Cephalometric Analysis
Published 7/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 525.30 MB | Duration: 1h 18m
Published 7/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 525.30 MB | Duration: 1h 18m
Learn tracing, identifying landmarks, and various analysis
What you'll learn
How to trace ceph
How to draw lines and planes
How to use various analysis
How to interpretate results of various analysis
Requirements
Dental student or dentist
Description
Cephalometric analysis evaluates lateral skull radiographs obtained with a cephalostat to help determine the skeletal pattern and assess treatment difficulty. Cephalometric analysis is indicated when anteroposterior movement is planned but is not required for all orthodontic treatments. The use of cephalometric analysis is justified when the incisor position will be significantly modified.The technique of cephalometric analysis has a rich history dating back to the late 1800s when radiographs were first employed to study the head and neck. In the 1930s, Holly Broadbent, a professor of orthodontics at the University of Michigan, analyzed the correlation between the teeth and the skull. This pioneering work involved measuring various angles and distances on the radiographic image, establishing the foundations of cephalometric analysis. Researchers continued to build upon this work throughout the following decades, developing other methods, like the Wits analysis. In current clinical practice, cephalometric analysis is essential in orthodontics to help diagnose and correct various dental and skeletal anomalies.Standardized Lateral Cephalometric RadiographsLateral skull radiographs provide a two-dimensional representation of the head and neck and measure the sagittal and vertical dimensions of the skull. The sagittal measurements study position and inclination of the maxilla and mandible, while vertical measurements evaluate the height of the facial structures and the relationship between the jaw.Posteroanterior radiographs, on the other hand, are taken from the front of the head and measure both transverse and vertical dimensions. They provide information about the width of the face and the relationship between the jaws in the transverse plane. However, in clinical practice, cephalometric analysis is mainly based on lateral radiographs since posteroanterior projections are much harder to interpret.A standardized technique is used for obtaining radiographs to allow comparison over time and between patients. The quality of the image relies heavily on the position of the patient. The patient must be positioned so the Frankfort plane is horizontal, the ear rests are placed in the external auditory meatuses, the nasion on the bridge of the nose, and the teeth are in centric occlusion.[6] The radiographic source is at a fixed distance of 5 ft (150 to 180 cm) from the patient's mid-sagittal plane, and the film to midsagittal plane distance is 30 cm. A calibrated steel ruler is recorded on each image. This setup ensures that precise measurements are documented.Cephalometric TracingLateral cephalometric radiographs are traditionally traced manually. First, a tracing acetate has to be attached to the film. After identifying the anatomical landmarks, they are drawn on the tracing acetate using a sharp 4H pencil. These points are joined, forming lines and angles, and the measurements obtained are recorded and interpreted.Digital tracing with specialized software is also possible, facilitating the process of cephalometric analysis. The software automatically identifies the anatomical landmarks on the radiographs and calculates measurements. It also provides standards for comparison based on ethnicity, sex, and age and allows soft tissue alteration, growth, and surgical prediction. Both manual and digital tracing techniques are appropriate for cephalometric analysis.Go to:Clinical SignificanceInterpretation of Cephalometric Analysis ResultsAverage angular measurements and proportions have been established for the general population. However, these values are general guides, as standard measures may vary by age, sex, and ethnicity. A thorough orthodontic assessment must consider the unique skeletal and dental characteristics in combination with the cephalometric findings.Anteroposterior EvaluationSNA AngleThe SNA angle evaluates the anteroposterior position of the maxilla to the anterior cranial base. The SNA angle is formed by joining the sella, nasion, and A point. The average SNA angle is 81 +/- 3 degrees. A patient with an SNA angle of 82 degrees presents a well-positioned maxilla concerning the cranial base.An increased SNA angle means that the maxilla is in a protrusive relationship to the cranial