Here you will find everything related to cephalometric analysis, digital radiography, Dental imaging basically everything ceph-related.

New Dental Technology

  1. CephX | AI Driven Dental Services
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2015 is the year of technology in dentistry. While 2013 and 2014 have been large powers in contributing 3D technologies which have impacted dentistry tremendously and other forms of digital laboratory technology, 2015 will be all about improving this technology and implementing it widespread. It may not be the year for creating new technologies, but it will definitely become more commonplace in all dentistry practices around the world.

No longer is technology simply a tool used for marketing in dental practices, today it’s an essential element to providing your patients with the highest quality of care. When your patients are exposed to more technologically advanced products to enhance their overall experience and oral results it makes a great difference in your practice’s success.

Digital X-Rays

For the patients, digital x-rays mean less radiation, and for the dental professionals, digital x-rays mean better resolution to perform more enhanced diagnostics. Dental intraoral X-ray sensors have been shown to be just as diagnostic as film radiographs. While they’re equated in diagnostics, they also offer clinicians a whole lot more when it comes to diagnostics and the ways the images can be used.

With infinitely better resolution, reduced radiation to the patient, and the ability to zoom into specific parts of the image and use filters for enhanced diagnostics. They also grant your practice the ability to archive radiographs with no loss of image quality, as well as the ability to send a perfect digital copy to insurance companies or referral partners. Digital dental X-ray systems are a better solution for both the patient and the doctor.

Cone Beam

One of the fastest growing dental technologies is the dental cone beam aka cone beam, 3D imaging, or CBCT (cone beam computer tomography). Whatever you prefer to call it this imaging system is capable of creating detailed 3D models of a patient’s entire oral anatomy. This new dental technology is slowly immersing becoming a standard for dental treatment planning. The latest cone beam systems work with very low radiation doses, contrary to recent articles claiming otherwise. These cone beam systems work with small fields of view to capture data from just the desired area of the person’s anatomy.

Guided Surgery (Implant Surgical Guide Systems)

When dental practices apply guided surgery methods to meet the needs of their patients restoratively they’re actively providing optimal function and aesthetics at the same time. With today’s technology in dentistry it’s not necessary to refer the patient out you can simply do the implant yourself. While it may seem complex, using a surgical guide system can make the entire process a lot simpler.

These systems use the 3D imaging technology to see the patient’s anatomy and plan the ideal implant placement, angulation, and rotation and based upon this information provide the clinician with a 3D printed drill guide that makes it very clear where the implant is supposed to be placed. This system makes the process not only easier for the dentists but also immensely faster which allows them to be more efficient and the success of the implant cases are far more predictable.

Dental Technology Showcase 2015

The Dental Technology Showcase (DTS) is held every year for dental technicians, clinical dental technicians, and lab owners to update and refresh their knowledge and skills with other dentists and learn the best new additions to bring back for their own practices. The event offers of course vast networking opportunities for those involved in the dentistry industry and it’s an especially great place to access the latest innovations in the industry as well.

This year the showcase will take place on the 17th and 18th of April in Birmingham. The trade exhibition will host over 80 leading dental suppliers and manufacturers, 1000s of dental professionals, and of course the latest products, materials, and technologies available. Experts will show off and demonstrate any additional information, or guidance needed helping you to select the appropriate product and technology to take home for your practice.

Read more about Case study – using CephX in imaging centers
and How to Get Your Kids Excited About Getting Braces

How to Start an Orthodontic Practice

  1. CephX | AI Driven Dental Services
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Since most orthodontists are not orthodontic professionals by day and secretly businessmen or entrepreneurs by night, it can be rather intimidating starting your own orthodontic practice. You can imagine your orthodontist business similar to any other startup’s work to make it to the top. This time, in order to start off on the right foot you and your team can follow some of these steps to learn the business matters in starting your very own practice.
You’ll need time if you want to start an orthodontic practice in your area, in addition to your team you’ll need marketing efforts to gather your patients, to purchase expensive equipment, and a positive will to remain strong. Don’t worry, you’re in the right place to get started in pursuing your dream to opening your own orthodontic practice.

Are you qualified?

First things first, you don’t want to start this large business endeavor unless you’re sure you have all of the necessary qualifications. Running your own orthodontic practice and simply being a practicing orthodontist are certainly two entirely different things. In one case you’re part of a team where you work as a qualified professional, the other situation means you’re a business owner running your own team of orthodontists and managing day to day operations within the practice.

