Surgery related to the correction of hypertelorism

Transnasal Medial Canthopexy Supported with Autogenous Bone Graft: A New Method for Repair of Traumatic Telecanthus

INTRODUCTION

The medial canthus is an important structure to maintain the shape of the eye and assist in drainage of the lacrimal sac. Traumatic telecanthus is a difficult deformity to treat which involves both esthetic and functional aspects. Transnasal wiring remains the gold standard for repair of the medial canthal tendon (MCT) avulsion; however, it is often complicated by canthal drift, extrusion of wires, and in-fracture of the contralateral orbital bones from pressure by tied wires. In order to overcome traditional transnasal wiring technique pitfalls, this study proposes a transnasal wiring fixation method supported with a bone graft to treat patients presenting with telecanthus following complex nasoorbitoethmoid fractures.

PATIENTS AND METHODS

From December 2018 to October 2020, 12 patients with traumatic telecanthus underwent transnasal wiring fixation of the MCT supported with bone graft. The wire holding the MCT was delivered through a single hole to the contralateral side and secured to a small bone graft by passing the wire through 2 holes in the graft in a button-like fashion. Then the wire end is pulled again to the affected side through the same hole and the 2 wires ends are tightly twisted after setting the MCT posterior to the lacrimal crest.

RESULTS

Restoration of the MCT to its normal position was achieved in all patients. There were no observed major complications. Only 2 cases of wound infection and 1 case of dacrocystitis were encountered, which settled with conservative management. The preoperative palpebral fissure width (mean: 28.33 mm ± 2.188 mm) was significantly lower than the postoperative palpebral fissure width (mean: 34.17 mm ± 1.03 mm) (P < 0.05).

CONCLUSIONS

This study introduces a modified technique of transnasal wiring fixation to restore palpebral shape and intercanthal distance. The proposed technique could eliminate most of the frequently observed complications of the traditional methods.

Controversy on the Age of Hypertelorism Correction

INTRODUCTION

Orbital hypertelorism (HTO) is a challenging craniofacial problem seen in association with some congenital deformities. The age of HTO correction is a matter of debate.

THE AIM OF THE WORK

to evaluate the outcome of HTO correction and determine the optimal timing for intervention, striving for the earliest possible intervention with the lowest relapse.

PATIENTS AND METHODS

A standard craniofacial approach with medial bone resection, 4 walls orbital box osteotomy and orbital medialization were done for all patients. Skeletal and soft tissue procedures were done as indicated.

RESULTS

there were 10 patients aging 6 to 19 years. Seven were associated with craniofacial clefts, and 3 with craniosynostosis syndromes. HTO was severe in 8 cases and moderate in 2 cases. It was asymmetric in 2 cases. Frontoorbital remodeling was done in 3 cases with craniosynostosis. Failed surgery was reported in 2 cases. A redo surgery was done for one of them with an excellent outcome, while refused by the other. Nine patients had an excellent outcome. The mean level of satisfaction was 93.37%. Three patients had ugly facial scars. No major complications were recorded.

CONCLUSION

The time for surgical treatment of HTO is determined by the severity of the associated deformity. If there is an urgent factor indicating intervention, early correction can be performed exceptionally; otherwise, HTO correction should be performed after the age of 6 years.

State-of-the-Art Hypertelorism Management

Orbital hypertelorism represents lateralization of the orbits, meaning increased interorbital and outer orbital distances. Interorbital hypertelorism represents a failure of medial orbital wall medialization in the setting of normally positioned lateral orbital walls. The etiology and type of hypertelorism influence selection of an operative procedure, whereas the severity of deformity dictates surgical need. Choice of surgical procedure is dictated by anatomic considerations, such as degree of orbital hypertelorism, midfacial proportions, and occlusal status.

Surgical approach of hypertelorbitism in craniofrontonasal dysplasia

OBJECTIVE

to present our experience in the hypertelorbitism surgical treatment in craniofrontonasal dysplasia.

