Extended Transcaruncular Approach Using Detachment and Repositioning of the Inferior Oblique Muscle for the Traumatic Repair of the Medial Orbital Wall

Rodríguez, Javier; Galán, Ramón; Forteza, Gabriel; Mateos, M.; Mommsen, Jens; Bouso, Olga Vazquez; Piera, Verónica

doi:10.1055/s-0029-1202598

Cited by 16 publications

(11 citation statements)

References 18 publications

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“…7,17 The combination of these approaches has proven indispensable to us in the management of these challenging cases. Although some authors have advocated dividing the inferior oblique near its origin and reapproximating the muscle with sutures at the end of the case, 26 we have found that direct disinsertion obviates the need for sutures. Mild vertical and/or torsional diplopia can occasionally occur in the early postoperative period, but in our experience has always resolved within a week or two.…”

Section: Discussionmentioning

confidence: 69%

“…When the two approaches are combined and the inferior oblique muscle disinserted, the entire surgical field becomes beautifully exposed. Combined transconjunctival and transcaruncular orbitotomy has been previously described by several authors, [26][27][28] along with disinsertion of the inferior oblique by others. 7,17 The combination of these approaches has proven indispensable to us in the management of these challenging cases.…”

Section: Discussionmentioning

confidence: 97%

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Combined Orbital Floor and Medial Wall Fractures Involving the Inferomedial Strut: Repair Technique and Case Series Using Preshaped Porous Polyethylene/Titanium Implants

Cho

Davies

2013

Craniomaxillofacial Trauma & Reconstruction

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The most commonly fractured walls of the orbit are the floor and medial wall, and repair is indicated in cases of extraocular muscle entrapment, diplopia, globe malposition, and significant orbital volume expansion. 1-5 Combined fractures of the floor and medial wall are more likely than isolated orbital wall fractures to require treatment due to increased volume expansion; they are often associated with compromise of the inferomedial strut at the ethmoid-maxillary junction (►Fig. 1). The large size of these fractures and the loss of internal bony support can make surgical repair particularly challenging. Several techniques have been described to deal with this fracture pattern using a variety of implant materials AbstractBackground Combined orbital floor and medial wall fractures can be technically challenging to repair, particularly when the inferomedial strut is involved. A surgical repair technique is described utilizing a single preshaped porous polyethylene/titanium implant to span both defects. Methods Retrospective interventional case series. Results Fracture repair was performed on 17 orbits (16 patients) between October 2009 and February 2012. Subsequent surgical revision was required in three cases (18%). Visual acuity was stable or improved in all cases. Of 7 patients with preoperative diplopia, 5 improved and 2 remained stable postoperatively, and there were no cases of new or worsened diplopia following surgery. Postoperative asymmetry in Hertel exophthalmometry averaged 1.0 mm (range 0 to 2 mm). Preoperatively, average orbital volume was 122.7% compared with control (range 109 to 147%, standard deviation [SD] 9.6), which improved to 100.3% postoperatively (range 92 to 110%, SD 5.7). The average decrease in orbital volume was 22.5% (range 10 to 54%, SD 11.4, p < 0.001). Conclusions With careful preoperative planning and meticulous surgical technique, combined orbital floor and medial wall fractures involving the inferomedial strut can be successfully repaired with a preshaped porous polyethylene/titanium implant through a transconjunctival/transcaruncular approach with inferior oblique disinsertion.

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Section: Discussionmentioning

confidence: 69%

Section: Discussionmentioning

confidence: 97%

Combined Orbital Floor and Medial Wall Fractures Involving the Inferomedial Strut: Repair Technique and Case Series Using Preshaped Porous Polyethylene/Titanium Implants

Cho

Davies

2013

Craniomaxillofacial Trauma & Reconstruction

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“…Seventeen and 23 patients had right and left orbital wall fractures, respectively. The mean follow-up visit was 9 ± 3.47 months (range, [6][7][8][9][10][11][12][13][14][15][16][17]. Patients showed enophthalmos of -1.46 ± 0.25 (range, -5 to 3) mm compared with the normal side.…”

Section: Resultsmentioning

confidence: 99%

Clinical Results According to Inferior Oblique Manipulation in Patients with Inferomedial Blowout Fracture Involving the Orbital Strut

Park

Choi

2022

OPTH

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Background: Detachment of the inferior oblique muscle may be necessary under certain circumstances to repair a large inferomedial orbital fracture involving the orbital strut. This study aimed to evaluate the outcomes of patients who underwent surgeries with and without inferior oblique muscle reattachment after its detachment to repair the orbital wall fractures. Methods: Forty patients who underwent repair of combined floor and medial orbital wall fracture involving the orbital strut at a single tertiary institution between January 2014 and December 2020 were reviewed. Groups 1 and 2 comprised 20 patients each, who underwent surgery with inferior oblique muscle detachment without and with reattachment, respectively, and were followed up for at least 6 months postoperatively. Enophthalmos, Goldmann diplopia test, alignment test, ocular motility test, and orbital inferomedial angle ratio were the outcome measures. Results: Statistically significant improvement was observed in ocular motility, diplopia, and enophthalmos postoperatively at the 1and 6-month follow-up (p < 0.01). The mean postoperative inferomedial angle ratio (102.28 ± 10.62%) was improved significantly compared with the preoperative inferomedial angle ratio (115.61 ± 4.38%) (p = 0.004) in all patients. After surgery, inferior oblique muscle underaction was observed in seven and six patients in groups 1 and 2, respectively, which was associated with preoperative extraocular movement limitation and strabismus. Two patients showed diplopia in both groups at the last follow-up; they had inferior oblique muscle underaction but no enophthalmos. Conclusion: Orbital fracture repair with or without inferior oblique muscle reattachment was clinically effective and safe; however, patients with preoperative strabismus and extraocular motility limitation should be informed of the increased risk of postoperative complications.

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“…8 The main disadvantage of the pure transcaruncular approach is, however, that the field for working in the medial wall is very limitedVonly small grafts (15 Â 20 mm maximum) can be inserted. 9 It provides only limited exposure, making it difficult to put in the reconstructive materials. 10,11 Also, inserting titanium mesh via transcaruncular approach is technically difficult in some cases, due to the sharp cut edges of the material, especially for larger defects, where herniation of the periorbita makes retraction difficult.…”

Section: Discussionmentioning

confidence: 99%

Usefulness of Subciliary Approach by Using Lacrimal Sac Stripping for Large Isolated Medial Orbital Fracture Reconstruction

Kim

Baek²,

Bae³

et al. 2015

Annals of Plastic Surgery

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Extended Transcaruncular Approach Using Detachment and Repositioning of the Inferior Oblique Muscle for the Traumatic Repair of the Medial Orbital Wall

Cited by 16 publications

References 18 publications

Combined Orbital Floor and Medial Wall Fractures Involving the Inferomedial Strut: Repair Technique and Case Series Using Preshaped Porous Polyethylene/Titanium Implants

Combined Orbital Floor and Medial Wall Fractures Involving the Inferomedial Strut: Repair Technique and Case Series Using Preshaped Porous Polyethylene/Titanium Implants

Clinical Results According to Inferior Oblique Manipulation in Patients with Inferomedial Blowout Fracture Involving the Orbital Strut

Usefulness of Subciliary Approach by Using Lacrimal Sac Stripping for Large Isolated Medial Orbital Fracture Reconstruction

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