base compared to the average. A decreased SNA angle means the opposite; the maxilla is in a retruded position to the cranial base compared to the norm.SNB AngleThe SNB angle evaluates the anteroposterior position of the mandible to the anterior cranial base. The SNB angle is formed by joining the sella to nasion to B point. The average SNB angle is 78 +/- 3 degrees. An increased SNB angle means the mandible is protruded to the cranial base compared to the average. A decreased SNB angle means the mandible is retruded to the cranial base compared to the average.ANB AngleThe ANB angle measures the anteroposterior relationship between the maxilla and the mandible.The ANB angle is the difference between SNA (sella-nasion to A point) and SNB (sella-nasion to B point). It is obtained using the equation: ANB = SNA - SNB.The average ANB angle for a class I skeletal pattern is 2 degrees. An ANB angle greater than 4 degrees indicates a class II skeletal pattern and an angle less than 2 degrees indicates a class III skeletal pattern.[13] However, the ANB angle varies according to the position of the nasion and the prominence of the lower face. When the ANB angle is abnormally increased or decreased, a different method, such as the Wits analysis, must be implemented.Wits AnalysisThe Wits analysis is an alternative method to evaluate the anteroposterior skeletal pattern, which does not rely on the cranial base. This method involves drawing perpendicular lines from points A and B to the occlusal plane – the line joining the tips of the cusps of posterior teeth. The point of contact between the perpendiculars from the A and B points and the occlusal plane form points AO and BO. The distance between AO to BO is measured, giving the following measures for class I skeletal pattern: BO 1 mm (+/- 1.9 mm) anterior to AO in males, and BO equals AO (+/- 1.77 mm) in females.Vertical EvaluationThe maxillary-mandibular plane angle (MMPA) evaluates the vertical relationship between the maxilla and mandible. The MMPA is formed by projecting lines from the mandibular and maxillary planes until they touch posteriorly. The average value for the MMPA is 27 +/- 4 degrees. An average MMPA value correlates with a well-proportioned lower face and a normal overbite. An increased MMPA value relates to a long lower face and an open bite, whereas a decreased MMPA value relates to a shorter lower face and a closed bite.Incisor Position: Angular EvaluationThe angular measurement of the maxilla is determined by measuring from the incisor to Nasion-A. The angular measures of the mandible are calculated from the incisor to Nasion-B. These values indicate tooth inclination: proclined teeth are tipped forwards, retroclined teeth are tilted backward, or normally inclined. The normal incisor to nasion-A angle is 22 degrees, and the normal incisor to nasion-B angle is 25 degrees. An increased incisor to nasion-A or B angle indicates that the incisor is proclined, whereas a decreased angle suggests that the incisor is retroclined.The position of mandibular incisors is further evaluated by the angle formed by the intersection of the long axis of the tooth with the mandibular plane, which runs from gonion to gnathion.[10] The normal mandibular incisor to mandibular plane angle (Go-Gn) is 87 degrees. An increased mandibular incisor to mandibular plane angle indicates the incisors are proclined, and on the contrary, a decreased value indicates the incisors are retroclined.Incisor Position: Linear EvaluationThe linear measurement of the maxilla is determined by measuring from the maxillary incisor to Nasion-A, and the linear measurement of the mandible is measured from the incisor to Nasion-B. These measurements describe how the tooth relates to its supporting basal bone, be it normal, procumbent, where the tooth is ahead of its supporting bone, or recumbent, where the tooth is behind its supporting bone.The average value for both incisor to nasion-A and incisor to nasion-B is 4 mm. An increased incisor to nasion-A or -B value indicates that the incisor is procumbent, and a decreased value suggests that the incisor is recumbent.
Overview
Lecture 1 Introduction
Section 1: Introduction
Lecture 2 Benefits of Cephalomterics in Orthodontics
Lecture 3 Errors Associated with Cephalometrics
Lecture 4 Bolton’s Study in Cephalometrics
Lecture 5 Cephalometric Workshop- Step 1 Tracing and Landmark Identification
Lecture 6 Cephalometric Workshop- Step 2 Drawing Lines, Planes and Angles
Lecture 7 Cephalometric Workshop- Step 3 Basics of Cephalometric Analysis
Lecture 8 Cephalometric Workshop- Step 4 Learning & Praticing Composite Analysis
Dental student,Post graduate student,General practitioner,Orthodontist