Child ; Edema ; diagnostic imaging ; etiology ; Emphysema ; diagnostic imaging ; etiology ; Ethmoid Bone ; diagnostic imaging ; injuries ; Eyelid Diseases ; diagnostic imaging ; etiology ; Humans ; Male ; Orbit ; diagnostic imaging ; Orbital Diseases ; diagnosis ; diagnostic imaging ; pathology ; Radiography ; Skull ; diagnostic imaging ; pathology ; Skull Fractures ; complications ; diagnostic imaging

OBJECTIVE: To show imaging findings of inferior orbital fissure (IOF) and groove (IOG) on axial CT scans and to discover their anatomic variations, so as to avoid misdiagnosing them as orbital fracture. METHODS: 25 normal skull were used to investigate the configurations of IOF and IOG. Five skulls were performed axial CT scans. 20 normal orbital axial scans were studied as well. MPR and RT-3D reconstructions were used in this study. RESULTS: Skulls scans and normal orbital images on axial CT showed three sorts of findings: (1) single bony dehiscence between lateral and inferior walls; (2) first type of double bony dehiscence between lateral and inferior walls, among the dehiscence interposing a small bone. The long axis of the small bone was parallel to orbital wall; (3) second type of double bony dehiscence between lateral and inferior walls, but the long axis of the small bone was in anteroposterior direction. Anatomy and variation of three sorts of CT findings were corresponded respectively to: (1) a baseball club-shaped IOF; (2) a "V"-shaped IOF, that is composed of both of lateral and internal ramus, lateral ramus situates between the zygoma and the lateral portion of greater wing of sphenoid, and internal ramus between the maxilla and the internal portion of greater wing of sphenoid, both rami intercross caudally and open upwards in a "V"-shaped configuration; (3) a deep IOG with a protuberant lateral wall. CONCLUSION Familiarity of imaging features on the axial CT scans and understanding of their anatomy of IOF and IOG would be helpful for avoiding misdiagnosis of orbital fracture.
Cadaver ; Forensic Medicine ; Humans ; Imaging, Three-Dimensional ; Orbit/diagnostic imaging* ; Orbital Fractures/pathology* ; Skull/diagnostic imaging* ; Sphenoid Bone/diagnostic imaging* ; Tomography, X-Ray Computed/methods*

Objective To retrospectively analyze the characteristics of the traumatic rupture of intracranial internal carotid artery in order to provide reference for forensic expertise examination and identification. Methods A total of 11 autopsy cases of traumatic rupture of intracranial internal carotid artery were collected. The gender, age, cause of injury, blood loss on the scene, location of internal carotid artery rupture, hardening degree of the rupture of the wall, brain injury, blood ethanol content and cause of death were also recorded. Results All 11 cases died on the scene, of which 7 died from traffic accidents, 2 falls from height and 2 from bare handed injuries. None of the 11 victims suffered serious head and body surface injury. The internal carotid artery rupture in the 9 cases of traffic injury and fall from height injury occurred in the cavernous segment. In all these cases, there were transverse fractures of the middle cranial fossa with the carotid sulcus involved, and minor intracranial hemorrhage and brain contusion. In 2 cases of bare handed injuries, internal carotid artery rupture occurred in the ophthalmic artery segment, accompanied by fatal intracranial hemorrhage and diffuse axonal injury, but no skull fracture. All 11 cases showed full-thickness rupture of the vessel wall, and the long axis of the wounds was perpendicular to those of the artery. Conclusion The incidence of intracranial internal carotid artery rupture in high-energy trauma events such as traffic accidents and high falls deserves attention. Injuries of the cavernous segment or ophthalmic segment might be more common. The main injury mechanism of intracranial internal carotid artery rupture might be that the blood vessels were pulled and the bone fragments caused damage.
Accidents, Traffic ; Carotid Artery, Internal/diagnostic imaging* ; Humans ; Retrospective Studies ; Rupture ; Skull Fractures