You need to ask yourself honestly, do you have what it takes to work in this area? Many will decide it’s most practical to work for someone else to start gaining the experience before trying it out on their own at first. Sometimes people during this process realize it’s for the better to continue working for an established practice. Either way, it’s essential for orthodontists to work in the field prior to starting their own business to ensure they’re physically, mentally, emotionally, and financially cut out for the work that will follow.

Of course it’s essential to be physically, and financially apt to the challenge but even more so you must be legally equipped. After you’ve made the decision you’re going to make your dreams come true by starting your own orthodontic practice it’s time to start the paperwork. Varying on your location the license will differ, in some places you’re required to purchase bond insurance before even applying for your business license.

Once you’ve purchased and received your license and registration you’ll also need to file for tax IDs for your business. In order to ensure this process is the least stressful as possible, ensure you leave yourself plenty of time for this ranging from six months to a full year.

Is there high demand in your location?

It’s important to take into consideration the area in which you wish to start your your practice. If your business is going to be financially stable, you’ll need to work in an area with a lot of available patients and a great existing need for your services. If you and your team decide to set up shop in an area where there’s already practicing orthodontists you must remember the competition you will face. How will you combat the competition? By offering cheaper services? More flexibility in scheduling?

On the other hand, if there’s a lack of orthodontists in your area, take this into consideration as well. Why are there so few orthodontic practices there, perhaps its the lack in demand to maintain the practice’s stability. Market research is a crucial aspect of this part of the process. This will not only guide your marketing efforts but also tell you which situations are plausible and what’s definitely not.

What is your budget realistically?

While we all know how expensive orthodontic care can be, whether it’s standard minimal care or top of the line state of the art services you need to be fully prepared beforehand to know what your budget is going to look like. A general rule to remember is, when starting your own orthodontic practice or dental business of any kind for that matter you shouldn’t be expecting a profit until at least 5 years down the road. Yes, orthodontists are known for their expensive services, but you won’t land any patients by charging too much right off the bat.

Once you’ve rented a location, gone through to purchase all of the needed equipment, employed all of your team members you must ensure you’ll have just enough money left over to pay your bills each month. If you don’t set your budget with realistic goals in mind it could be an early detriment to your business’s success in the long run.

Know who you know and know who you don’t know

Like any great business, an orthodontic practice is also about all of the networking and connections you have and create. God forbid you get into legal or financial trouble who is going to come to your rescue? If your practice has an attorney and an accountant nearby you’ll be thankful. The earlier on you form these relationships the better, they’re also a great source of professional advice many of them having started their own businesses as well.

How will you market your practice?

Here’s where the fun part comes in. This is just as crucial as any other step in the process, after all who is going to come into the practice as a patient if there’s zero marketing efforts? Your practice has no chance of succeeding if no one knows about it. Regardless of the size of your practice, or the size of your marketing budget, marketing plays an equally important role in the entire process and it mustn’t be forgotten.

Managing your own orthodontics practice will give you a new and exciting experience to put under your belt. Once you’ve accomplished these steps and you’re in the clear, all of your work has paid off and you will feel on top of the world. So what’s stopping you now, who’s ready to start their own practice?

Read more about 5 Tools to Diagnose Impacted Teeth
and How do patients choose their Orthodontist

Top Dental Products for 2015

  1. CephX | AI Driven Dental Services
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As 2015 is coming in and taking the innovation world by storm it begs the question what do these innovations and new products have to offer our dental practices? What new dental products should we keep an eye out for in 2015?

2015 is the year of cloud technology and 3D printing revitalizing the industry, and making the top dental clinics no force to be reckoned with. These are the emerging new dental products that you should expect to see in 2015 from the top practices.

Open Dental CAM Solutions

The latest version of DentMill provides dental professionals with a new mechanism for identifying and creating machining features from imported DAD data. It grants them the ability to visualize with 3D previews of imported parts and mill all types of restorations including crowns, bridges, and implants from any dental CAD system on the market.

2015 is all about quicker images and intuitive software solutions, this CAM solution uses dental imagery and terminology making it easy for dental technicians to use, even those with slightly less experience in machining.

