• Title/Summary/Keyword: Orbital reconstruction

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Anatomical Reconstruction of the Medial Orbital Wall Fracture (안와내벽골절의 해부학적 복원술)

  • Choi, Woo Kyung;Kang, Dong Hee;Oh, Sang Ah
    • Archives of Craniofacial Surgery
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    • v.13 no.1
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    • pp.29-35
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    • 2012
  • Purpose: In surgical treatment of the medial orbital wall fractures, restoring the original position of the orbital wall is difficult in some cases. Under such condition, the orbital wall is often reconstructed with synthetic material, without bony reduction, which is considered to be the conventional reconstruction. The purpose of this study is to compare the outcomes of anatomical reconstruction, which restores the bony wall to the anatomical position, from that of the conventional reduction in the isolated medial orbital wall fractures. Methods: Thirty patients, who underwent reconstruction surgery for the isolated medial orbital wall fractures from March 2007 to August 2011, were reviewed retrospectively. The surgical outcomes of two groups, the conventional reconstruction group (15 patients) and the anatomical reconstruction group (15 patients), were studied in 2 measurements, a one day before and 6 months after the surgery. The changes of orbital volume were calculated by the images from a computed tomography scan and enophthalmos was measured by a Hertel exophthalmometer. Results: The orbital volume ratio was decreased by an average of 1.05% in the conventional reconstruction group, while in the anatomical reconstruction group, the ratio decreased by 5.90% (p<0.05). The changes in the Hertel scale were 0.20 mm in the conventional reconstruction group, and 0.70 mm in the anatomical reconstruction group. However, the difference in the Hertel scale was statistically insignificant (p>0.05). Conclusion: In conclusion, the anatomical reconstruction technique of the isolated medial orbital wall fracture results in a better outcome than that of the conventional reconstruction, in terms of restoring of the original orbital volume and anatomic position. Thus, it can be considered as a useful method for the isolated medial orbital wall fractures.

The Inferior Orbital Wall Reconstruction by Titanium Micro-mesh Remodeling (Titanium Micro-mesh의 개형을 통한 하벽부 안와골절의 재건)

  • Kim, Han Koo;Choi, Min Seok;Kim, Woo Seob;Bae, Tae Hui
    • Archives of Craniofacial Surgery
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    • v.10 no.2
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    • pp.81-85
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    • 2009
  • Purpose: The inferior orbital wall is the most vulnerable to injury and inadequate reconstruction of inferior orbital fracture result in postoperative complications include enophthalmos, ocular dystopia and diplopia. Although the anatomical reconstruction of the inferior orbital wall is necessary to prevent these complications, the complexity of inferior orbital wall makes it difficult. We fabricated and remodeled the titanium micro-mesh plate for the anatomical reconstruction of inferior orbital wall. Methods: Twenty-nine patients with inferior orbital wall blow-out fracture were operated and twelve of them presented large extensive fracture. We intraoperatively fabricated and remodeled the Titanium-micro mesh to angulated lazy S shape similar to contralateral uninjured orbit. The preoperative and postoperative facial CT scan verified the 3-dimensional and anatomical reconstruction of the fractures. The mean follow-up was 19.7 months and postoperative complications was evaluated. Results: All cases showed the exact anatomical reconstruction, but there were minor complications in two cases. one patient had postoperative diplopia until 3months after surgery and the other patient had persistent enophthalmos (2 mm), but no further surgical correction was required. Conclusion: The comprehensive understanding of orbital convexity is the most important factor for anatomical reconstruction of inferior orbital fracture. We could prevent postoperative complications after inferior orbital wall reconstruction by intraoperative fabrication and anatomical remodeling of Titanium micro-mesh.

