Extracapsular Condylar Fractures Research Articles

Evaluation of the Efficacy of Three Times Titanium Plate Gradual Fixation Method in the Treatment of Extracapsular Condylar Fractures.

An improved method of treating inwardly dislocated mandibular extracapsular condylar fracture-three times titanium plate gradual fixation method was introduced, and the clinical efficacy of this method was evaluated. Twenty patients with extracapsular condylar fractures who underwent surgical treatment using the three times titanium plate gradual restoration and fixation method in the Department of Oral Craniomaxillofacial Surgery of the Ninth People's Hospital of Shanghai from November 2020 to June 2023 were selected as the study subjects. After condylar restoration 22 sides reached healing and 1 side was basically healed; in 3 months after the operation, the degree of opening the mouth and the type of the opening of the mouth reached normal, and 1 case had mildly poor occlusion, which required to be further adjusted through orthodontics, and there was no temporomandibular function disorder or facial nerve function damage. Three times of gradual fixation with a titanium plate can make the condylar process achieve precise and stable repositioning, and make the surgical process orderly, and it is a kind of reliable fixation method for extracapsular condylar fractures.

Patient's Perception of Outcome after Extracapsular Fractures of the Mandibular Condyle Differs from Objective Evaluation-Experience of a Third-Level Hospital.

Background: The aim of this study is to assess patients' subjective perception of treatment outcome after extracapsular fractures of the mandibular condyle. Methods: A questionnaire survey regarding facial nerve palsy (FNP), malocclusion, pain, reduction in maximum mouth opening (MMO) and further discomfort after 3, 6, and 12 months was carried out. Patients aged 18 or more presenting with an extracapsular condylar fracture between 2006 and 2020 were identified by purposive sampling Questionnaires were received from 115 patients. Fractures were classified on the basis of the pre-treatment imaging, the way of treatment was obtained from patients' medical records. Data were analyzed using Pearsons' chi-square-test, descriptive statistics and Student's t-test. Results: 93.0% of the fractures were treated by open reduction and internal fixation (ORIF). MMO reduction was the most common post-treatment complication (55.6%). ORIF was associated with less pain after 3 months (p = 0.048) and lower VAS scores compared to conservative treatment (p = 0.039). Comminuted fractures were more frequently associated with post-treatment malocclusion (p = 0.048), FNP (p = 0.016) and MMO reduction (p = 0.001). Bilateral fractures were significantly accompanied by malocclusion (p = 0.029), MMO reduction (p = 0.038) and pain occurrence (p < 0.001). Conclusions: Patients report less pain after ORIF. Comminuted and bilateral fractures seem to be major risk factors for complications. Subjective perception of complications after extracapsular condylar fractures differs from objectively assessed data.

How good is good enough? Lessons learned from review of outcomes of 50 patients following extraoral open reduction and internal fixation of condylar neck and base fractures at a regional major trauma centre

The management of mandibular fractures is routine owing to their frequency, particularly those of the mandibular condyle, which are invariably common. Notwithstanding disparities in the literature, the international consensus towards which fractures of the mandibular condyle benefit from open surgical intervention is almost universally accepted. Closed reduction or non-operative management may be utilised in certain circumstances. Whilst outcome research has addressed complications with respect to operative side effects, outcomes related to the quality of bone repair and the setting in which this is delivered have not been universally addressed. The aim of this study was to determine the predictability of translating an indicated operative treatment plan into an acceptable functional result. We evaluated the outcomes of 59 extracapsular condylar fractures in 50 patients who were treated by extraoral open reduction and internal fixation (ORIF) between March 2021 and August 2022. We reviewed demographic data, surgical approach, and plating strategy, and critically evaluated the clinical and radiological outcomes. Whilst we found that the quality of reduction was not universally perfect, the majority were within tolerance, which we set according to the Strasbourg Osteosynthesis Research Group (SORG) definition for minimal displacement (<2 mm overlap and 10° angulation). The cohort had good functional occlusion and minimal long-term postoperative complications. Two patients required re-operation for non-union, and we discuss causality in these cases. In conclusion, we found that ORIF of condylar neck and base fractures is predictable in real-time surgical practice with respect to functional outcome. However, if imperfectly reduced, there is a small risk of non-union.

