Titanium Mesh Shaping and Fixation for the Treatment of Comminuted Mandibular Fractures

Versatility of Titanium Mesh in Comminuted Maxillofacial Fractures. A Retrospective Study

Background

Titanium mesh provides three-dimensional stability, it is easier and quick in placement, highly malleable and adaptable hence, proved to be worth in restoring the function and form in cases of comminuted maxillofacial fractures.

Materials and Methods

A total of 12 patients were included in this retrospective study at Department of Oral and maxillofacial surgery, Sri Rajiv Gandhi College of Dental Science and Hospital, from December 2015 to June 2020. Out of 12 patients, 7 reported with frontal bone fracture and 5 reported with mandibular fracture. Patients were followed up for upto 18 months to evaluate efficacy of titanium mesh on postoperative long-term healing, aesthetic outcomes and return to normal function were evaluated.

Results

The results have shown that titanium mesh has low complication rates and the ability to maintain occlusion and chewing postoperatively. Union occurred without complication in 90% of fractures, and patients treated for frontal bone fracture had excellent cosmetic results.

Conclusion

The semi rigid nature of the titanium mesh fixation allows micro movement at the healing bone ends, reduces stress shielding effect which may improve functional bone healing. Bony continuity of the mandible can be restored providing three-dimensional morphology and stability. The versatile placement of screws is the principal advantage.

Management of Comminuted Fracture of Mandible Using Titanium Mesh

Comminuted mandibular fractures are common following a high-velocity injury to the face and jaws. The inherent nature of injury and damage to the underlying hard and soft tissues often complicate the management of comminuted fractures. Traditionally, comminuted fractures were managed by closed reduction and external skeletal fixation. Titanium mesh serves as an excellent alternative in the management of comminuted mandibular fractures. The present case report presents the successful management of comminuted mandibular fractures using titanium mesh.

Advanced Hydrogel systems for mandibular reconstruction

Mandibular defect becomes a prevalent maxillofacial disease resulting in mandibular dysfunctions and huge psychological burdens to the patients. Considering the routine presence of oral contaminations and aesthetic restoration of facial structures, the current clinical treatments are however limited, incapable to reconstruct the structural integrity and regeneration, spurring the need for cost-effective mandibular tissue engineering. Hydrogel systems possess great merit for mandibular reconstruction with precise involvement of cells and bioactive factors. In this review, current clinical treatments and distinct mode(s) of mandible formation and pathological resorption are summarized, followed by a review of hydrogel-related mandibular tissue engineering, and an update on the advanced fabrication of hydrogels with improved mechanical property, antibacterial ability, injectable form, and 3D bioprinted hydrogel constructs. The exploration of advanced hydrogel systems will lay down a solid foundation for a bright future with more biocompatible, effective, and personalized treatment in mandibular reconstruction.

OCCS Classification and Treatment Algorithm for Comminuted Mandibular Fractures Based on 109 Patients and 11 Years Experiences: A Retrospective Study

Comminuted mandibular fractures (CMFs) pose significant challenges to surgeons for their serious complications and poor outcomes. We aimed at proposing a classification with treatment algorithm of each category for CMFs. Patients with CMFs were retrospectively reviewed and classified into five categories: Type I: relatively good occlusion, no or slightly displaced fragments, no continuity destruction or bone defect; Type II: relatively good occlusion, damaged morphology, low comminution degree but intact continuity without bone defect; Type III: damaged morphology and higher comminution degree with intact continuity and relatively good occlusion; Type IV: high comminution, impaired continuity and poor occlusion without segmental bone defect; Type V: segmental bone defect. Conservative treatment, open reduction and internal fixation or microvascular osteocutaneous free flap transplantation was performed, accordingly. Demographics, perioperative data, complications and reasons for reoperations were recorded. The chi-square test was used for statistical analysis. In total, 109 patients were included in the study. After surgery, in the following group, 5 manifested infections, 1 manifested bone non-union, and 2 experienced reoperations, while in the unfollowing group, 10 manifested infections, 5 manifested bone non-union and 8 experienced reoperations. The OCCS classification and algorithm for CMFs achieve better outcomes and with lower complication rate.

THE RELATIONSHIP OF CLINICAL AND MORPHOLOGICAL DATA IN COMMINUTED FRACTURES OF THE LOWER JAW

OBJECTIVE

The aim is to establish the relationship between some clinical, physiological and morphological parameters in patients with the consequences of an acute injury considering the features of pathological and reparative changes in the bone fragments of the lower jaw formed during a fracture using clinical and morphological methods.