OBJECTIVES: To study the correlation between CT imaging features of acceleration and deceleration brain injury and injury degree. METHODS: A total of 299 cases with acceleration and deceleration brain injury were collected and divided into acceleration brain injury group and deceleration brain injury group according to the injury mechanism. Subarachnoid hemorrhage (SAH) and Glasgow coma scale (GCS), combined with skull fracture, epidural hematoma (EDH), subdural hematoma (SDH) and brain contusion on the same and opposite sides of the stress point were selected as the screening indexes. χ² test was used for primary screening, and binary logistic regression analysis was used for secondary screening. The indexes with the strongest correlation in acceleration and deceleration injury mechanism were selected. RESULTS: χ² test showed that skull fracture and EDH on the same side of the stress point; EDH, SDH and brain contusion on the opposite of the stress point; SAH, GCS were correlated with acceleration and deceleration injury (P<0.05). According to binary logistic regression analysis, the odds ratio (OR) of EDH on the same side of the stress point was 2.697, the OR of brain contusion on the opposite of the stress point was 0.043 and the OR of GCS was 0.238, suggesting there was statistically significant (P<0.05). CONCLUSIONS EDH on the same side of the stress point, brain contusion on the opposite of the stress point and GCS can be used as key indicators to distinguish acceleration and deceleration injury mechanism. In addition, skull fracture on the same side of the stress point, EDH and SDH on the opposite of the stress point and SAH were relatively weak indicators in distinguishing acceleration and deceleration injury mechanism.
Brain Contusion ; Brain Injuries/diagnostic imaging* ; Hematoma, Epidural, Cranial ; Hematoma, Subdural/etiology* ; Humans ; Logistic Models ; Skull Fractures/diagnostic imaging* ; Tomography, X-Ray Computed ; Wounds, Nonpenetrating/diagnostic imaging*

OBJECTIVETo use virtual endoscopy to obtain detailed three-dimensional images of bone, soft tissue and paranasal sinus damage as well as images of adjacent unaffected areas for optimum surgical planning.

METHODSA spiral CT scanner was used to examine 46 cases of facial bone fractures, maxillary cysts, obstructive sleep apnea syndrome (OSAS) and maxillary bone tumours. Data were input into a navigator workstation to create images similar to those displayed by a fiberoptic endoscope. Various 3-D images were obtained when probe sites were changed.

RESULTSVirtual endoscopy can clearly display the anatomic structure of the paranasal sinuses, nasopharyngeal cavity and upper respiratory tract, revealing damage to the sinus wall caused by a bone tumor or fracture. In addition, the technique can be used to indicate volume changes of the upper respiratory tract in OSAS patients. These results were similar to those obtained through actual operations.

CONCLUSIONSVirtual endoscopy is a new method which produces very clear images. It is reliable to provide detailed information for optimal operative planning.

Adolescent ; Adult ; Endoscopy ; methods ; Female ; Humans ; Imaging, Three-Dimensional ; Male ; Maxillary Fractures ; diagnostic imaging ; Maxillary Neoplasms ; diagnostic imaging ; Middle Aged ; Oral Surgical Procedures ; methods ; Paranasal Sinus Diseases ; diagnostic imaging ; Skull Fractures ; diagnostic imaging ; Tomography, Spiral Computed

OBJECTIVES: To explore the characteristics of nasal bone fracture caused by blunt instrument, including the fracture types, the fracture repair, and the difference of manifestations between X-ray and CT. To provide reference for the identification. METHODS: The information of basic situation, fracture site, injury manner, diagnosis method, expert opinion of 95 adult nasal fracture cases caused by blunt object, which occurred in Gutian county of Fujian province from January 1999 to December 2013, were analyzed by descriptive statistics. The identification conclusions of different injuries were compared according to new and old standards as well. RESULTS: There were total 95 adults including 87 male and 8 female. The fracture site and quantity have significant correlation with the nasal bone anatomical relations and the direction and size of the force. Compound fracture was most common. The fracture that could not be determined by X-ray could be clearly diagnosed by CT examination. According to new and old standards, different fracture types have different identification conclusions. CONCLUSIONS There are gender differences in nasal bone fracture cases. Larger external force is easy to cause compound fracture. CT examination is significantly better than X-ray examination.
Adult ; Female ; Humans ; Male ; Nasal Bone/injuries* ; Radiography ; Reference Standards ; Sex Factors ; Skull Fractures/diagnostic imaging* ; Tomography, X-Ray Computed

Adolescent ; Adult ; Child ; Female ; Humans ; Male ; Nasal Septum ; injuries ; Skull Fractures ; diagnostic imaging ; Tomography, Spiral Computed ; Young Adult