The “low preauricular” transmasseteric anteroparotid (TMAP) technique as a standard way to treat extracapsular condylar fractures

Condylar fracture treatment is a debated topic among maxillofacial surgeons. Various surgical techniques are used today, each one with advantages and disadvantages. The aim of this study is to present and evaluate our technique adopted for treatment of any type of extracapsular condylar fractures.Between 2020 and 2022, 16 condylar fractures were treated. In two patients with bilateral condylar fractures, the present technique was compared to the mini-retromandibular approach. All the patients were checked for clinical and radiological outcomes, facial nerve injury, scar visibility and presence of salivary complications.Dental occlusion was always restored, and facial nerve damage or salivary disorders were not observed. The skin incision, limited to the caudal two-thirds of the auricle, made the scar almost invisible and greatly improved the surgical field in the condylar neck area, facilitating the treatment.The proposed technique provides easier internal fixation for both neck and base condylar fractures with good cosmetic results, ensuring better protection of the facial nerve and parotid gland.The surgical technique described has not shown disadvantages in terms of operational difficulty, results, and complications. This novel surgical technique could represent a new choice in the treatment of extracapsular condylar fractures, although further studies are needed to support this new proposal.

A novel ultrasound-guided minimally invasive technique for the treatment of extracapsular condylar fractures

The aim of this study was to present a novel ultrasound-guided minimally invasive technique for the treatment of extracapsular condylar fractures and evaluate its long-term outcomes.Seven patients with isolated extracapsular condylar fractures with a noncomminuted proximal segment were included in this study. Ultrasound was used for identification of the position of the bone segments and intraoperative confirmation of appropriate reduction. Reduction of the displaced segments was performed using threaded K-wires under ultrasonographic visualization. The bone segments were stabilized using an adjustable modified external fixator designed by us, which allows manipulation of the segments in three planes intraoperatively and postoperatively, if needed. The functional outcomes of patients were evaluated. Patients treated with ultrasound-guided percutaneous reduction and external fixation achieved normal occlusion with satisfactory mouth opening (>35 mm) and had no pain during mandibular movements at long-term follow-up. None of the patients had any signs of facial nerve injury.Within the limitations of the study it seems that the poposed approch might be an alternative to the open approach in selected cases.

Endoscopic assisted management of mandibular extracapsular condylar fractures: A prospective randomized controlled study

Endoscopic assisted management of mandibular extracapsular condylar fractures: A prospective randomized controlled study

Restoration of Ramus Height in Child Patients With Extracapsular Condylar Fractures: Is This Mission Almost Impossible to Accomplish?

This study aimed to assess whether ramus height is restored in children with extracapsular condylar fractures treated by conservative or surgery procedures. The sample consisted of 35 children (collected consecutively) less than 12 years old who presented with extracapsular condylar fractures and treated within an 8-year period (June 2011 to April 2019). Data on the age, gender, date of injury, mechanism of trauma, location and pattern of mandibular condylar fracture, associated injuries and treatment methods were recorded and analyzed. Ramus height restoration is the main evaluation indicator during the follow-up period. Within the 8-year record retrieval, the 35 children sustained 41 extracapsular condylar fractures. For the sample size, 10 (24.4%) and 31 (75.6%) had condylar neck and base fractures, respectively. Deviation and green-stick fracture were the predominant types in condylar neck and base fractures, accounting for more than 3 quarters (31, 75.6%). The majority (33, 80.5%) of patients were treated with nonsurgical treatment, and 8 (19.5%) were treated by open reduction and internal fixation (ORIF). During the follow-up period (1-1419 days, average time of 110.6 days), only 1 patient (with bilateral extracapsular condylar fractures) had their ramus height restored (follow-up period, 256 days). Most members of the ORIF group (5 of 8, 62.5%) postoperatively showed bended ramus (deviated angularly/fragment angulation). Conservative treatment could hardly restore the ramus height of children with extracapsular condylar fractures. Anatomically or totally restoring the ramus height is difficult even with the surgical treatment of ORIF; however, surgical treatment of ORIF can substantially restore the ramus height for dislocated fractures or seriously displaced fractures.