METHODS

retrospective analysis of craniofrontonasal dysplasia patients operated through orbital box osteotomy or facial bipartition between 1997 and 2015. Surgical data was obtained from medical records, complementary tests, photographs, and clinical interviews. Surgical results were classified based on the need for additional surgery and orbital relapse was calculated.

RESULTS

seven female patients were included, of whom three (42.86%) underwent orbital box osteotomy and four (57.14%) underwent facial bipartition. There was orbital relapse in average of 3.71±3,73mm. Surgical result according to the need for further surgery was 2.43±0.53.

CONCLUSION

surgical approach to hypertelorbitism in craniofrontonasal dysplasia should be individualized, respecting the age at surgery and preferences of patients, parents, and surgeons.

Single-Stage Combined Craniofacial Repair for Frontoethmoidal Meningoencephalocele

INTRODUCTION

Frontoethmoidal meningoencephalocele (FMEC) is a rare congenital anomaly characterized by herniation of brain tissue and meninges through a defect in the cranium and associated with facial dysmorphism. Treatment modalities include extra cranial, transcranial, or combined craniofacial approaches. The combined approach is considered the best treatment choice.

METHODS

Twelve patients with FMEC aging from 6 months to 4 years were treated by single-stage combined craniofacial approach between July 2011 and July 2015. They were followed up for evaluation of outcome and detection of complications.

RESULTS

Seven patients (58.3%) were males and 5 patients (41.7%) were females. Eight patients (66.7%) were less than 2 years while 4 patients (33.3%) were between 2 and 4 years. The main presentations were external mass, telecanthus and hypertelorbitism, radiologically, frontobasal bone defect and herniated dural sac with brain tissue were detected in all patients. Excision of the mass with dural repair, craniofacial reconstruction, and medial canthopexy were done for all patients. Orbital translocation was done for 8 patients (75%), nasal reconstruction for 7 patients (58.3%), while dacryocystorhinostomy in 3 patients (25%). Venticuloperitoneal shunt was done before correction of FMEC in one patient (8.3%). The follow-up period ranged from 6 to 48 months with mean 29.2 months. The esthetic results were satisfactory in 9 patients (75%). Ugly facial scars were recorded in 3 patients (25%).

CONCLUSION

Early surgical management for FMEC is advisable to avoid deleterious effects on facial growth. Meticulous perioperative care is important for successful surgery. The authors recommend combined craniofacial approach to achieve good outcome and decrease the incidence of complications.

Frontoethmoidal mucocele following pediatric craniofacial surgery

BACKGROUND

Mucoceles occur as a result of accumulation and retention of mucous secretions in a paranasal sinus and are uncommon in the pediatric age group. Persistent or intermittent closure of its ostium through a variety of causes, including previous surgery, is implicated in etiology. The authors report 2 cases of frontoethmoidal mucocele that followed box osteotomies for the treatment of orbital dystopia, with medical literature review and discussion of possible causal factors and events.

METHODS

Case histories and radiological imaging are presented on 2 patients presenting with frontoethmoidal mucoceles following craniofacial surgery. Both had transcranial craniofacial techniques where all orbital walls and globe are moved en bloc as a "box."

RESULTS

Patient 1, a 12-year-old male patient with Crouzon syndrome, developed mucoceles within 18 months of monobloc distraction surgery and box osteotomies. This was successfully marsupialized with a combined external and endoscopic surgical approach. The second patient, a 15-year-old boy with previously corrected right-sided facial cleft, developed mucocele 9 years following box osteotomies; this was successfully managed by endoscopic drainage. Of 3 other patients having similar box osteotomies in our unit, no other mucoceles were noted as complications.

CONCLUSIONS

Mucoceles are a rare complication of craniofacial surgery, and literature review confirms a paucity of reports. Only 1 case has previously been alluded to of mucocele complicating box osteotomy for orbital dystopia. Our 2 cases illustrate and highlight a successful management approach in a multidisciplinary craniofacial unit.

