Objective: Severe craniomaxillofacial injuries and craniomaxillofacial tumors can lead to craniomaxillofacial bone defects and deformities. Seriously affect the patients’ appearance and quality of life. So one-stage repair and reconstruction of craniomaxillofacial bone defects is of great significance. The current study summarizes the clinical experience of one-stage repair and reconstruction of craniomaxillofacial bone defects. Material and Methods: Data in one-stage repair and reconstruction of craniomaxillofacial bone defects performed on 13 patients were retrospectively analyzed out of 34 patients with craniomaxillofacial injuries or tumors who received treatment at the outpatient department between January 2002 and March 2011. Surgical indications and approaches were explored after two typical cases were detected. Results: One-stage repair and reconstruction of bone defects was suitable for patients with craniomaxillofacial injuries and excised craniomaxillofacial benign tumors. Adjacent autogenous bones and artificial materials (such as titanium plates, titanium mesh, and so on) work well for the repair of the craniomaxillofacial bone frame and restoration of facial features. Conclusions: Surgical indications should be strictly selected in one-stage repair and reconstruction of craniomaxillofacial bone defects and deformities. Furthermore, the adoption of autogenous bones and artificial materials is a good choice in restoring the craniofacial features.
Severe craniomaxillofacial injuries and craniomaxillofacial tumors can lead to craniomaxillofacial bone defects and deformities. Considering bone defects and deformities caused by injuries or tumor resection have potential risks and the greatly influence the life quality of life of patients, the repair and reconstruction of defects during the early stages after the injury or soon after the surgery is of great significance [1,2]. However, craniomaxillofacial complex itself has a very complicated anatomic structure, which involves multiple anatomic regions, important structures, and organs (such as carotid arteries, veins, cranial nerves, and so on). Furthermore, during treatment, defects in the cerebral dura mater and soft tissues of the craniomaxillofacial complex, as well as the craniofacial frame and facial contour need to be repaired and reconstructed to prevent surgical complications. Meanwhile, the maxillofacial functions are protected or restored [3,4]. Thus, craniomaxillofacial surgery is a difficult and dangerous procedure with great clinical challenges, and requires interdisciplinary cooperation, including neurosurgery, oral and maxillofacial surgery, and so on [5,6]. Though immediate one-stage repair of craniomaxillofacial defects after injuries has great significance, the risks and the possible radiotherapy after resection of malignant craniomaxillofacial tumors forces surgeons to take into full consideration the indications for immediate postoperative one-stage repair [1,5], as well as the applicability of defect-repairing materials [7-9]. The current study summarizes 13 cases of one-stage repair and reconstruction of craniomaxillofacial bone defects.
Between January 2002 and March 2011, 34 patients with craniomaxillofacial injuries or tumors received treatment at Xinqiao Hospital, Third Military Medical University, China, 23 of which were with bone injuries or benign tumors, of which 13 have accepted one-stage repair and reconstruction of craniomaxillofacial bone defects. Ten males and three females (aged 19 to 67 years old) were involved in the current study. Among them, 10 suffered from traffic accident injuries and 3 from ossifying fibroma of craniofacial bones. All 10 patients having external injuries were diagnosed with frontal, temporal, jugal, zygomatic arch, and supramaxillary bone fractures. Considering the different degrees of combined craniocerebral injuries, treatments were given to the patients at the department of neurosurgery of local hospitals (no craniocerebral operation was done). After craniocerebral injury has stabilized, the patients were transferred into our department. Apart from routine examinations of the nervous system and the oromaxillofacial region, the patients were also subjected to craniofacial X-rays, computed tomography (CT), and three-dimensional (3D)-CT. ECT detection was carried out for patients with cerebrospinal leaks. Operations were performed under general anesthesia upon determination of the scope of craniofacial bone defects. All operations were performed using a trans-scalp coronal incision approach. For patients with external injuries, an extra incision through the vestibule of the oral cavity or at the infraorbital rim was made according to the site of maxillofacial fractures to expose the craniofacial injured region sufficiently. Reposition and fixation of the segments of maxillofacial fractures were performed, followed by craniotomy at the cranial fracture or diseased site. For patients with bone fractures, the fractured bones were repositioned and fixed, and for patients with bone defects, extra shape correction of the supraorbital rim was performed using titanic microplates. For one case of ossifying fibroma, the fragments from the cranial and supraorbital regions were corrected after tumor mass resection, repositioned after being boiled for 30 min, and then fixed internally using titanium micro-plates. For the two cases of ossifying fibroma, the frontal and supraorbital defects were repaired with titanium mesh after tumor mass resection. Moreover, for cases with cerebrospinal rhinorrhea, the injured cerebral dura mater was repaired concurrently during the operation.
