The Flex System has the potential to improve surgical access to the larynx, especially in patients with challenging anatomy. The associated flexible instruments enabled completion of surgical procedures in the larynx in a human cadaveric model. Further clinical studies, as well as the development of supplemental technology and tools, are recommended for future clinical applications.
Background: Image-guided spinal surgery (IGSS) underwent rapid development over the past decades. The goal of IGSS is to increase patient safety and improve workflow. We present an overview of the history of IGSS, illustrate its current state, and highlight future developments. Currently, IGSS requires an image set, a tracking system, and a calibration method.Imaging: Two-dimensional images have many disadvantages as a source for navigation. Currently, the most common navigation technique is three-dimensional (3D) navigation based on cross-sectional imaging techniques such as cone-beam computed tomography (CT) or fan-beam CT.Tracking: Electromagnetic tracking uses an electromagnetic field to localize instruments. Optical tracking using infrared cameras has currently become one of the most common tracking methods in IGSS.Calibration: The three most common techniques currently used are the point-matching registration technique, the surface-matching registration technique, and the automated registration technique.Future: Augmented reality (AR) describes a computer-generated image that can be superimposed onto the realworld environment. Marking pathologies and anatomical landmarks are a few examples of many possible future applications. Additionally, AR offers a wide range of possibilities in surgical training. The latest development in IGSS is robotic-assisted surgery (RAS). The presently available data on RAS are very encouraging, but further improvements of these procedures is expected.Conclusion: IGSS significantly evolved since its inception and is becoming a routinely used technology. In the future, IGSS will combine the advantages of ''active/freehand 3D navigation'' with AR and RAS and will one day find its way into all aspects of spinal surgery, not only in instrumented procedures.
The numerical simulations demonstrate significantly disturbed intranasal airflow patterns due to SPs. This fact may contribute to crusting and nosebleed due to dehydration of the nasal mucosa. The location and size of the SP are crucial for the impact on disturbed airflow pattern and therefore the patients' complaints. Anterior caudal SPs seem to be the worst. Surgical closure of SPs or simply changes in the site and size of the SP if a complete closure is surgically impossible makes sense.
BackgroundThe endonasal access to the frontal recess and sinus may be complicated by a variety of anatomical variations. Previous classifications of these variants were characterized by proper names or position information without anatomical reference. The IFAC is intended to simplify the classification of anatomical variations of the frontoethmoidal complex. The aim of this study was to analyse a representative number of sinus CT scans to assess the incidence of anatomical variations according to the IFAC and to compare the results with previous classifications. In addition, the coincidence of complex anatomical variations and radiological sings of opacification was investigated. Methodology/principal Two hundred and forty-nine sinus CT scans were analysed in multiplanar reconstructions. Exclusion criteria were previous operations on the paranasal sinuses, malignant diseases, and an insufficient image quality. All anatomical variants were analysed according to the IFAC criteria. In addition, the coincidence of radiological sings of opacification and the presence of anatomical variations of the frontal recess and sinus were investigated.
ResultsThe analysis revealed Agger nasi cells in 95% of the CT scans. Supra agger cells (SACs) were detected in 49% and Supra agger frontal cells (SAFCs) in 25% of the data sets. Suprabulla cells (SBCs) were detected in 89% and Supra bulla frontal cells (SBFCs) in 27% of the scans. Supraorbital ethmoid cells (SECs) were detectable in 9% and interfrontal septal cells in 28% of the scans. Despite a partially strong narrowing of the frontal recess, no increased occurrence of radiological sings of opacification could be detected (p > 0.05). Conclusions Anatomical variations in the frontoethmoidal area are very common. According to the IFAC criteria, in 43% of the patients, cells could be detected with pneumatization to or into the frontal sinus. The IFAC is structured more clearly compared to previous classifications due to the anatomical aspect. It represents the most consistent classification regarding surgical planning. Further studies will demonstrate the scientific and clinical value of this classification.
Adequate secretion of the nasal mucosa is essential for normal nasal physiology. A "dry" nose is a frequent complaint of ENT patients. Measurement of secretion is currently impossible because of the absence of a recognized test. The aim of the present study was to investigate the feasibility of an intranasal Schirmer test in a large number of patients and to define standard values for nasal secretion. The test population comprised 159 healthy, non-smoking volunteers and 30 healthy smoking volunteers. All subjects were examined by nasal endoscopy for anatomic or mucosal disease. A Schirmer test strip was placed on both sides of the mucosa of the anterior nasal septum by anterior rhinoscopy. After 10 min in standardized conditions, the strip was removed and the wetted distance was measured. Active anterior rhinomanometry (ARR) and acoustic rhinometry (AR) were later performed. In the non-smoking group (n = 159), the median wetting distance of the test strip was 10.3 mm (range 3.6-35.0 mm). Age, gender, nasal geometry, and flow (according to ARR and AR) had no significant influence on nasal secretion. The test for normal distribution was negative. In the smoking group (n = 30), the median wetting distance was 8.4 mm (range 2.5-28.0 mm), significantly shorter than the wetting distance in the non-smoking group (p < 0.05). The Schirmer test offers a practical method to quantify mucosal humidification. The test is inexpensive and well tolerated by patients. In healthy people, wetting distances from 6 to 18 mm are considered normal.
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