The new technology being deployed to identify features within the CAD models will speed up the programming of implant interfaces, and any other restorations of the dental bar.

Dental Software to Improve Practice Efficiency and Productivity

If you’re currently working in any dental or medical practice you know what a struggle it can be wasting time searching the office for other staff members. While in the past practices have managed with walkie talkies and intercom systems, 2015 is bringing innovative technologies like DoctorMeow to fight this inefficiency.

By integrating the system with anyone’s personal device i.e. tablet, smartphone, smart watch, etc. staff members can communicate in a more direct and efficient way. In addition to improving productivity and efficiency through increased communication this system also brings a new variable to office communication that hasn’t been seen yet in dentistry, analytics. This platform uses an analytical reporting feature to measure wait times of patients, frequency of pages sent per staff member, chair usage, etc.

Training Toys for Children

We all know by now the secret to forming good dental habits is by developing them in children from a young age. 2015 will bring many new innovative and fun ways to introduce your children to these healthy habits. Children growing up in the new millenium need new dental products to properly entertain them and induce these positive habits.

Kids are used to interacting with cartoon like characters be it on their iPad app, or on their favorite TV show, brushyball brings this cartoon character in to the bathroom to help them brush their teeth. This innovative training tool just recently launched their kickstarter campaign. The brushyball motivates and shows the child exactly where to brush and for how long, to encourage good habits.

Next Level Simulation

Simulation practice is typically geared to students of the dental industry, designed to realistically practice dental procedures as though they’re really in a true clinical operatory setting. In the case of DentalEZ’s TruSim practice simulator this simulation can actually help you more than the actual clinical practice.

This simulation guides you through the procedure while promoting correct posture to eliminate future back problems, and encourages the proper practices to easily access the oral cavity. It’s also a fairly easy to use system with the option to stabilize or leave mobile, and pack it up and store with ease.

2015 will continue to be the year of cloud computing, storage, and technological advancements in the dental industry. Whether you’re using it to access data while out of the office, store large digital images, or keep your practice’s data extra secure the cloud will continue to make a bigger impact on new dental products. If you haven’t began to see how the cloud can transform your dental practice, learn more about CephX and see how the easy to use cloud based system can help you perform more accurate cephalometric analyses with convenient image storage.

Read more about Case of impacted Canines created with Cephx AI algorithms
and Build your Dental practice’s community reputation online

Orthodontic Services

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This is your go to comprehensive guide of all of the different services being offered by orthodontic practices. When people think orthodontists they think of course about braces, and other means of fixing crooked teeth, but the rest of orthodontic services are very much lesser known to the greater public. I hope to provide you with all of the ways that a visit to your orthodontist can help in treatment, and taking better care of your mouth.

The Most Common Orthodontic Service

Yes, braces are the most common orthodontic service. Braces and other fixed appliances are the most common devices used in orthodontic care. In America 75% of the population suffers from malocclusion, a bad bite, where one’s jaw and teeth don’t develop properly.

80% of people who have a malocclusion whether it’s overcrowding, overbite, underbite, crossbite, etc. are being treated with braces. This means 13 out of 20 children in America wear braces, with these statistics it’s no wonder our associations with orthodontists are directed toward braces.

What exactly are braces? What do they consist of? Braces consist of a complex system of brackets, wires, and bands. This contraption gently molds your teeth into the intended position, fixing the way you bite together. Different ages and people prefer different types of braces, metal or plastic brackets. Some even prefer lingual braces which attach to the back of the teeth so they’re hidden from public view, but it may be more difficult to provide oral hygenic care; to clean and to floss.

Other fixed appliance treatment includes fixed space maintainers and other special fixed appliances. Fixed space maintainers are used in the case where a child loses a baby tooth early and they want to maintain the space so the two teeth on either side won’t move into that space until the adult tooth comes from you. This is done by fixing one band on each tooth opposite of the space and connecting a wire between the two. Other fixed appliance treatments are recommended on occasion to control tongue thrusting or thumb sucking in younger patients, experts say these should only be used when absolutely necessary due to the discomfort provided for the patient.

Removable Appliances

While it’s clear that braces and other fixed appliance treatments are more common in orthodontics, removable appliance services definitely deserve their share of comprehensive attention as well.

