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World Neurosurgery Apr 2024Combined triple atlas (C1)-axis (C2) fixation has been described in previous literature as a safe, effective, and minimally invasive procedure for complex atlas and...
BACKGROUND
Combined triple atlas (C1)-axis (C2) fixation has been described in previous literature as a safe, effective, and minimally invasive procedure for complex atlas and odontoid fractures that allows for a greater range of motion compared with posterior approaches and atlanto-occipital fusion. However, it is rarely performed due to the occipital-cervical diastasis resulting from often-fractured C1 joint masses. No evidence-based consensus has been reached regarding the treatment of complex atlantoaxial fractures, and the choice of surgical strategy is based only on clinical experience.
METHODS
We report the combined triple C1-C2 fixation technique with manual reduction of the joint masses during patient positioning on the operating table, which allowed for effective stabilization during a single surgical session. We describe our experience in the management of a 75-year-old patient presenting with an acute complex type II fracture of C1, which also involved 1 lateral mass, combined with a type II odontoid fracture and occipital-cervical diastasis.
RESULTS
We provide a step-by-step guide for combined triple C1-C2 anterior fixation with manual fracture reduction and describe the clinical case of an acute complex type II fracture of C1, which also involved 1 lateral mass, combined with a type II odontoid fracture and occipital-cervical diastasis.
CONCLUSIONS
Combined triple C1-C2 fixation represents a safe and efficient minimally invasive anterior approach for complex type II fractures of C1 with type II odontoid fractures. Manual reduction of the joint masses during patient positioning allows for effective stabilization in a single surgical session.
Topics: Humans; Aged; Odontoid Process; Spinal Fractures; Bone Screws; Fractures, Bone; Fracture Fixation; Neck Injuries; Fracture Fixation, Internal
PubMed: 38266989
DOI: 10.1016/j.wneu.2024.01.094 -
Journal of Engineering and Science in... Aug 2024Advancements in automated vehicles may position the occupant in postures different from the current standard posture. It may affect human tolerance responses. The...
Advancements in automated vehicles may position the occupant in postures different from the current standard posture. It may affect human tolerance responses. The objective of this study was to determine the lateral bending tolerance of the head-cervical spine with initial head rotation posture using loads at the occipital condyles and lower neck and describe injuries. Using a custom loading device, head-cervical spine complexes from human cadavers were prepared with load cells at the ends. Lateral bending loads were applied to prerotated specimens at 1.5 m/s. At the occipital condyles, peak axial and antero-posterior and medial-lateral shear forces were: 316-954 N, 176-254 N, and 327-508 N, and coronal, sagittal, and axial moments were: 27-38 N·m, 21-38 N·m, and 9.7-19.8 N·m, respectively. At the lower neck, peak axial and shear forces were: 677-1004 N, 115-227 N, and 178-350 N, and coronal, sagittal, and axial moments were: 30-39 N·m, 7.6-21.3 N·m, and 5.7-13.4 N·m, respectively. Ipsilateral atlas lateral mass fractures occurred in four out of five specimens with varying joint diastasis and capsular ligament involvements. Acknowledging that the study used a small sample size, initial tolerances at the occipital condyles and lower neck were estimated using survival analysis. Injury patterns with posture variations are discussed.
PubMed: 38059268
DOI: 10.1115/1.4063648 -
Traffic Injury Prevention 2022This objective of the present study is to describe the responses of the human head-cervical spine in terms of injuries, injury mechanisms, injury scoring, and quantify...