Hypertelorism

The term orbital hypertelorism (ORH) implies "widely apart orbits." This may also be associated with the abnormal vertical orientation of the orbits (dystopia). This deformity may be unilateral or bilateral, symmetric or asymmetric and may be present in a variety of craniofacial conditions. The treatment is primarily carried out for aesthetic reasons. The timing of treatment is dictated by the underlying condition and the type of procedure envisaged. The mainstay of treatment consists of moving the orbits medially to near normal position. This is accomplished by either an orbital translocation or facial bipartition technique. The choice of procedure is governed by the shape of the maxillary arch and associated occlusal conditions. We must differentiate between the telecanthus (also called pseudo-hypertelorism) and a true ORH as the management differs in these two conditions. The ORH involves extensive intracranial and extracranial operation whereas the telecanthus correction is relatively simpler surgery. The article will discuss the aetiology, classification, presentation, treatment options, timing of surgery and the choice of surgical procedures. Illustrative case reports with long-term results will be used to explain the management of these patients.

Hypertelorism correction with facial bipartition and box osteotomy: does soft tissue translation correlate with bony movement?

OBJECTIVE

Hypertelorism may be corrected by either transcranial box osteotomy or facial bipartition. Despite radical bony resection, the associated soft tissue translation often seems disproportionate. The purpose of this study was to review bony and soft tissue movements in a series of 15 consecutive hypertelorism correction cases.

METHODS

Two surgical residents in training independently analyzed preoperative and postoperative axial and three-dimensional reconstructed computed tomography data from 15 consecutive patients undergoing facial bipartition (n = 7) or transcranial box osteotomy correction (n = 8) between 2001 and 2010. Anterior interorbital distance, lateral interorbital distance, midpoint globe distance, and globe protrusion were measured along with intercanthal distance and palpebral fissure width.

RESULTS

The mean preoperative anterior interorbital distance was 35.5 mm; postoperatively, there was a mean reduction of 9.5 mm, to 26 mm. The mean preoperative intercanthal distance was 48.1 mm; there was a mean reduction of 10.3 mm, to 37.8 mm. The mean preoperative midpoint globe distance was 69.5 mm; there was a mean reduction of 9.6 mm, to 59.9 mm. The mean preoperative globe protrusion was 17.6 mm; there was a mean reduction of 5 mm, to 12.6 mm (28.5%). The mean interclass correlation (a measurement of interrater congruency with 1 being complete agreement) was 0.85 CONCLUSIONS: Transcranial box osteotomy and facial bipartition correct hypertelorism. The medial canthal tendons, lateral canthal tendons, and globes move in proportion to the bony attachments. We observed a reduction in globe protrusion an average of 29%, therefore risking enophthalmos.

Frontofacial surgery in children and adolescents: techniques, indications, outcomes

The techniques of frontofacial surgery are most valuable in the clinical management of complex craniofacial deformity to achieve a range of functional and aesthetic gains in children from infancy to maturity. A variety of complex craniofacial osteotomies that can be used to separate the orbits from the skull base have been described. In addition, the combination of circumorbital release and pterygomaxillary disjunction allows advancement of the orbitomaxillary segment for powerful clinical benefit. For the purpose of this article, the principal frontofacial strategies include the monobloc frontofacial advancement by distraction (MBD), frontofacial bipartition advancement by distraction (BpD), orbital box osteotomy (FFBx), and frontofacial bipartition (FFBp). These techniques are broadly used for two purposes: to allow for the translocation of one or both orbits to correct orbitofacial disproportion (hypertelorism, vertical orbital dystopia, or a combination of both), or to advance the orbitomaxillary segment for orbital volume expansion and protection of the eye in syndromes featuring severe exorbitism (oculo-orbital disproportion). Here we describe aspects of our experience of frontofacial surgery in the Craniofacial Centre at Great Ormond Street Hospital for Children, London, with reference to the principles underpinning frontofacial surgical techniques, their challenges, and their impact on function and aesthetics.