Extracapsular Condylar Fractures Treated Conservatively in Children: Mechanism of Bone Remodelling.

This study aims to reveal the reconstruction process in pediatric patients with extracapsular condylar fractures after conservative treatment. We clarify that the "upright" position (or "recontouring" or favorable prognosis) of condyles is not a result of the anatomical reduction of the deviated condylar processes but originates from the remodeling of the skeleton. We also explore the related mechanism. The sample consisted of 27 pediatric patients aged less than 12 years who presented with extracapsular condylar fractures and were treated conservatively within an 8-year period (June 2011-April 2019). Data on the age, gender, date of injury, mechanism of trauma, location and pattern of mandibular condylar fracture and associated injuries and treatment methods of the patients were obtained. The process of bone remodeling in condyles was also recorded and analyzed. The 27 children in this study sustained 33 extracapsular condylar fractures over the 8-year period of record retrieval. Amongst these fractures, 8 (24.2%) and 25 (75.8%) were condylar neck and condylar base fractures, respectively. Deviation and green-stick fractures were the predominant types and accounted for over 3 quarters of the condylar neck and base fractures (28, 84.8%), followed by dislocation fracture (3, 9.1%), displacement fracture (1, 3.0%), and non-displaced fracture (1, 3.0%). The period of follow-up ranged from 2 days to 257 days (average, 58.78 days). Only 1 patient with bilateral extracapsular condylar fractures showed vertically reconstructed condyles, which indicates an upright position of the condylar processes. One patient showed less angulation after treatment than before treatment, 1 patient revealed greater angulation after treatment than before treatment and all other patients (20 patients) showed the same angulation pre- and post-treatment. Both patients with only extracapsular condylar fractures showed no obvious deviations in dentition and facial asymmetry after their injury and treatment. The shortest and longest times observed for bone remodeling were 33 and 256 days, respectively. Children whose condylar head remained completely or at least partly inside the glenoid fossa showed satisfactory remodeling results during follow-up. Computed tomography scan during follow-up generally showed bone regeneration in the lateral condyle articular surface and the medial portion of the ascending ramus and bone resorption in the displaced direction (ie, the medial condyle head became sharp). Condylar heads displaced completely outside of the glenoid fossa showed serious shortening of the ascending ramus, and no obvious bone remodeling was observed. Only 1 patient with bilateral extracapsular condylar fractures showed a normal contour (ie, a vertically reconstructed condyle reflecting the upright position of the condylar processes) after 8 months. Stress stimulation originating from the glenoid fossa and ascending ramus of the mandible is a prerequisite for good condylar reconstruction. Conservative treatment could be carried out if the condylar head remains completely or at least partly inside the glenoid fossa. When the condylar head is dislocated completely outside the glenoid fossa, the glenoid-condylar relationship ceases to exist, joint function is lost and the height of the ascending ramus is significantly reduced. In this case, open reduction may be suitable.

Optimising the management of concurrent symphyseal/parasymphyseal and bilateral extracapsular condylar fractures using three-dimensional printing.