Reconstruction of the orbital wall using superior orbital rim osteotomy in a patient with a superior orbital wall fracture

  • Heo, Jae Jin;Chong, Ji-Hun;Han, Jeong Joon;Jung, Seunggon;Kook, Min-Suk;Oh, Hee-Kyun;Park, Hong-Ju
    • Maxillofacial Plastic and Reconstructive Surgery
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    • v.40
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    • pp.42.1-42.5
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    • 2018
  • Background: Fractures of the orbital wall are mainly caused by traffic accidents, assaults, and falls and generally occur in men aged between 20 and 40 years. Complications that may occur after an orbital fracture include diplopia and decreased visual acuity due to changes in orbital volume, ocular depression due to changes in orbital floor height, and exophthalmos. If surgery is delayed too long, tissue adhesion will occur, making it difficult to improve ophthalmologic symptoms. Thus, early diagnosis and treatment are important. Fractures of the superior orbital wall are often accompanied by skull fractures. Most of these patients are unable to perform an early ocular evaluation due to neurosurgery and treatment. These patients are more likely to show tissue adhesion, making it difficult to properly dissect the tissue for wall reconstruction during surgery. Case presentation: This report details a case of superior orbital wall reconstruction using superior orbital rim osteotomy in a patient with a superior orbital wall fracture involving severe tissue adhesion. Three months after reconstruction, there were no significant complications. Conclusion: In a patient with a superior orbital wall fracture, our procedure is helpful in securing the visual field and in delamination of the surrounding tissue.

A Wrapping Method for Inserting Titanium Micro-Mesh Implants in the Reconstruction of Blowout Fractures

  • Choi, Tae Joon;Burm, Jin Sik;Yang, Won Yong;Kang, Sang Yoon
    • Archives of Plastic Surgery
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    • v.43 no.1
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    • pp.84-87
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    • 2016
  • Titanium micro-mesh implants are widely used in orbital wall reconstructions because they have several advantageous characteristics. However, the rough and irregular marginal spurs of the cut edges of the titanium mesh sheet impede the efficacious and minimally traumatic insertion of the implant, because these spurs may catch or hook the orbital soft tissue, skin, or conjunctiva during the insertion procedure. In order to prevent this problem, we developed an easy method of inserting a titanium micro-mesh, in which it is wrapped with the aseptic transparent plastic film that is used to pack surgical instruments or is attached to one side of the inner suture package. Fifty-four patients underwent orbital wall reconstruction using a transconjunctival or transcutaneous approach. The wrapped implant was easily inserted without catching or injuring the orbital soft tissue, skin, or conjunctiva. In most cases, the implant was inserted in one attempt. Postoperative computed tomographic scans showed excellent placement of the titanium micro-mesh and adequate anatomic reconstruction of the orbital walls. This wrapping insertion method may be useful for making the insertion of titanium micro-mesh implants in the reconstruction of orbital wall fractures easier and less traumatic.

A CASE REPORT OF ORBITAL FLOOR RECONSTRUCTION WITH TEMPORAL MUSCLE-CORONOID PROCESS FLAP (측두근-오훼돌기 피판을 이용한 안와저의 재건 예)

  • Lee, Sang-Chull;Kim, Yeo-Gab;Ryu, Dong-Mok;Choi, Jae-Yong
    • Maxillofacial Plastic and Reconstructive Surgery
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    • v.15 no.1
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    • pp.1-6
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    • 1993
  • The maxillary squamous cell carcinoma is major part of maxillary malignant tumor. The treatment of maxillary malignancy tumor is the maxillectomy in combination with radiation therapy and chemorherapy. When tumor invasion is occured to the orbit, orbital exenteration is required. But if the periosteum of the orbital floor is intact, the orbit can be preserved. There are many orbital floor reconstruction materials for the prevention of ptosis of the orbital content. The patients on this paper were diagnosised as squamous cell carcinoma on maxilla, we performed the partial maxillectomy including the orbital floor, and we used temporalis muscle-coronoid process flap for the reconstruction of the orbital floor after partial maxillectomy and obtained good esthetic and functional results, as followed. 1. We obtained sufficient flap width for defect of orbital floor. 2. It permits good blood supply and no necessary other donor site. 3. It gives a solid base for the support the globe and the orbital floor. 4. It gives minimal postoperative morphorogical defect and functional disturbance.