From birth to maturity: midline tessier 0-14 craniofacial cleft patients who have completed protocol management at a single craniofacial unit

INTRODUCTION

The rare craniofacial clefts form an important component of craniofacial pathology, but little has been written regarding the definitive management of affected patients. This report describes the presentation, management, and outcomes in a group of patients who have completed their protocol management for treatment of midline Tessier 0-14 clefts.

METHODS

A retrospective review of the clinical, photographic, and radiographic records of all midline cleft patients treated at a single center was performed. Data describing each patient's presenting features, surgical management, and final outcomes are presented.

RESULTS

Four patients were identified as having completed protocol management for Tessier 0-14 midline clefting at the unit. The age range at the most recent follow-up was 19.3 to 36.3 years. Three patients had entered protocol management during infancy, and the remaining patient presented to the unit at 13.8 years of age. The surgical management regimen is described in detail. Outcomes for development, hearing, speech, and vision at maturity were all acceptable. Three patients attained a respectable educational and social status. With respect to facial aesthetics scores, the only significant difference after management was a significant worsening of deformity in the region of the orbits. The Whitaker grade for repeat surgery improved after management (3.25 before to 2.63 postmanagement), but this improvement was not statistically significant.

CONCLUSION

Presented are the results of the first cohort of midline Tessier 0-14 cleft patients to have completed protocol management at a single craniofacial unit. As more patients complete their management in the future, further refinements to the protocol could be made.

Correction of hypertelorbitism: evaluation of relapse on long-term follow-up

BACKGROUND

Hypertelorbitism has been associated with a variety of congenital deformities. Appropriate timing for surgical correction remains controversial. We present our long-term experience of 33 patients with hypertelorbitism undergoing facial bipartition or orbital box osteotomy.

METHODS

Patients with hypertelorbitism treated with either facial bipartition or orbital box osteotomy and repositioning who had long-term follow-up were studied (n=33). Age at the time of first surgery, preoperative interdacryon distance, and immediate postoperative interdacryon distance were recorded. Relapse was determined on postoperative follow-up, and the need for secondary correction was noted. Physician satisfaction score (range, 0-4) was also assessed.

RESULTS

Patients had a mean total follow-up of 14.0 years. With regard to age at the time of initial procedure, patients younger than 6 years were all noted to have relapse, and 83% underwent revision surgery. In patients 6 years or older, only 11% had relapse and required a second operation. Yet, satisfaction scores were similar (3.2 versus 3.5). With regard to the severity of hypertelorbitism, there was no relapse noted among patients with mild hypertelorbitism (interorbital distance [IOD], 30-34 mm). Among those with moderate hypertelorbitism (IOD, 35-40 mm), 29.4% developed relapse. By contrast, all patients with severe hypertelorbitism (IOD, >40 mm) were noted to have relapse requiring repeat correction. Satisfaction scores were similar (3.4 versus 3.3 versus 3.1).

CONCLUSIONS

Relapse after surgery for hypertelorbitism is related to the age of the patient at correction and the preoperative severity. When possible, surgical repositioning of the orbits should be delayed until later childhood.

Long-term results after 40 years experience with treatment of rare facial clefts: Part 2--Symmetrical median clefts

BACKGROUND

Median facial clefts are reconstructive challenges, requiring multiple operations throughout life. Long-term results are often still far from ideal and could be improved. Due to surgical intervention and diminished intrinsic growth potential, surgical results may change from initially good into a progressively disappointing outcome. If, however, the ideal timing and type of surgery are known, in combination with the intrinsic growth potential, the results can be ameliorated. A guideline for surgical treatment is given.

METHODS

Twenty patients with a pure symmetrical median cleft were evaluated on intermediate and long-term surgical results. The final result was scored based on severity of the initial and the remaining facial deformities, and the need for revisional surgery.

