54.3 +/- 6.3 HU, respectively. There were significantly lower results in both orbital fat and extraocular muscle densities in the thyroid-associated myopathy group than normal group (p = 0.000). In active cases and those accompanied by ocular protrusion, there was no significant difference in orbital fat density (p = 0.345 and p = 0.952, respectively), while extraocular muscle density significantly decreased (p = 0.007 and p = 0.003, respectively). CONCLUSIONS: A difference between the orbital fat and extraocular muscle densities in thyroid-associated myopathy and idiopathic orbital myositis could be quantitatively found using HU and orbital computed tomography.
Diagnosis, Differential
;
Humans
;
Muscles*
;
Muscular Diseases*
;
Orbit*
;
Orbital Myositis*
4.The Clincal Experiences of the Orbital Pseudotumor.
Hyung Eun YANG ; Mi Sun KIM ; Hwan Jun CHOI ; Young Man LEE
Journal of the Korean Society of Plastic and Reconstructive Surgeons 2006;33(3):392-397
Orbital pseudotumor, also known as idiopathic orbital inflammatory syndrome(IOIS), may have protean clinical manifestations. IOIS should be determined with a diagnosis of exclusion, with evaluation directed toward eliminating other causes of orbital disease. Orbital MRI and CT are the important diagnostic tests, but serologic studies are necessary to exclude a systemic causes. Biopsy is usually not performed currently, as the risk of producing damage to vital structures within the orbital outweighs the benefits. Patients with multiple recurrences, or those unresponsive to therapy, should be treated of biopsy sample extraction. Corticosteroids are the mainstay of therapy and administered for several months to ensure remission. Radiotherapy may be used in patients who fail to respond to steroids or who have a rapidly progressive course. We analysed the data of two patients. There were no specific complications related to this treatment. We discussed the radiologic findings, treatment procedures, and other orbital diseases.
Adrenal Cortex Hormones
;
Biopsy
;
Diagnosis
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Diagnostic Tests, Routine
;
Humans
;
Magnetic Resonance Imaging
;
Orbit*
;
Orbital Diseases
;
Orbital Pseudotumor*
;
Radiotherapy
;
Recurrence
;
Steroids
5.Metastatic Esophageal Squamous Cell Carcinoma to the Orbit and Periorbit Masquerading as Periorbital Abscess.
Ja Young LEE ; Hyun Joon LEE ; Moon Sun JUNG ; So Young KIM
Korean Journal of Ophthalmology 2010;24(2):123-125
A 61-year-old man with no history of malignancy presented with a rapidly expanding left periorbital mass, first noticed one month prior to presentation. The mass was firm, and a pus-like discharge drained spontaneously from the center of the lesion. A biopsy was performed, and histopathology confirmed squamous cell carcinoma. Systemic evaluation revealed that the patient had a primary esophageal squamous cell carcinoma with multiple metastases. The prognosis of orbital metastasis is generally poor, and this patient expired after one month of conservative treatment.
Abscess/diagnosis
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Biopsy
;
Carcinoma, Squamous Cell/*diagnosis/*secondary
;
Diagnosis, Differential
;
Esophageal Neoplasms/*pathology
;
Fatal Outcome
;
Humans
;
Male
;
Middle Aged
;
Orbital Diseases/diagnosis
;
Orbital Neoplasms/*diagnosis/*secondary
6.Orbital fat prolapse and dermolipoma: two distinct entities.
Yoon Duck KIM ; Robert A GOLDBERG
Korean Journal of Ophthalmology 1994;8(1):42-43
A subconjunctival orbital fat prolapse is frequently confused with a dermolipoma clinically. These two entities have similar clinical appearances, but are clearly distinct. The clinical features, differential diagnosis, and treatment modalities of subconjunctival orbital fat prolapse and dermolipoma are discussed.
Adipose Tissue/*pathology
;
Adult
;
Female
;
Humans
;
Lipoma/*diagnosis
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Male
;
Middle Aged
;
Orbit/pathology/radiography
;
Orbital Diseases/*diagnosis
;
Orbital Neoplasms/*diagnosis
;
Prolapse
7.Orbital fat prolapse and dermolipoma: two distinct entities.