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Late reconstruction of extensive orbital floor fracture with a patient-specific implant in a bombing victim

  • Smeets, Maximiliaan;Snel, Robin;Sun, Yi;Dormaar, Titiaan;Politis, Constantinus
    • Journal of the Korean Association of Oral and Maxillofacial Surgeons
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    • v.46 no.5
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    • pp.353-357
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    • 2020
  • Fractures of the orbital floor and walls are among the most frequent maxillofacial fractures. Virtual three-dimensional (3D) planning and use of patient-specific implants (PSIs) could improve anatomic and functional outcomes in orbital reconstruction surgery. The presented case was a victim of a terrorist attack involving improvised explosive devices. This 58-year-old female suffered severe wounds caused by a single piece of metal from a bomb, shattering the left orbital floor and lateral orbital wall. Due to remaining hypotropia of the left eye compared to the right eye, late orbital floor reconstruction was carried out with a personalised 3D printed titanium implant. We concluded that this technique with PSI appears to be a viable method to correct complex orbital floor defects. Our research group noted good aesthetic and functional results one year after surgery. Due to the complexity of the surgery for a major bony defect of the orbital floor, it is important that the surgery be executed by experienced surgeons in the field of maxillofacial traumatology.

Safety of Silastic Sheet for Orbital Wall Reconstruction

  • Moon, Seong June;Suh, Hyun Suk;Park, Bo Young;Kang, So Ra
    • Archives of Plastic Surgery
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    • v.41 no.4
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    • pp.362-365
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    • 2014
  • Background Many implants are being used for the reconstruction of orbital wall fractures. The effect of the choice of implant for the reconstruction of an orbital wall fracture on the surgical outcome is under debate. The purpose of this article is to compare the outcomes of orbital wall reconstruction of small orbital wall fractures on the basis of the implants used. Methods The authors conducted a retrospective study using electronic databases. Between March 2001 and December 2012, 461 patients with orbital wall fractures were included in this study. Among them, 431 patients in whom the fracture size was less than $300mm^2$ were analyzed. The fracture size was calculated using computed tomography scans of the orbit in the sagittal and coronal images. Cases in which the fracture size was less than $300mm^2$ were included in this study. Results One hundred and twenty-nine patients were treated with silastic sheets; 238 patients were treated with titanium meshes; and absorbable meshes were used in the case of 64 patients. Overall, 13 patients required revision, and the revision rate was 3.0%. The revision rate of the silastic sheet group was 5.4%. In the multivariable analysis, the revision rate of the group reconstructed with silastic sheets was highly statistically significant (P=0.043, odds ratio=3.65). However, other factors such as age, sex, fracture type, and fracture size were not significant. Conclusions Reconstruction of orbital wall fractures with silastic sheets may cause more complications than that with other materials such as titanium meshes and absorbable meshes.

Late Complication of a Silicone Implant Thirty Years after Orbital Fracture Reconstruction

  • Lee, Chi An;Kang, Seok Joo;Yun, Ji Young;Sun, Hook
    • Archives of Craniofacial Surgery
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    • v.18 no.2
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    • pp.137-140
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    • 2017
  • Alloplastic materials used for orbital fracture reconstruction can induce complications, such as infection, migration, extrusion, intraorbital hemorrhage, and residual diplopia. Silicone is one of the alloplastic materials that has been widely used for decades. The author reports a rare case of spontaneous extrusion of a silicone implant that was used for orbital fracture reconstruction 30 years earlier. A 50-year-old man was admitted to the emergency room for an exposed substance in the lower eyelid area of the left eye, which began as a palpable hard nodule a week earlier. The exposed material was considered to be implant used for previous surgery. Under general anesthesia, the implant and parts of the fibrous capsule tissue were removed. Several factors hinder the diagnosis of implant extrusions that occur a long period after the surgery. So, surgeons must be aware that complications with implants can still arise several decades following orbital fracture reconstruction, even without specific causes.