This objective of the present study is to describe the responses of the human head-cervical spine in terms of injuries, injury mechanisms, injury scoring, and quantify multiplanar loads. Pretest radiographs of pre-screened five human cadaver head-neck complexes were obtained. Cranium contents and sectioned the structure rostral to skull base. The caudal end was embedded, and cervical-thoracic disc was unconstrained condition. The loading was applied as a torque about the occipital condyle joint. The head and T1 were angulated 30 degrees and 25 degrees. Peak forces and moments at the occipital condyles were recorded using a six-axis load cell. After testing, x-rays and CT images were obtained. Injuries were scored using the Abbreviated Injury Scale, AIS 2015 version. The mean age, stature, total body mass, body mass index of the five subjects were as follows: 63 years, 1.7 m, 78.0 kg, and 28.1 kg/m. The mean peak axial force and coronal, sagittal, and axial bending moments were: 754 N, and 36.8 Nm, 14.8 Nm, and 9.5 Nm. All but one specimen sustained injury. Injuries were scored at the AIS 2 level. Two specimens sustained left anterior inferior lateral mass fractures of the atlas. While the transverse atlantal ligament was intact, some capsular ligament involvement was observed. In the other two specimens, although the same injury was noted, joint diastasis of the atlas-axis joint was identified. Using a PMHS model, the present study described the biomechanics of the initially head rotated head-neck complex under lateral bending in terms of injuries, injury mechanisms, quantification of the multiplanar loads at the occipital condyles, and underscored potential injury scoring issues for occupant protection. The issue of diastasis is not addressed in the AIS 2015 version. While this may not always result in immediate instability and require surgical intervention, it may be necessary to revisit this issue. Upper cervical fractures with diastasis and or transverse atlantal ligament involvement may be potential injury scoring factors for AIS consideration.
Topics: Humans; Middle Aged; Accidents, Traffic; Neck; Neck Injuries; Spinal Injuries; Fractures, Bone; Biomechanical Phenomena; Cervical Vertebrae; Posture; Cadaver
PubMed: 36215262
DOI: 10.1080/15389588.2022.2124811 -
Otology & Neurotology : Official... Dec 2020Only a handful of case reports exist describing posttraumatic sutural diastasis in the calvarium and none report concurrent temporal bone involvement. We aim to describe...
OBJECTIVE
Only a handful of case reports exist describing posttraumatic sutural diastasis in the calvarium and none report concurrent temporal bone involvement. We aim to describe diastasis along the temporal bone suture lines in the setting of temporal bone trauma and to identify clinical sequelae.
STUDY DESIGN
Retrospective case review.
SETTING
Tertiary Level 1 trauma center.
PATIENTS
Forty-four patients aged 18 and younger who suffered a temporal bone fracture from 2013 to 2018 were identified. Diastasis and diastasis with displacement at the occipitomastoid, lambdoid, sphenosquamosal and petro-occipital sutures, and synchondroses were determined.
MAIN OUTCOME MEASURES
The presence of temporal bone suture and synchondrosal diastasis following temporal bone trauma. Diastasis was defined as sutural separation of a distance greater than 1 mm in comparison to the contralateral side.
RESULTS
Using our diastasis diagnostic criteria, diastasis occurred in 41.5% of temporal bone fractures. Transverse fracture types were significantly associated with diastasis (p ≤ 0.001). Lower Glasgow Coma Scale (GCS) and loss of consciousness (LOC) were associated with the presence of diastasis with displacement and diastasis (p = 0.034 and p = 0.042, respectively). Otic capsule violation was more common in fractures with diastasis but did not reach statistical significance. There were two cases of cerebrospinal fluid otorrhea and three deaths in cases that featured diastasis.
CONCLUSION
Our findings indicate that diastasis is a positive predictor for higher disruptive force injuries and more severe outcomes and complications. Posttraumatic temporal bone suture diastasis may represent a separate clinico-pathologic entity in addition to the usual temporal bone fracture classification types.
Topics: Adolescent; Child; Cranial Sutures; Fractures, Bone; Humans; Retrospective Studies; Skull Fractures; Sutures; Temporal Bone
PubMed: 32810023
DOI: 10.1097/MAO.0000000000002804 -
Bulletin of Emergency and Trauma Oct 2019Sheno-occipital diastasis happens more frequently in children and is accompanied with neural and vascular injuries leading to a high rate of mortality. We present a rare...
Sheno-occipital diastasis happens more frequently in children and is accompanied with neural and vascular injuries leading to a high rate of mortality. We present a rare type of clival fracture in a 21 years old man who could survive without any deficit even though the fracture extended widely from left Asterion to the right orbit accompanied by widespread damage of the skull base air sinuses in 3D CT scan. To the best knowledge of the authors, neither this type of fracture, nor the clinical presentation, has been reported in relevant literature.
PubMed: 31858006
DOI: 10.29252/beat-070412