RESULTS

The long-term surgical outcome was initially good for each of the affected facial parts and the face in general, but worsened over time, especially in the zone of the nose. An adequate and stable result of hypertelorism correction was observed for both the orbital box osteotomy and medial faciotomy, even when performed at a young age.

CONCLUSIONS

The intrinsic growth restriction is mainly localised in the central midface. This leads to a complex and often unpredictable growth of the maturing face. It makes it difficult to achieve perfect reconstructions. Caution with surgical interventions of the nose at a young age is required. Once the face has matured, a midface advancement and secondary nose correction should be considered for satisfactory projection. Early referral to a specialised centre is essential.

Median facial cleft with a frontoethmoidal encephalocele treated with craniofacial bipartition and free radial forearm flap: a case report

We describe a patient with a median facial cleft with a frontoethmoidal encephalocele, hypertelorism, hydrocephalus, and cerebrospinal fluid (CSF) leakage referred to our department due to numerous complications after previous surgical treatments. An 8-year-old girl, born with median cleft syndrome, underwent neurosurgical repair of the encephalocele at another hospital and cleft lip/palate repair later in the same year. Her hydrocephalus was treated with a ventriculoperitoneal shunt, but she underwent numerous shunt revisions due to recurrent intracerebral infections. In 2008, she was rehospitalized due to a gram-negative meningitis and cerebral abscess. She underwent surgery where part of her frontal bone was removed due to osteomyelitis. She was referred to our department due to persistent CSF leakage, recurrent infections, and significant dura defect. In addition, she had hypertelorism and a strongly reduced vision. We performed a monobloc and facial bipartition osteotomy where 15 mm of her frontal and nasal bone was removed after facial bipartiton. The dura defect was closed using a free fasciocutanous flap. The patient had no CSF leakage or infections postoperatively, and her hypertelorism was reduced. The case represents the first monobloc and facial bipartition osteotomy performed in Norway as a part of the treatment of median cleft syndrome with a nasoethmoidal encephalocele.

The K Stitch for Hypertelorbitism: Improved Soft Tissue Correction With Glabellar Width Reduction

After correction of moderate to severe hypertelorbitism (greater than 40 mm interdacryon distance) with facial bipartition or orbital box osteotomy, excess glabellar soft tissue and brow width should be addressed. Traditional methods described used a midline excision down the forehead and nasal dorsum, and left an unsightly scar. With a series of 12 patients, the authors document the K stitch technique with no external vertical scar. A mean 38.8% reduction of interbrow distance was noted using this technique. Two patients underwent revisions, and two patients had temporary eyelid ptosis. All patients reported satisfaction once the skin contracture was completed.

Craniofrontonasal dysplasia

A series of 10 patients with craniofrontonasal dysplasia presenting to the Oxford Craniofacial Unit since 1983 is presented. In addition to the well-described combination of coronal synostosis and frontonasal dysplasia, 9 patients had very characteristic dry, curly or frizzy hair. All the patients were female. Recognition of the syndrome is important for genetic counselling, although the precise mode of genetic transmission is unclear with females predominating and males being less severely affected. Surgical correction was in two stages: early frontal advancement followed by correction of hypertelorism when the child became aware of the deformity. Four patients had their craniosynostosis treated in the Oxford Craniofacial Unit. Three patients had previously had frontal remodelling elsewhere. Nine patients had surgery for hypertelorism. The preferred technique for hypertelorism correction was facial bipartition. Following hypertelorism correction, the excess skin was allowed to redrape and subsequently dealt with by medial canthoplasties, thus avoiding a midline scar. Careful attention to the primary frontal advancement procedure is important to avoid complications following difficult dissection of the frontal bone flap at the time of hypertelorism correction.

Use of a new anchoring device for tendon reinsertion in medial canthopexy

This paper describes the use of the Mitek Mini GII Anchor System for tendon reinsertion in medial canthopexy. The system is simple, fast to insert, and easy to use. It allows precise placement with minimal dissection, which is limited to the ipsilateral orbit.

