Resorbable Material for Pediatric Orbital Floor Reconstruction

Conceptual Principles in Pediatric Craniomaxillofacial Reconstruction

Pediatric craniomaxillofacial reconstruction must be approached through the lens of growth and durability. A systematic approach of matching defects to donor tissue drives the selection of autologous reconstructive technique. The menu of available methods for reconstruction can be organized in a manner similar to adults, with special considerations for growth and development. Reconstructive surgeons have the opprtunity to promote and maintain young patients' sense of identity during psychosocial development.

Pediatric Head and Neck Trauma

The pediatric patient population has unique anatomic characteristics that bring challenges and increased risk to management. The purpose of this article is to guide the head and neck trauma surgeon in decision making for the treatment of pediatric head and neck trauma with an emphasis on facial fracture management.

Pediatric Panfacial Fractures

Pediatric panfacial trauma is a rare occurrence with poorly understood implications for the growing child. Treatment algorithms largely mirror adult panfacial protocols with notable exceptions including augmented healing and remodeling capacities that favor nonoperative management, limited exposure to avoid disruption of osseous suture and synchondroses growth centers, and creative fracture fixation techniques in the setting of an immature craniomaxillofacial skeleton. The following article provides a review of our institutional philosophy in the management of these challenges injuries with important anatomic, epidemiologic, examination, sequencing, and postoperative considerations.

Pediatric orbital fractures

PURPOSE OF REVIEW

The aim of this study was to summarize current evidence on the clinical presentation, evaluation, and management of pediatric orbital fractures. Recent trends in management strategies as well as emerging surgical techniques for pediatric orbital fracture repair are presented.

RECENT FINDINGS

Although somewhat limited, growing bodies of evidence support a conservative approach with close follow up in pediatric orbital fractures. For those patients necessitating surgical repair, resorbable implants are increasingly preferred given their lack of donor site morbidity and a minimal impact on the developing craniofacial skeleton. There are emerging data reporting the use of three-dimensional (3D) printing-assisted approaches and intraoperative navigation; however, more research is needed to assess their applicability in the pediatric population.

SUMMARY

There are few studies with large patient cohorts and long-term follow up given the rare incidence of pediatric orbital fractures, which restricts the generalizability of research on the topic. The studies available increasingly suggest that fractures without clinical evidence of entrapment can be managed conservatively with close follow up. A variety of reconstructive implants are available for those fractures necessitating repair. Donor site morbidity, availability, and need for additional procedures should all be factored into the reconstructive decision-making process.

Bioresorbable Implants in Reduction of Paediatric Zygomaticomaxillary Complex Fractures Concurrent With Internal Orbital Reconstruction

PURPOSE

To evaluate the clinical effectiveness and safety of bioresorbable implants for treating paediatric zygomaticomaxillary complex (ZMC) fractures with concomitant orbital floor defects.

METHODS

A retrospective review of paediatric patients who underwent ZMC repair with concomitant orbital floor fractures with bioresorbable implants in Shanghai Ninth People's Hospital from July 2015 to June 2019 was performed. The primary outcome measures included ocular motility, diplopia, enophthalmos, facial deformities, and restricted mouth opening, as well as complication rates. Pre- and post-operative computed tomography scans were obtained for clinical diagnosis and surgical effectiveness.

RESULTS

Twenty two children were included in this study. Facial deformities were corrected in all 22 cases by surgical reconstruction postoperatively, and the average relative distance of Portals point-Zygomaxillare and Anteriornasalspine-Zygomaxillare were 1.3 ± 0.6mm ( P = 0.22) and 1.2 ± 0.5mm ( P = 0.19). The eye movement restored to normal in 13 patients. The mean amount of relative enophthalmos was 1.0 ± 0.4 mm ( P = 0.12). 12 cases had complete resolution of diplopia postoperatively at the extremes of the gaze, and 1 case presented persistent diplopia on the down gaze as before, but from level III to level I. Facial numbness was resolved completely in 6 cases, and 2 cases presented with persistent numbness but relieved significantly. The average Hounsfield units of RapidSorb plates and OrbFloor PI were 154 ± 5 and 99 ± 4 respectively on computed tomography image obtained 1 week postoperatively, which showed no obvious difference compared with 0.5 year postoperatively ( P > 0.1). Hounsfield units of implants gradually declined around 1 year postoperatively. Hounsfield units of RapidSorb plates (20 ± 1) were consistent with periorbital tissue during postoperative 2-year follow-up, and Hounsfield units of OrbFloor PI (19 ± 1) were consistent with periorbital tissue during postoperative 1.5-year follow-up. No patients had severe sequelae or implant related complications postoperatively. None of bone nonunion, malunion, infection or rejection occurred during the follow-up periods.

CONCLUSIONS

Open reduction and internal fixation for the treatment of ZMC fracture have achieved significant improvement in functional and cosmetic outcomes postoperatively. Bioresorbable materials have been proved to be effective and safe in the treatment of children's ZMC and orbital wall fractures.

Large Isolated Nasoorbital Type of Frontoethmoidal Encephalomeningocele: A Case Report With Long-Term Follow-up

ABSTRACT

Frontoethmoidal encephalomeningocele (FEEM) is a rare congenital craniofacial malformation with increased incidence in Southeast Asia, especially in Thailand. Because of its rarity, main treatment obstacles include the lack of surgical treatment techniques and long-term postoperative follow-up data. The authors present the case of a 9-month-old boy who was born with a large isolated nasoorbital type of FEEM, which had a pressure effect on his right eye, nose, and facial complex. Preoperative computed tomography of the facial bone was performed to evaluate the external bony defect. This study aims to present surgical correction of FEEM with Chula's technique and long-term 7-year postoperative follow-up including both clinical and imaging aspects.

Pediatric Facial Fractures

Facial trauma is common in the pediatric population with most cases involving the soft tissue or dentoalveolar structures. Although facial fractures are relatively rare in children compared with adults, they are often associated with severe injury and can cause significant morbidity and disability. Fractures of the pediatric craniomaxillofacial skeleton must be managed with consideration for psychosocial, anatomical, growth and functional differences compared with the adult population. Although conservative management is more common in children, displaced fractures that will not self-correct with compensatory growth require accurate and stable reduction to prevent fixed abnormalities in form and function.

Titanium Mesh versus Medpor Implant in Orbital Floor Reconstructions: A Comparative Study

Background:

Treating orbital injuries is interesting and difficult in the facial trauma. The balance in facial proportions and also the facial esthetics are required to achieve an anatomical harmony.

Objective:

To compare the functional results of individual reconstruction of orbital floor using either titanium mesh or Medpor in terms of various factors.

Materials and Methods:

There were two study groups including eight subjects with orbital floor fracture, namely A (Medpor) and B (titanium mesh). Various parameters were analyzed postoperatively at intervals of 1 week, 3 week, 6^th week, and 3 months after the surgery.

Statistical Analysis:

Comparison of the different time points with respect to pain scores in the two study groups by Wilcoxon matched pairs test was done. P value was significant in the study Group A with P = 0.0431* and was insignificant in the study Group B with P = 0.1088.

Results:

All three cases of titanium mesh in orbital floor reconstruction had signs of infection, tenderness, and radiographic proof after 1 week in two subjects and 3 weeks in one patient. Pain was seen in all eight patients 1 week postoperatively.

Conclusion:

Although orbital reconstruction is a technique sensitive procedure both Medpore and Titanium mesh functions.