Removable appliances are typically used for the treatment of minor problems, again such as the sucking of one’s thumb or correcting teeth that are just slightly crooked, or when the problem is not yet fully clear. These appliances should be taken out when cleaning, eating, or flossing, and it’s usually advised to remove them during physical activity as well.

Removable appliances include aligners, which is a practical option many adults choose for oral care as an alternative to braces. They still have the same effect adjusting your jaw, and aligning your teeth, but they’re invisible to others and they can be removed to eat, brush, and floss. A typical treatment cycle using aligners lasts between 10-24 months.

Another familiar removable appliance used in orthodontic services is headgear. Besides being made fun of in the movies, headgear provides several other services. Headgear straps around the back of your head and attaches to a metal wire in the front of your moth. The aim here is to slow down the growth of the upper jaw, and keep the back teeth in position while the front ones are being pulled back.

A palatal expander is an appliance designed to widen the arch of one’s upper jaw. This removable device is made up of a plastic plate place on the roof of the mouth, and several screws which exert pressure on the joints in the bones. This pressure is exerted in order to force them in an outward clear direction which will then expand the total size of the palatal area

Retainers may be used in oral care for as both fixed or removable appliances. Removable and fixed retainers alike are both placed on the roof of the mouth. Permanent retainers stay in for a fixed amount of time and they’re designed to stop the teeth from moving back to their original positions. These retainers are usually given post treatment to ensure the success remains. When modified the comprehensible removable retainer can also be used as a tool to encourage children to stop sucking their thumbs.

Orthodontist’s Assessment

Before giving you the prognosis, and beginning right away with the treatment to appropriately fix your bite, the orthodontist will provide you with all of the necessary tests and assessments to be properly treated.

This initial assessment is typically commenced around the time a child is about 12 or 13 years old, this is right around the time when the adult teeth are beginning to come in and it’s clear to provide a comprehensible prognosis.

The orthodontist’s assessment will assess the current state of the patient’s teeth and make predictions based upon the predicted development of the teeth with and without treatment. Several diagnostic procedures are likely to occur. These include: a full medical and dental health history to ensure the patient is healthy enough to endure the treatment method; a clinical examination; x-rays of the teeth and jaw, and plaster molds of the teeth.

CephX is a great tool for orthodontists to utilize to keep track of all of this preliminary information from the assessment and incorporate all of the progress to compare cephalometric analyses and store all of these images in one place in the cloud. This streamlines the system greatly in the orthodontic practice to enable the orthodontist to spend less time looking for meticulous information, and more time on the actual prognosis and treatment of their patients.

Read more about The Importance of Precise 3D Localization of Impacted Teeth Using CBCT in Orthodontics
and AI Will Not Revolutionize Dentistry Until We Fix Our Data

Cephalometric Analysis

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What is Cephalometric Analysis?

Cephalometric analysis is commonly used by dentists and orthodontist to study skeletal relationships in the craniofacial complex. However, cephalometric analysis also has many other uses. They can be uses to predict future changes, study the success of ongoing treatment plans, evaluate a patient’s dentofacial proportions and help doctors recognize abnormalities.

For these reasons, cephalometric analysis is paramount when developing and evaluating proper treatment plans for patients. Yet understanding how to do a cephalometric analysis properly is often the most difficult obstacle for many doctors.

 

Before learning how to do a cephalometric analysis, it is important to understand the basics of the procedure. A cephalometric analysis consists of two parts: the initial x-ray examination and the post-examination reading. The reading uses angular, linear, coordinate, and arcial relationships to reveal critical information about the maxillary position, mandibular position, facial proportions/vertical relationships, and incisor positions (both maxillary and mandibular) of a patient.

By using a comparative set of angles and distances, measurements can be related to one another and to normative values to determine variations in a patient’s facial structure. So, here’s how to do a cephalometric analysis of your own.

Part 1: The Cephalostat 

The first step is to examine patients in a cephalostat according to the worldwide standard measurements for a cephalometric analysis. Following the standards ensure that all radiographs have the same diagnostics. Position the patient’s skull at a 90-degree angle to the X-ray beam, at a five foot distance from the tube, and place the film 15 inches from the patient’s head.

Although many doctors place emphasis on the post-examination analysis, it’s important to remember that if the X-rays are not accurate, it will be impossible to generate a correct analysis!