PATIENTS AND METHODS

Materials and methods: The material of the study was bone fragments of the lower jaw, removed during osteosynthesis operations in 20 patients with traumatic comminuted fractures. Also, the material of the study was the data obtained during the examination of the above patients. Morphological parameters characterizing the state of the fragments tissues removed during surgical treatment of fractures of the lower jaw and clinical parameters characterizing the patient's condition in cases of traumatic fractures of the lower jaw treatment were identified for frequency and correlation analysis. Different of frequency of individual indicators' gradations cases was determined by the χ-square test, correlations between parameters (correlations of pairs of parameters "clinic - morphology", "clinical and laboratory data - morphology") - by calculating the Pearson association coefficient.

RESULTS

Results: The main pathological and reparative changes are determined in the bone fragments of the lower jaw after a traumatic fracture: osteomedullary ischemic necrosis (traumatic bone infarction), nonspecific productive inflammation, endosteal and periosteal bone regenerates. The severity and frequency of pathological and reparative changes in the bone fragments of the lower jaw vary, leading to various correlations between clinical and morphological indicators of the fragment tissues conditions. Reliable correlations were established between individual clinical and morphological indicators of the state of bone fragments corresponding to the values of the association coefficient in the range of 0.3-0.7, in particular: in the pair "age of the patient" - "endosteal regenerates" - the dependence is negative, of medium strength, significant (p<0.05); in the pair "age of the patient" - "periosteal regenerates" - the dependence is negative, of medium strength, significant (p<0.05); in the pair "fragment surface area" - "osteonecrosis" - the relationship is negative, weak, significant with the probability of error in assessing the value |ra| p<0.1; in the pair "locus of a fracture in the lower jaw" - "type of inflammation in the bone marrow" - the dependence is positive, of medium strength, highly reliable (p<0.01).

CONCLUSION

Conclusions: A comprehensive clinical and morphological examination made it possible to calculate quantitative data that characterize the frequency parameters of the occur¬rence of certain pathological changes in the bone fragments of the lower jaw after a fracture and the features of individual clinical and morphological parameters conjugation in patients with the consequences of a mechanical jaw injury. The obtained data on the correlation dependences of the type "clinic - morphology" can be used to predict the severity of morphological parameters according to the known values of clinical parameters in patients with the consequences of mandibular fractures.

A Novel Design of Temporomandibular Joint Prosthesis for Lateral Pterygoid Muscle Attachment: A Preliminary Study

Introduction: In temporomandibular joint (TMJ) replacement operation, due to the condylectomy, the lateral pterygoid muscle (LPM) lost attachment and had impact on the mandible kinematic function. This study aimed to design a novel TMJ replacement prosthesis for LPM attachment and to verify its feasibility by preliminary in vitro and in vivo experiments.

Materials and Methods: An artificial TMJ prosthesis designed with a porous structure on the condylar neck region for LPM attachment was fabricated by a 3D printed titanium (Ti) alloy. A rat myoblast cell line (L6) was tested for adhesion and biocompatibility with porous titanium scaffolds in vitro by cell counting Kit-8 (CCK-8), scanning electron microscope (SEM), flow cytometry (FCM), real-time quantitative polymerase chain reaction (RT-qPCR), immunocytofluorescense, western blotting, etc. The porous titanium scaffolds were further embedded in the rat intervertebral muscle to analyze muscle growth and biomechanical strength in vivo. The novel artificial TMJ prosthesis was implanted to reconstruct the goat's condyle and LPM reattachment was analyzed by hard tissue section and avulsion force test.

Results: L6 muscle cells showed good proliferation potential on the porous Ti scaffold under SEM scanning and FCM test. In RT-qPCR, immunocytofluorescense and western blotting tests, the L6 cell lines had good myogenic capacity when cultured on the scaffold with high expression of factors such as Myod1 and myoglobin, etc. In the in vivo experiment, muscles penetrated into the porous scaffold in both rats and goats. In rat's intervertebral muscle implantation, the avulsion force was 0.716 N/mm² in 4 weeks after operation and was significantly increased to 0.801 N/mm² at 8 weeks (p < 0.05). In goat condylar reconstruction with the porous scaffold prosthesis, muscles attached to the prosthesis with the avulsion force of 0.436 N/mm² at 8 weeks, but was smaller than the biological muscle-bone attachment force.