Three-dimensional (3D) printing plays an important role in the diagnosis and treatment planning of many elective procedures in oral and maxillofacial surgery (OMFS). 3D printers and the associated print materials are now within the price range of most maxillofacial units, requiring less work to be sent out to commercial printers. Whilst their use in the planning of elective procedures is commonplace, acute trauma is an area where 3D printing remains underutilised. The successful management of complex fracture patterns such as concomitant symphyseal/parasymphyseal and bilateral condylar fractures often warrants this approach. Freeware digital processing and manipulation software packages were used to view and segment structures from computed tomography (CT) data. Thereafter, fractures were digitally reduced. 3D printed models were produced from the digitally reduced models, allowing preoperative custom adaptation of osteosynthesis plates, facilitating accurate fracture fixation intraoperatively. For less than one hundred pounds sterling (STG), a 3D printer (with print material) capable of producing a model of sufficient quality can be purchased. The use of freeware digital processing software allows digital manipulation of CT data. Production of 3D models and plate adaptation can be carried out within hours after CT examination. The construction of digitally reduced 3D models and custom adapted plates enables the surgeon to achieve accurate fixation of complex fracture patterns in theatre which is clearly of benefit to patients. The potential for reduced theatre time also renders this approach more desirable, making this a worthwhile investment despite the additional non-clinical time associated with training and initial expenditure.

Establishing a Protocol for Closed Treatment of Mandibular Condyle Fractures with Dynamic Elastic Therapy

Treatment of mandibular condyle fractures is controversial. Open treatment achieves anatomic reduction with occlusal stability and faster functional recovery but risks facial nerve injury and jeopardizes joint capsule circulation which can lead to bone resorption. Traditional closed treatment avoids these issues but requires prolonged fixation and risks subsequent facial asymmetry, occlusal disturbance, and ankylosis. Rather than wires, closed treatment with elastics allows for customizable management of a healing fracture with ability to alter vector and degree of traction to restore vertical height and occlusion with less discomfort and decreased risk for ankylosis. In this protocol, unilateral condylar fractures were treated with class II elastics ipsilateral to injury and class I contralaterally. Class III elastics were used contralaterally if additional traction was required and Class II elastics were placed bilaterally for bilateral fractures. Patients were sequentially advanced from fixating to guiding to supportive elastics by titrating elastic vector to any dental midline incongruency or chin deviation. Six patients were treated with this protocol with six-month follow-up. Fracture patterns included displaced and dislocated fractures as well as intracapsular and extracapsular condylar fractures. All patients at completion of the protocol had objective centric occlusion with no subjective malocclusion, chin deviation, facial asymmetry, or temporomandibular joint pain. These early data demonstrate a safe and efficacious innovative protocol for closed treatment of mandibular condylar fractures with dynamic elastic therapy.

Open versus closed treatment for unilateral mandibular extra-capsular condylar fractures: A meta-analysis

PurposeTo compare the functional outcomes between open reduction and internal fixation (ORIF) and closed reduction (CR) for unilateral mandibular extra-capsular condylar fractures in patients over 12 years old. Materials and methodsA comprehensive electronic search of PubMed, Embase and the Cochrane Library databases was conducted up to October 31, 2018. The evaluated functional outcomes included malocclusion, temporomandibular joint (TMJ) pain, protrusion, laterotrusion, maximum inter-incisal opening and lateral deviation during maximum inter-incisal opening. ResultsFourteen studies appeared to meet the inclusion criteria. Statistically significant differences between ORIF and CR treatment were observed for the outcomes of malocclusion (P = 0.001), maximum inter-incisal opening (P = 0.0008), lateral deviation during maximum inter-incisal opening (P = 0.007) and laterotrusion (P < 0.0001), but not for the outcomes of protrusion (P = 0.33) and TMJ pain (P = 0.29). ConclusionsORIF treatment of unilateral mandibular extra-capsular condylar fractures provides better functional outcomes in comparison to CR treatment with regard to occlusion, maximum inter-incisal opening, lateral deviation during maximum inter-incisal opening and laterotrusion, whereas there was no statistically significant difference between ORIF and CR group with regard to protrusion and TMJ pain.

Surgical Treatment for Extracapsular Condylar Fractures of the Mandible.