Part 2: Post-examination analysis

The analysis of the radiographs is one of the significant and difficult parts of the cephalometric analysis. After taking an X-ray of the skull, it is necessary to trace the film at multiple angles using either the computer’s drawing tool or a small diameter (0.5mm) pencil or pen. Tracings must be at a 1:1 ratio to the radiograph.
When tracing, ensure all lights are turned off and areas around the radiograph are darkened so that the reading is clear. Marking anatomical structures clearly and accurately is of paramount importance, because the angles and reference lines depend on their accuracy.

Outline the following areas carefully:

  • The soft tissue profile of the patient’s face (from forehead to chin)
  • The sella turcica
  • The frontal bone and nasal bone
  • The orbital floor
  • The external auditory meatus
  • The maxilla (both the upper first molar and the upper central incisor)
  • The mandible, mandibular symphysis (the lower first molar and lower central incisor).

After outlining all the designated areas, designate the lines and planes and compare these to normal values to determine the patient’s deviation from the standard. Additionally, doing multiple cephalometric analysis with one patient over time allows you to understand the change and growth in a patient as well as diagnose how a patient is responding to treatment.

This can also reveal vital responses before, during, and after orthodontic treatment as well as be used to observe pathologic changes. It is typically recommended to perform two to three cephalometric analyses over 6-12 month intervals when assessing a patient’s readings over time.

Cephalometric Measurements

Cephalometrics aims to better understand how structures of the skull work by comparing a patient’s specific measurements with general averages. Measurements are an extremely important part of the cephalometric process, because an individual patient’s measurements are compared to population norms to spot deviations and assess where dental and orthodontic issues are occurring.

During a cephalometric x-ray, doctors must adhere to protocols to ensure that a patient’s results can be accurately compared with the general mean. While there is one standard for measurement during the x-ray, there are many different points of measurement for the radiograph during the post x-ray analysis.

The points of measurement have been popularized throughout time by different cephalometric experts, and some sets of analyses are now more commonly used than others. Steiner’s, Downs, Tweeds, and Ricketts analyses are among some of the most popular. Each of these use different sets of measurements following specific landmarks in the bony and soft tissues of the skull to create angles of comparison.

In cephalometrics, the landmarks, or points of measurement, often demonstrate the relationship of the maxillary teeth and mandibular teeth, the jaws to the teeth and the jaws to one another, and the jaws to the cranial base. By drawing a complex series of angle and plane values, doctors are able to create values to compare for each measurement series.

What do cephalometric measurements do?

  • Point out the location of imbalances or irregularities
  • Demonstrate whether malocclusions are due to skeletal or alveolar deviations
  • Show whether dysplastic development or dento-alveolar compensation causes skeletal discrepancy in patients
  • Identify possible areas of asymmetry
  • Show relationship between facial structures
  • Help doctors gain understanding causes of facial issues (if any)
Correctly identifying cephalometric measurements can make or break an analysis, which is why many medical professionals have turned to electronic help to ensure that measurements are drawn accurately. Additionally, by locating measurements digitally, doctors can easily compare a patient’s ceph to normative values across gender, sex, and other demographic averages. Digitally tracing cephalometric radiographs ensures measurements have no mistakes and is a great tool for medical professionals today.

Cephalometric Analysis and Remote Tracing

Tracing a cephalometric radiograph has traditionally been one of the most tedious and time consuming parts of any cephalometric exam. While the initial x-ray can be completed within minutes, the post X-ray analysis can take much longer. A cephalometric tracing can be produced either by digital means or by the more traditional hand-drawing method, and it results in a superimposed drawing over the original cephalometric radiograph. Cephalometric tracings outline the particular measurements, landmarks, and angles that medical professionals need to use a ceph in treatment.

As many know, hand tracing is not only time consuming but runs an enormous risk of inaccuracies due to inevitable human errors. Many doctors have now turned to electronic tracing as a way to save time and reduce errors.

Now, you don’t have to worry about tracing or processing cephs in-house – let CephX do the work for you. CephX offers a complete solution to trace, analyze, store, and track your patients’ cephs.

With Remote Tracing Service (RTS), CephX ensures you can get the analysis you need without the hassle. Trust the experts to get your cephs traced accurately, quickly, and error free. How does it work?

  • Simply upload a new ceph to your account.
  • Within 2 business days, you will be receive your analysis.
  • You will be able to view, edit and print all standard cephalometric analysis.