Yoon Duck KIM ; Robert A GOLDBERG
Korean Journal of Ophthalmology 1994;8(1):42-43
A subconjunctival orbital fat prolapse is frequently confused with a dermolipoma clinically. These two entities have similar clinical appearances, but are clearly distinct. The clinical features, differential diagnosis, and treatment modalities of subconjunctival orbital fat prolapse and dermolipoma are discussed.
Adipose Tissue/*pathology
;
Adult
;
Female
;
Humans
;
Lipoma/*diagnosis
;
Male
;
Middle Aged
;
Orbit/pathology/radiography
;
Orbital Diseases/*diagnosis
;
Orbital Neoplasms/*diagnosis
;
Prolapse
8.The Utility of Three-dimensional CT in Orbital Diseases.
Chul Woong CHO ; Sang Ki JEONG ; Yeoung Geol PARK
Journal of the Korean Ophthalmological Society 1998;39(2):221-226
PURPOSE: Orbital computed tomography was useful for evaluation of orbital truama because it can visualize most soft tissues, foreign bodies and bone details. Advancements in computer software makes three diemensional CT available with more higher quality and reasonable cost. We studied the officency, merit and limitation of orbital three dimensional CT. METHODS: We evaluated the conventional orbital CT and three dimensional orbital CT of the patients visited department of ophthalmology and emergency room to orbital trauma or other orbital diseases. RESULTS: The three dimensional orbital CT was not superior to conventional orbital CT in evaluation of orbital soft tissue disease but useful for evaluation of orbital bony details. CONCLUSION: In cases of coexamination with conventional orbital CT, the three dimensional orbital CT was useful for diagnosis and surgical planning in orbital truamatized patient.
Diagnosis
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Emergency Service, Hospital
;
Foreign Bodies
;
Humans
;
Ophthalmology
;
Orbit*
;
Orbital Diseases*
9.Optic Canal Location Using Computed Tomography (CT).
Jin Young HWANG ; Hwa LEE ; Min Wook CHANG ; Sehyun BAEK ; Tae Soo LEE
Journal of the Korean Ophthalmological Society 2014;55(9):1272-1276
PURPOSE: In this study we evaluated the location and shape of the optic canal using computed tomography (CT) for diagnosis and treatment of posterior orbital diseases. METHODS: Fifty patients, who had received a facial bone CT between November 2012 and June 2013 at Korea University Hospital were included in the present study. The location and shape of the optic canal was evaluated using 9 parameters on CT (P1: nasal bone tip; P2: middle point of tuberculum sellae; P3: root of columella nasi; P4: orbit end of the optic canal; P5: cranium end or the optic canal; P6: P1's projection on L2; L1: line that links P1 and P2; L2: goes through P3 and parallel to L1; L3: bisector of right and left and goes through P1). RESULTS: The distance between P3 and P4 was 81.5 mm and 75.6 mm in males and females, respectively (p = 0.001). The distance between P3 and P5 was 88.5 mm and 82.1 mm in, males and females, respectively (p = 0.001). The width of the orbital end and cranium end of the optic canal, the length of the optic canal was 2.4 mm, 4.1 mm, 10.9 mm in males and 2.3 mm, 3.6 mm, 10.2 mm, in females, respectively. CONCLUSIONS: By determining the location and shape of the optic canal, these results can facilitate endoscopic approaches to diagnose and manage posterior orbital diseases as well as manage and prevent disorders associated with the optic canal.
Diagnosis
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Facial Bones
;
Female
;
Humans
;
Korea
;
Male
;
Nasal Bone
;
Orbit
;
Orbital Diseases
;
Skull
10.Neurofibromatosis complicated with meningoencephalocele: one case report.
Qi-bing HUANG ; Jian-gang WANG ; Xin-gang LI ; Xu-dong ZHOU ; Dong-hai WANG ; Xin-yu WANG
Chinese Medical Journal 2007;120(23):2151-2152
Adolescent
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Encephalocele
;
etiology
;
Humans
;
Male
;
Meningocele
;
etiology
;
Neurofibromatosis 1
;
complications
;
diagnosis
;
therapy
;
Orbital Diseases
;
etiology