Condylar fractures are considered the most controversial mandibular fractures, regarding both the diagnosis and the treatment. With the increase in surgical indications for handling this type of fracture, it is important to discuss about the advantages and disadvantages of the several surgical approaches available. This article describes the surgical details and postoperative results of the mini-retromandibular transparotid approach for treating extracapsular condylar fractures of the mandible. In a 1-year period, 16 patients affected by extracapsular condylar fractures with surgical indication were treated with the mini-retromandibular transparotid approach. All the surgeries were executed by the same surgeon. Preoperative and postoperative details of each patient were analyzed. In the postoperatory, only 2 patients had purulent drainage in the associated fractures area and only 1 patient had paresis of the buccal branch of the facial nerve. No scar issues concerning the surgical wound were observed and reintervention was not necessary in any of the patients. The mini-retromandibular transparotid approach offers advantages and should be included as an option for the open treatment of extracapsular condylar fractures of the mandible.

Extracapsular Mandibular Condyle Fractures Are Associated with Severe Blunt Internal Carotid Artery Injury

Mandibular condyle fractures are common following facial trauma and carry an increased risk for concomitant blunt carotid artery injuries. Further elucidation of this relationship may improve vascular injury screening and management. A retrospective cohort study was performed for all patients sustaining condylar fractures presenting to a large trauma center over twelve years. Fracture locations were classified according to the Strasbourg Osteosynthesis Research Group (1, condylar head; 2, condylar neck; and 3, extracapsular condylar base). Carotid artery injury severity was based on the Biffl scale. Severe vascular injury was defined as a Biffl score greater than I. 605 patients were identified with mandibular condyle fractures consisting of 21.0 percent (n = 127) condylar head; 26.8 percent (n = 162) condylar neck; and 52.2 percent (n = 316) extracapsular condylar base. The incidence of vascular injuries in this population was 5.5 percent (n = 33), of which 75.8 percent (n = 25) were severe. Severe vascular injuries occurred in 1.6 percent (n = 2) of condylar head, 2.5 percent (n = 4) of condylar neck, and 6.0 percent (n = 19) of extracapsular condylar base fractures (p < 0.05). Extracapsular condylar base fractures were independently associated with a 2.94-fold increased risk of a severe blunt carotid artery injury compared with other condyle fractures on multivariable analysis (p < 0.05). Extracapsular subcondylar fractures should heighten suspicion for concomitant blunt carotid artery injury. The data support a force transmission mechanism of injury in addition to direct injury from bony fragments. Risk, II.

Surgical evolution in the treatment of mandibular condyle fractures.

BackgroundIn Literature fractures of the mandible that involve the condyle ranges from 20% to 35% and various possible surgical options are described according to the varying pathological situations. Up to the present, numerous techniques have been used for the surgical treatment of condylar fractures. In this article we are proposing the combination of two surgical techniques as therapy for extra-capsular condylar fractures with dislocation.MethodsFrom June 2003 to July 2007 30 patients were treated for condylar fractures with the application of a Rigid External Fixator under endoscopic assistance. This method includes a surgical reduction of the fracture with the aid of an endoscope, performing a transcutaneous insertion of a Rigid External Fixator to stabilize the fracture.ResultsOut of the total number of patients, 28 reached an optimal result without the need for temporary immobilization of the temporal mandibular joint and pre-auricular cutaneous access, thanks to the decisive aid of the video-endoscope.ConclusionsThe endoscope allows perfect control over both the positioning of the external fixator and the surgical reduction, restoring the normal movement of the mandible with a return to full anatomical functioning of the temporo-mandibular joint. This approach avoids possible damages to the facial nerve branches. The rigid external fixation system is better than an internal one, because it is less restrictive in precise anatomical reduction, since with an REF the condylar fragment is kept in the correct anatomical position but is not obliged to maintain that exact position, and therefore it is possible to carry out all the repair mechanisms listed above. Endoscopic assistance allows a good positioning control of the REF although the endoscopy permits an optimal control of the condylemeniscal complex mobility after REF application.

Retromandibular transparotid approach to mandibular subcondylar and high ramus fractures: two-point fixation.