OBJECTIVE: To evaluate the value of clinical application of multiplanar reconstruction (MPR) and volume rendering (VR) with 64-slice spiral CT in the complex midfacial fracture. METHOD: Forty-six patients with the complex midfacial fracture were examined with 64-slice spiral CT, then MPR and VR were performed in work station. RESULT: Of 46 patients, there are 366 fractures. MPR imaging clearly showed all (the rate were 100%). VR imaging could show all zygomatic fracture and mandibular fracture (the rate were 100%), but the showed rate were 94.3% in maxillary fracture, 93.2%. in orbital fractures, 13.0% in ethmoid fractures, 55.6% in sphenoid bone fracture,the mean rate were 86.3%. VR imaging could show the fracture location, range, fragment displacement from different direction by rotating picture and demonstrate the course of fracture line and deformities caused by fracture. CONCLUSION MPR imaging combination with VR imaging has important clinical value in diagnosing the complex midfacial fracture. 64 slice CT may improve displaying tiny and deep fracture.
Adult ; Facial Bones ; diagnostic imaging ; injuries ; Female ; Humans ; Male ; Middle Aged ; Skull Fractures ; diagnostic imaging ; Tomography, Spiral Computed ; methods ; Young Adult

OBJECTIVE: To evaluate the application of MSCT and post-processing images to fractures of nasal bone in forensic identification. METHODS: 134 cases were examined by thin slice scanning with MSCT and all of the data were sent to workstation for MPR and SSD. The result of MSCT was compared with that of X-ray. RESULTS: There are 55 (41.04%) cases of linear fracture, 46 (34.33%) cases of comminuted fracture, 27 (20.15%) cases of depressed fracture and 6 (4.48%) cases of no fracture in this sample. With X-ray or CR, 48 (35.82%) cases were misdiagnosed or underdiagnosed. 133 (99.25%) cases were confirmed by MSCT. Significance difference was found between X-ray and MSCT (chi2= 45.0816, P<0.001). CONCLUSION MSCT and post-processing images might be the chief evidence for nasal fractures in forensic identification.
Adolescent ; Adult ; Chromatography, Thin Layer ; Female ; Forensic Medicine/methods* ; Fractures, Comminuted/diagnostic imaging* ; Humans ; Imaging, Three-Dimensional ; Male ; Middle Aged ; Nasal Bone/injuries* ; Skull Fractures/diagnostic imaging* ; Tomography, Spiral Computed/methods* ; Young Adult

OBJECTIVEThe treatment of frontobasilar fractures is a demanding aspect of craniofacial fracture management. A sequel of inadequate or improper fracture management presents cosmetic and functional problems which are very difficult to correct. The aim of this manuscript was to examine a group of growing patients treated for frontobasilar fractures and provide clinicians a possible therapeutic option for the treatment of these challenging fractures.

METHODSIn this investigation, 12 patients under the age of 16 years treated for severe injuries to the frontobasilar region were included. Their records were reviewed to evaluate the clinical diagnosis, preoperative findings, hospital course, postoperative results, and long-term follow-up. Preoperative and postoperative CT scans were performed in all children treated. Postoperative complications were reviewed in detail. Surgical procedures were evaluated for type and location of fixation. All complications and treatments were recorded.

RESULTSThree of the patients presented with a cerebrospinal fluid (CSF) leak and required pericranial flaps. Only 3 patients underwent removal of plates and screws due to palpability in 1 patient, loose hardware in 1 patient, and limited disturbance on growth in the rest patient. Seven patients underwent open reduction and internal fixation with resorbable plates, 4 patients with titanium plates, and 1 patient with a combination. Follow-up ranged from 6 months to 5 years. No patients with a preoperative CSF leak developed any recurrence of the leak.

CONCLUSIONAccording to basic craniofacial principles, reducing and stabilizing the fractures should reconstruct the anterior cranial base. However, the treatment of paediatric maxillofacial trauma requires the evaluation of several factors. The facial skeleton of a child is constantly evolving and its growth depends on the balance of basal bone and soft tissues.

Adolescent ; Child ; Device Removal ; Female ; Fracture Fixation, Internal ; methods ; Frontal Bone ; diagnostic imaging ; injuries ; Humans ; Internal Fixators ; Male ; Postoperative Complications ; diagnostic imaging ; Skull Fractures ; diagnostic imaging ; etiology ; surgery ; Tomography, X-Ray Computed ; Treatment Outcome