[Children orbital floor fracture: retrospective study, about 34 cases]

Does Early Treatment of Paediatric Orbital Fracture Offer Any Advantage in Terms of Post-Operative Clinical Outcomes

Background

Trapdoor fractures commonly occur in children below 6 years of age. The high resiliency of bone, pneumatisation of sinuses and other factors lead to entrapment of muscle and/or soft tissue which undergoes ischaemic changes leading to residual diplopia. The timing of intervention in children ranges from 24 h to greater than 2 weeks. Early surgical intervention is particularly indicated in cases of Oculocardiac reflex.

Methods

A Prisma guided systematic review of literature was conducted with no filters on language till September 2020. Studies on paediatric orbital fractures with data on timing of intervention and clinical outcomes were considered eligible for the review. The Oxford Level Of Evidence was used to assess the strength of individual studies.

Results

A total of 19 studies (18 English, 1 French) were selected; except for one study all were retrospective series. The timing of intervention ranged from 24 h to more than 1 month. Most of the studies agreed that orbital fractures in children should receive early intervention preferably within 2 weeks. In case of white-eyed blowout fracture, oculocardiac reflex and trapdoor fractures with muscle entrapment surgical intervention should be carried out within 24-48 h.

Discussion

Children presenting with facial injuries should be thoroughly examined for signs of muscle entrapment, diplopia, nausea, vomiting and bradycardia. If present these should receive early intervention. In cases with no signs of oculocardiac reflex and muscle entrapment a treatment within 2 weeks is recommended. If diplopia is mild or resolving with minimal hypoglobus and enophthalmos a wait and watch policy should be carried out.

Resorbable Material for Pediatric Orbital Floor Reconstruction

INTRODUCTION

The use of resorbable materials is becoming more popular for pediatric orbital floor reconstruction. The purpose of this systematic review is to evaluate the effectiveness and safety of the various materials used in pediatric orbital floor reconstruction.

METHODS

A systematic literature search was performed to identify all relevant articles reporting complications following pediatric orbital floor reconstruction. The search included published articles in three electronic databases-Ovid MEDLINE, EMBASE, and PubMed starting from database establishment to July 2017. Primary endpoints were enophthalmos, diplopia, and infection. Resorbable material was compared to autologous grafts and nonresorbable material.

RESULTS

A total of 14 studies containing 248 patients were included in this review. Fifty-four (21.8%) patients had reconstruction performed with autologous grafts, 72 (29.0%) patients with resorbable material, and 122 (49.2%) patients with nonresorbable material. Resorbable materials had the lowest rate of postoperative enophthalmos (3/52; 5.8%) and the highest rate of postoperative diplopia (19/72; 26.4%). In contrast, nonresorbable materials had the lowest rate of postoperative diplopia (5/122; 4.1%), the highest rate of postoperative enophthalmos (14/102; 13.7%). Autologous reconstruction was associated with an 11.1% (4/36) rate of postoperative enophthalmos and a 22.2% (12/54) rate of postoperative diplopia. Nine cases (8.8%) of postoperative infection were documented with nonresorbable materials. No cases of infection were reported with autologous grafts or resorbable materials.

CONCLUSION

Newer resorbable implants are safe and have a similar complication profile as traditional autologous grafts in pediatric orbital floor reconstruction.

[Facial trauma and injury in children]

Facial traumas are common in children but often unconsidered. Facial injury is responsible of impressive bleeding because of the rich vascularization of the face; this bleeding is often underestimated because of the immediate arterial vasoconstriction that is very strong for children. The blood volume is 80ml/kg for a newborn, with a total of 250ml, reaching 70ml/kg at one year of age. The evaluation must be rigorously performed due to the risk of a sudden decompensation. Regarding the wounds, the primary repair must be performed directly neat or optimal in case of damaged tissues. The rule is to keep maximum of the integrity and to limit debridement. Careful repair often requires general anesthesia, especially in young children, to facilitate a perfect joining of the edges and of the mucocutaneous lines. Losses of substance should be treated by directed cicatrization. Flaps are never performed in children as a first intention for reasons developed below. Given the elasticity of the facial skeleton, fractures require a brutal shock to occur, but the clinical signs can be misleading. For instance, too specific and sometimes ignored, fractures can show weakly symptomatic signs : the fractures of the condylar and the orbital floor, with their respective complication that are temporomandibular bone ankylosis and definitive diplopia. Possible children abuse should be suspected in case of different age lesions and discrepancies between the told story and types of injuries. Once the vital urgency is eliminated, the orbital emergency should be first considered in facial traumas within the ophthalmology specialty because wounds and contusions of the globe are often under-evaluated and threaten the vision. The second emergency is the orbital floor fracture in its 'trapdoor' type, specific to the child. Combined with a motionless eye and uncontrollable vomiting, this is the second true urgency because it involves the prognosis of the oculomotricity and requires emergency surgery. Finally, dental trauma should not be overlooked because of their functional and aesthetic consequences. Primary cicatrization is usually rapid but scars remain inflammatory during a long time. The risk of hypertrophy exists in case of contusions and lacerations associated with wounds but also during puberty and in some locations. Age interfere with the result because growth will either improve or worsen the initial result, depending on the location and mechanism. The secondary specialized and prolonged managing and monitoring is capital on the functional, aesthetic and psychological points of view.