Although the fractures of the mandibular condylar region are very common, the controversies about the treatment of this area is still ongoing. In recent years, general agreement has emerged that open treatment is more effective than closed approaches for extracapsular condylar fractures. However, this time, the method of surgical approach has become controversial. The aim of this study was to evaluate the effectiveness of the retromandibular transparotid approach for the fixation of subcondylar/high ramus mandible fractures. Subcondylar/high ramus mandible fractures were operated via the retromandibular transparotid approach with a two-point fixation in 24 patients. The patients were evaluated for bleeding during the operation and for hematoma, infection, Frey's syndrome, salivary fistula, facial nerve damage, occlusion, fracture site stability, chronic pain in the fracture site, hypoesthesia of the ear, and temporomandibular (TME) joint movements in the postoperative period. Only one major complication was encountered in one (4.1%) patient, which was damage to the temporal branch of the facial nerve. The retromandibular transparotid approach appears to be a safe and effective method for the internal fixation of extracapsular condylar fractures.

Extraoral approach to mandibular condylar fractures: Our experience with 100 cases

IntroductionMandibular condylar fractures are very common. The current literature contains many indications and methods of treatment. Extraoral approaches are complicated by the need to avoid injury to the facial nerve. On the other hand intraoral approaches can make fracture reduction and/or fixation difficult. The mini-retromandibular approach provides an excellent view of the surgical field, minimises the risk of injury to the facial nerve, and allows rapid and easy management of condylar fractures.We have collected and reviewed our first 100 condylar fractures treated by means of a mini-retromandibular approach. Patients and methodsBetween June 2006 and June 2012, Eighty-seven patients with extracapsular condylar fractures underwent open reduction and rigid fixation for 100 extracapsular condylar fractures via a mini-retromandibular approach. ResultsDental occlusion and anatomic reduction were restored in all 100 condylar fractures. Postoperative infection developed in three patients. There was one sialocele and one case of plate fracture. Four patients experienced transient palsy of the buccal branch of the facial nerve. No permanent deficit of any facial nerve branch was observed.No patient showed condylar head resorption. ConclusionsOur experience with the treatment of the first 100 condylar fractures using the mini-retromandibular approach has demonstrated that this technique has allowed the Authors to safely manage extracapsular condylar fractures at all levels.

Combined Surgical Approach Retromandibular and Intraoral to Subcondylar Mandibular Fractures

Condylar and subcondylar fractures are very common and account for at least one third of all mandibular fractures. In literature, little agreement exists about the management of extracapsular condylar and subcondylar fractures in adults. Some studies provide better results of occlusion, masticatory function, mouth opening, and bone morphology with surgical treatment. Conversely, other studies report excellent results with conservative treatment avoiding complications such as facial nerve injury and unsightly scar. In this study, we report our experience of 25 condylar/subcondylar fractures. We report the case of a man with bilateral subcondylar fractures treated by a double surgical approach, intraoral and retromamdibular. Intraoral approach lets us dissect the masseter and disconnect the temporal muscle tendon, thus favoring further reduction of fracture stumps, whereas retromandibular approach favors a good operative field and the positioning of titanium microplate. Postoperative monitoring reported good results of occlusion. Postoperative computed tomographic scans show the good reduction and positioning of titanium miniplate.

New holding system in the surgical treatment of extracapsular condylar fractures

New holding system in the surgical treatment of extracapsular condylar fractures

Use of rigid external fixation in fractures of the mandibular condyle

In this article the use of a rigid external fixation system is proposed for the early treatment of condylar fractures. This method offers the advantage of not damaging the articular structures during reduction and allows early mobilization for a rapid recovery. In our Centre 28 patients have been treated with the rigid external fixation system, with good functional results. Of these 15 men and 13 women, 22 had a monocondylar fracture and 6 had a bicondylar fracture. In all the cases there was complete recovery of the occlusal stituation and of the mouth opening; no patient surgically treated with this method has ever presented problems of a local or general nature. The purpose of this report was to evaluate the use of external fixation for the treatment of extracapsular condylar fractures with luxation of the fragment out of the glenoid cavity.