Bisgaardkragelund0317
Patients with Apert syndrome experience midfacial hypoplasia, hypertelorism, and downslanting palpebral fissures which can be corrected by midfacial bipartition distraction with rigid external distraction device. Quantitative studies typically focus on quantifying rigid advancement and rotation postdistraction, but intrinsic shape changes of bone and soft tissue remain unknown. This study presents a method to quantify these changes. Pre- and post-operative computed tomography scans from patients with Apert syndrome undergoing midfacial bipartition distraction with rigid external distraction device were collected. Digital Imaging and Communications in Medicine files were converted to three-dimensional bone and soft tissue reconstructions. selleck inhibitor Postoperative reconstructions were aligned on the preoperative maxilla, followed by nonrigid iterative closest point transformation to determine local shape changes. Anatomical point-to-point displacements were calculated and visualized using a heatmap and arrow map. Nine plts in upward, inward rotation of the orbits, upward rotation of the zygomatic arch, and relative posterior motion of the frontal bone. Local movements were successfully quantified using a novel method, which can be applied to other surgical techniques/syndromes.
Surgical navigation has greatly improved the accuracy of craniomaxillofacial bone surgery and is widely used in the clinic. However, during surgery, craniomaxillofacial soft tissue is always deformed due to traction and compression, which leads to intraoperative image drift. This, in turn, impacts navigation accuracy. In order to improve navigation accuracy, this technical note presents a preliminary proposal for fusion imaging technology, which combines ultrasound and computed tomography to address navigational image drift in craniomaxillofacial soft tissue surgery.
Surgical navigation has greatly improved the accuracy of craniomaxillofacial bone surgery and is widely used in the clinic. However, during surgery, craniomaxillofacial soft tissue is always deformed due to traction and compression, which leads to intraoperative image drift. This, in turn, impacts navigation accuracy. In order to improve navigation accuracy, this technical note presents a preliminary proposal for fusion imaging technology, which combines ultrasound and computed tomography to address navigational image drift in craniomaxillofacial soft tissue surgery.
This study was performed to evaluate changes in nasal airflow, nasal airway resistance, nasal cross-sectional area, pharyngeal horizontal area, nasopharyngeal and oropharyngeal volume following Le Fort I osteotomy (L1) impaction with sagittal split ramus osteotomy (SSRO) in classes II and III.
The subjects consisted of 35 patients (6 males and 29 females, 70 sides) 17 of which were diagnosed as class II and 18 as class III who underwent L1 and SSRO. Nasal airflow and resistance were measured using the rhinomanometry system (GM NR-6 EXECUTIVE) before and at 1 and 6 months after surgery. Nasal, cross-sectional area, and volume were measured using a 3-dimensional computed tomography respectively, before and 1-year after surgery.
Although a significant decrease was found in nasal volume after surgery (P = 0.0042), there was no difference between before and after surgery in the nasal airway resistance in class II.A significant decrease in nasal volume was found after surgery (P = 0.0005) and there were no postoperative changes in both nasal airflow and resistance in class III.
The study suggested that L1 impaction with SSRO did not worsen nasal function such as nasal airflow and nasal airway resistance, although nasal volume significantly decreased in both groups.
The study suggested that L1 impaction with SSRO did not worsen nasal function such as nasal airflow and nasal airway resistance, although nasal volume significantly decreased in both groups.
Chronic subdural hematomas (CSDHs) in young people are uncommon, rupture of arachnoid cysts (ACs) is one of the reasons for young patients. The detailed features of CSDHs associated with ACs remain poorly understood. The objective of this study is to analyze the characteristics of risks for the rupture of ACs with CSDH in Adults.
The CT scans of 1231 patients who were diagnosed as CSDH were reviewed between Jan 2009 and Jan 2019 in the Department of Neurotrauma in Beijing Tian Tan Hospital, Capital Medical University/China National Clinical Research Center for Neurological Diseases. The clinical features, treatments, and prognosis of 32 patients with ACs were analyzed.
Ruptured ACs with CSDH were diagnosed in 32 patients in 1231 CSDH cases, which account for 2.60%. Headache was the commonest presenting symptom. According to the Takizawa' classification, there were 22 cases for Type A, 9 for Type B and 1 for Type C. Thinning or external convex of the calvarium was demonstrated in 17/32 cases (53.1%). Thirty-one patients were treated with burr hole irrigation. Favorable outcomes were achieved in all patients.
The presence of ACs should be taken into consideration in young and middle-aged patients with CSDH. For those patients were found ACs in conventional medical examination, especially those whose imaging examinations demonstrated thinning or external convex of the calvarium, it was crucial to remind them to avoid the occurrence of traumatic brain injury (TBI). Burr hole irrigation is still the preferred treatment for ruptured ACs with CSDH.
The presence of ACs should be taken into consideration in young and middle-aged patients with CSDH. For those patients were found ACs in conventional medical examination, especially those whose imaging examinations demonstrated thinning or external convex of the calvarium, it was crucial to remind them to avoid the occurrence of traumatic brain injury (TBI). Burr hole irrigation is still the preferred treatment for ruptured ACs with CSDH.
This is a retrospective study to evaluate the postsurgical position of the maxilla and mandible in 5 matured craniofacial patients with unilateral craniofacial microsomia who underwent 2 jaw surgical procedures using computerized surgical planning. The craniofacial surgeon and orthodontist completed the virtual surgical treatment plan with a biomedical engineer's assistance via a web meeting. The treatment plan of each patient included 2 jaw surgery with genioplasty. At the maxillary dental midline, the planned mean advancement was 4 mm; yaw, a rotational correction towards the unaffected side was 4.96 mm; and impaction was 2.74 mm. The mean advancement measured at point B was 10.5 mm, and the rotational correction towards the unaffected side was 6.58 mm. The mean advancement following genioplasty was 8.43 mm, and the mean transverse correction was 6.33 mm towards the midsagittal plane. The intermediate surgical splint, final surgical splint, bone graft templates, and cutting guides were constructed utilizing computer-aided design/computer-aided manufacturing technology.