Delayed Retrobulbar Hemorrhage after Orbital Floor Reconstruction (안와하벽재건술 후 발생한 지연성 눈뒤출혈: 증례보고)

  • Lee, Seung-Woo;Choi, Young-Woong;Nam, Sang-Hyun;Kim, Hoon
    • Archives of Plastic Surgery
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    • v.37 no.4
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    • pp.489-491
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    • 2010
  • Purpose: Retrobulbar hemorrhage is a rare complication followed by blepharoplasty, trauma, orbital reconstruction, and so on. Most of the cases occur within 24 hours, half of them in the first 6 hours. Some authors have reported delayed retrobulbar hemorrhage after blepharoplasty and trauma within 1 day to 9 days. However, there have been few reports of delayed retrobulbar hemorrhage resulting from the complication of orbital reconstruction. Methods: A 22-year-old male underwent orbital floor reconstruction due to the orbital floor fracture. In 84 hours after the surgery, he complained sudden onset orbital pain and decreased visual acuity immediately after defecation. Intraocular pressure was unmeasurable due to the swelling at that time. Emergency computed tomography was performed. Results: Computed tomography revealed subperiosteal hematoma on inferior orbital wall extended to the apex. Emergency decompressive surgery was performed within 1 hour. After evacuation of hematoma, orbital symptom was improved and visual acuity was restored. Conclusion: Delayed retrobulbar hemorrhage is rare but vision-threatening. Therefore early diagnosis and treatment of delayed retrobulbar hemorrhage is thought to be crucial. The cause of delayed hemorrhage was not clear, however, valsalva maneuver might be the cause of hemorrhage.

Orbital Floor Reconstruction Using Endoscope and Selected Urethral Balloon Catheter (내시경과 선택적 도뇨관 풍선을 이용한 안와하벽복원술)

  • Choi, Hwan-Jun;Lee, Joo-Chul;Lee, Hyung-Gyo;Kim, Jun-Hyuk
    • Archives of Plastic Surgery
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    • v.38 no.1
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    • pp.35-42
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    • 2011
  • Purpose: Blow-out fractures can be reduced using various methods. The orbital reconstruction technique using a balloon under endoscopic control has advantages over other methods. However, this method has some problems too, such as postoperative follow-up, management of the balloon catheter, and reduction of the posterior orbital floor. Thus, we developed a simple, effective method for orbital floor reduction that involves molding and shaping the antral balloon catheter. Methods: A 0, 30, or $70^{\circ}$, 4-mm endoscope was placed though a two-point, 5-mm maxillary antrostomy. The balloon catheter is placed directly at the orbital apex to reconstruct the anterior shelf (spherical shape), while it is turned in a U-shape towards the anterior maxilla for the posterior shelf (elliptical shape). Orbital floor defects, compound or comminuted fractures are reconstructed with alloplastic materials through an open lid incision under the endoscopic control. Results: This technique was applied to ten patients with orbital floor fractures: five anterior shelf and five posterior shelf fracture, respectively. Four of the patients had zygomatico-orbital fractures, while the rest had isolated orbital floor fractures. Two patients were given porous polyethylene implants Synpor$^{(R)}$) and three underwent reconstruction with a resorbable mesh plate. No complication associated with this technique was identified. Conclusion: The freestyle placement and selection of a urinary balloon catheter under endoscopic control and the preoperative estimation of the volume enhanced the stabilization of the orbital contour. This method improves the adaptation of the orbital floor without the risk of injuring the surrounding orbital contents, dissecting blindly, or using sharp traction. One drawback of this method is the patient's discomfort from the catheter during treatment.