A 36-year-old male patient was admitted to our hospital for treatment of right-sided craniomaxillofacial deformity, occlusal disturbance, and limitation of mouth opening after an external injury two months prior. The right side of the head and face were injured in a fall caused by a motorcycle accident, and stayed in a coma for more than 10 hours. The patient received treatment at a local hospital after emergency treatment, and the facial wounds were sutured after debridement. Upon admission to our hospital, the patient was conscious but with facial deformity (
A 19-year-old male patient who suffered from left-sided facial deformity for more than ten years was hospitalized for treatment. On admission, the examinations showed that his left frontal and temporal regions bulged. The volume was 10 cm × 8 cm × 4 cm with an obscure boundary. His left eyeball protruded and shifted downward, but his vision and extraocular movements were normal (Figures 2(a) and (b)). X-ray films, CT, and 3DCT reconstruction showed expanded changes in the left frontal, temporal, and sphenoid bones, the frontal bone clearly protruded, and irregular cystic lesions were found in the mass (
craniofacial ossifying fibroma. After confirmation of the absence of operative contraindications using whole-body examinations, the operation was performed under general anesthesia. A trans-scalp coronal incision approach was adopted to expose the frontal, temporal, and left supraorbital regions (
The aims of craniomaxillofacial repair and reconstruction are to prevent the incidence of postoperative complications and to restore the craniofacial features and function [1,2,10], in which the restoration of features and functions is the higher standard. Theoretically, all patients with deformities caused by craniomaxillofacial injury can undergo repair and reconstruction. Thus, craniomaxillofacial injuries can be considered as an operative indication for craniomaxillofacial bone repair and reconstruction. However, for patients with craniomaxillofacial tumors, one stage repair and reconstruction should be determined according to the nature of the tumor, its range, operative risks, and so on. The craniomaxillofacial complex has a very complicated anatomic structure wherein skull base tumors growing towards the maxillofacial complex or maxillofacial tumors invading the skull base can damage multiple anatomic regions and invade multiple important structures and organs. Complications are more likely with malignant tumors. Although theoreticcally, a malignant tumor can also be excised wholly around the normal tissues, achieving clinical radical excision when the tumor impinges or approaches important structures, such as the cavernous sinus, carotid arteries, optic nerves, and so on, is difficult. Under such conditions, performing one stage repair and reconstruction will be of no significance. On the contrary, such a procedure will likely increase operative risks and injuries. The better solution is to perform elective or postponed repair and reconstruction. However, whether an elective or postponed operation can be performed or not depends on the progression of the tumor based on the successive combined treatment such as radiotherapy, chemotherapy, and so on [11,12]. Although some studies have reported one-stage repair and reconstruction after malignant tumor resection, most have focused on either wound surface repair at the skull base with adjacent soft tissues or distant skin flaps, or repair of the cerebral dura mater to prevent cerebrospinal leakage [3,4,13]. Meanwhile, to prevent the incidence of postoperative complications in these operations, the connection between the cranial cavity and the nasal cavity is cut off. Thus, one stage repair is not considered suitable for bone defects after craniomaxillofacial malignant tumor resection. In the current study, five patients with craniomaxillofacial injuries and two with benign tumors were given concurrent one-stage repair and reconstruction of craniomaxillofacial bone defects during operation. Of the 14 patients with malignnant tumors, 8 received operative treatment, during which one stage repair was only restricted to repair of the defects of the cerebral dura mater and the skull base soft tissues.
In clinical practice, repair and reconstruction of craniomaxillofacial bone defects is one of the common problems for dentofacial surgeons, neurosurgeons, or plastic surgeons. A commonly used method involves determination of the range and contour of the craniomaxillofacial bone injuries and defects through CT detection and 3D-CT reconstruction [
In summary, the operative indications should be strictly selected for the determination of one-stage repair and reconstruction of craniofacial bone defects and deformities before the operation. One-stage repair and reconstruction is mainly applicable for patients with craniofacial injuries and benign tumors. Furthermore, the use of autogenous bones from the injured region or the adjacent regions assisted with artificial materials is safe, economical, and practical to for repair and reconstructtion.