Conclusion: The novel designed TMJ prosthesis can help LPM attach to its porous titanium scaffold structure area for future function.

Open Reduction and Internal Fixation Strategy For Treatment of Comminuted Mandibular Fracture

PURPOSE

The aim of this study was to evaluate the treatment strategy of open reduction and internal fixation (ORIF) for comminuted mandibular fracture (CMF).

METHODS

Clinical studies about CMF were collected. Detailed information was extracted, and data were analyzed and merged from included articles.

RESULTS

Twelve studies, including 338 patients with CMF, were reported. A total of 256 patients receive ORIF among these 338 patients, and exhibited followed characteristics: ORIF usually were performed several days after injury; the extraoral approach for ORIF was used for 103 patients among 205 patients who received ORIF with definite information about surgical approach; titanium mesh, or reconstruction plate, combined with mini-plates was used in 17 and 194 patients, respectively; intermaxillary fixation (IMF) usually persisted about 1 to 3 weeks after ORIF; most patients exhibited satisfactory effect without serious complications, and the complication rate varied from 0 to 42%.

CONCLUSIONS

ORIF strategy for treatment of CMF including: ORIF was a priority choice for CMF. ORIF usually was performed at several days after injury. Reconstruction plate, or titanium mesh, combined with mini-plates was recommended for ORIF surgery. After ORIF, IMF usually was recommended for about 1 to 3 weeks.

Efficacy of Titanium Mesh Osteosynthesis in Maxillofacial Fractures

Introduction

Trauma is steadily increasing in the modern world and thus becoming a major public problem. Maxillofacial injuries constitute a substantial proportion of cases of trauma and occur in a variety of situations like road traffic accidents, interpersonal violence, falls or as a result of contact sports. The aim of this prospective study was to evaluate the efficacy of titanium mesh for osteosynthesis of maxillofacial fractures.

Materials and Methods

Fifteen patients of maxillofacial fractures who were treated with titanium mesh were included in this prospective study. The patients were evaluated preoperatively, intraoperatively and postoperatively at 7th day, 3rd week, 6th week and 12th week.

Results

The mean age of fifteen patients was 31.3 years with a male:female ratio of 14:1. The most common mode of injury was road traffic accident (86.6%). The mean time interval between injury and surgical procedure was found to be 7.6 days. The majority of fracture sites (88%) were comminuted. 93.3% of the patients achieved good occlusion by 12th week postoperatively. Postoperative complications included residual hypoaesthesia in four patients and wound dehiscence in one patient.

Conclusion

We conclude that titanium mesh is a versatile option for maxillofacial fractures. It provided good stabilization especially in comminuted fractures. As a fixation method, it was quick in placement and highly adaptable, and thus, it proved to be valuable in restoring the form and function in maxillofacial trauma patients.

The use of 3D-printed titanium mesh tray in treating complex comminuted mandibular fractures: A case report

RATIONALE

Precise bony reduction and reconstruction of optimal contour in treating comminuted mandibular fractures is very difficult using traditional techniques and devices. The aim of this report is to introduce our experiences in using virtual surgery and three-dimensional (3D) printing technique in treating this clinical challenge.

PATIENT CONCERNS

A 26-year-old man presented with severe trauma in the maxillofacial area due to fall from height.

DIAGNOSIS

Computed tomography images revealed middle face fractures and comminuted mandibular fracture including bilateral condyles.

INTERVENTIONS AND OUTCOMES

The computed tomography data was used to construct the 3D cranio-maxillofacial models; then the displaced bone fragments were virtually reduced. On the basis of the finalized model, a customized titanium mesh tray was designed and fabricated using selective laser melting technology. During the surgery, a submandibular approach was adopted to repair the mandibular fracture. The reduction and fixation were performed according to preoperative plan, the bone defects in the mental area were reconstructed with iliac bone graft. The 3D-printed mesh tray served as an intraoperative template and carrier of bone graft. The healing process was uneventful, and the patient was satisfied with the mandible contour.

LESSONS

Virtual surgical planning combined with 3D printing technology enables surgeon to visualize the reduction process preoperatively and guide intraoperative reduction, making the reduction less time consuming and more precise. 3D-printed titanium mesh tray can provide more satisfactory esthetic outcomes in treating complex comminuted mandibular fractures.