Corium transplantation cannula

This article presents a newly designed instrument capable of being used for three surgical procedures:(1) removal of dermis (without epithelium) from a donor site, (2) dissection of specific muscles that cause cutaneous folds, (3) implantation of the dermis under a cutaneous depression or fold.

Congenital craniofacial anomalies of ophthalmic importance

Congenital craniofacial abnormalities frequently require ophthalmic evaluation and surgical management. Called upon to perform as part of the craniofacial team managing the often severely deformed craniofacial patient, the ophthalmologist must bring a basic knowledge of craniofacial syndromes and developmental anatomy, as well as clinical acumen to help preserve or improve ocular and adnexal function. As an introduction to this area of ophthalmology, the clinical features, classification, appropriate facial embryology, assessment and surgical considerations of the various congenital craniofacial abnormalities are reviewed. The expanding availability of craniofacial surgeons and surgical teams along with improved surgical results will ultimately require an increasing involvement by many more ophthalmologists in the evaluation and management of these congenital abnormalities.

Facial clefts

Facial clefts, including those of the lip and palate, are extremely rare. Some arise at the junction of facial processes preventing fusion, others have their origin in or between ossification centers. Virtually all are associated with osseous deficiencies. This article reviews the pathogenesis and morphology of these clefts. The principles of skeletal and soft tissue reconstruction are discussed and the experience of the authors with various new techniques is reported.

Correction of orbital hypertelorism in Asian patients

In this article, correction of orbital hypertelorism in Oriental patients is summarized. An orbital osteotomy is currently used to correct an abnormally wide interorbital distance. At present, associated deformities such as a short nose and a depression deformity in the temporal region following orbital osteotomy can be partially corrected. In Oriental patients, the Mongolian fold can be enhanced after correction of orbital hypertelorism. This fold can be easily corrected by epicantoplasty.

Advantages of an additional subcranial approach in the correction of craniofacial deformities

The subject of this paper are the advantages conferred by the subcranial and extracranial approach for the performance of fronto-orbital osteotomy and advancement. In contrast to the usual intracranial approach the resection of the ethmoidal and medial aspect of the orbital roof can be achieved by the subcranial and transethmoidal approach, thus avoiding any damage to the olfactory filaments. The resulting subcranial compartment, after radical resection of the ethmoidal cells, enables optimal visualization of the optic nerve and decompression from this access. Frontal lobe retraction is only necessary at the lateral fronto-temporal region in order to complete the lateral osteotomy. Thus the morbidity rate related to the intracranial procedure can be reduced. Further advantages are the watertight repair of the skull base with fascia lata and the drainage of the intercranial region avoiding the postoperative development of the Orbital Apex Syndrome.

Hypertelorism and the median cleft face syndrome. An embryological analysis

A microscopical study of the early and late development of the face was performed in 77 human embryos and fetuses. After the transformation of both nasal placodes, via nasal grooves, into the nasal tubes the ectoderm of the face is closed superficially and the early development of the face (less than or equal to 17 mm crown-rump length (C-RL)) is terminated. Between the nasal tubes the internasal groove is present. Furthermore these embryos show physiologically a flat nose and hypertelorism. During the late development (greater than or equal to 17 mm C-RL) of the face the internasal groove disappears due to the outgrowth and differentiation of the nasal septum in the frontocaudal direction. Simultaneously (17-27 mm C-RL) the distance between the eyes decreases relatively, because of a relative lag in transverse growth. The differentiation of the facial mesenchyme into bone centres starts in the same period. From this embryological point of view the major anomalies of the median cleft face syndrome (hypertelorism--orbital as well as interorbital--and cranium bifidum occultum, median cleft nose, median cleft prolabium and median cleft premaxilla), can be classified as secondary or late, i.e., differentiation, defects.