What are the benefits of using RTS?

Instead of wasting precious time trying to analyze, upload, and track patients’ cephs yourself, send it to experts who are here to make your job easier. All of your cephs will be stored securely in the cloud, which means anyone with account access can view, edit, or print the analysis. No more chasing information around the office – simply provide CephX cloud account information, and anyone can access the cephs. You don’t have to worry about losing physical copies of ceph analysis, because a copy will be stored securely on the cloud. Furthermore, with CephX, you can request custom analysis beyond the 60 standard cephalometric analysis offered.

Cephalometric Analysis landmarks

Readily recognizable points on a cephalometric radiograph or tracing, representing certain hard or soft tissue anatomical structures (anatomical landmarks) or intersections of lines (constructed landmarks). Landmarks are used as reference points for the construction of various cephalometric lines or planes and for subsequent numerical determination of cephalometric analysis measurements.

In the definitions of the specific landmarks the following convention is used: “midsagittal” identifies landmarks lying on the midsagittal plane, “unilateral” identifies landmarks corresponding to unilateral structures and “bilateral” applies to landmarks corresponding to bilateral structures.

Cephalometric Analysis Analysis

SUBTERMS:

A-point (Point A, Subspinale, ss)

Anterior nasal spine (ANS)

Articulare (Ar)

B-point (Point B, Supramentale, sm)

Basion (Ba)

Bolton (Bo)

Condylion (Co)

Crista galli

Dacryon

Glabella (G)

Gnathion (Gn)

Gonion (Go)

Incision inferius (Ii)

Incision superius (Is)

Infradentale (Id, Inferior prosthion)

L-point

Menton (Me)

Nasion (N, Na)

Opisthion (Op)

Orbitale (Or)

Pogonion (Pog, P, Pg)

Porion (Po)

Posterior nasal spine (PNS)

Prosthion (Pr, Superior prosthion, Supradentale)

Pterygomaxillary fissure (PTM, Pterygomaxillare)

R-point (Registration point)

Sella (S)

Cervical point (C)

Inferior labial sulcus (Ils)

Labrale inferior (Li)

Labrale superior (Ls)

Pronasale (Pn)

Soft tissue glabella (G’)

Soft tissue menton (Me’)

Soft tissue nasion (N’, Na’)

Soft tissue pogonion (Pg’, Pog’)

Stomion (St)

Stomion inferius (Sti)

Stomion superius (Sts)

Subnasale (Sn)

Superior labial sulcus (Sls)

Trichion (Tr)

Soft tissue gnathion (Gn’)

Ricketts Anatomical Tracing

Cephalometric Analysis - Ricketts Anatomical Tracing

Ricketts Points and Planes

Cephalometric Analysisi - Ricketts Points and Planes

Cephalometric Analysis - Ricketts Points and Planes

Ricketts Frontal Anatomy

Cephalometric Analysis - Ricketts Frontal Anatomy 1

Cephalometric Analysis - Ricketts Frontal Anatomy 2

A-POINT (POINT A, SUBSPINALE, SS)

The deepest (most posterior) midline point on the curvature between the ANS and prosthion. Its vertical coordinate is unreliable and therefore this point is used mainly for anteroposterior measurements. The location of A-point may change somewhat with root movement of the maxillary incisor teeth. (midsagittal)
cephalometric - A-POINT

ANTERIOR NASAL SPINE (ANS)

The tip of the bony anterior nasal spine at the inferior margin of the piriform aperture, in the midsagittal plane. It corresponds to the anthropological point acanthion and often is used to define the anterior end of the palatal plane (nasal floor). (midsagittal)

Articulare (Ar)

A constructed point representing the intersection of three radiographic images: the inferior surface of the cranial base and the posterior outlines of the ascending rami or mandibular condyles. It was meant to substitute condylion when the latter is not readily discernible. Any movement of the mandible (i.e. opening or closing) will change the location of articulare. (bilateral)

Cephalometric Analysis - Articulare (Ar)

B-point (Point B, Supramentale, sm)

The deepest (most posterior) midline point on the bony curvature of the anterior mandible, between infradentale and pogonion. (midsagittal)

Chepalometric Analysis - B-point (Point B, Supramentale, sm)

Basion (Ba)

The most anterior inferior point on the margin of the foramen magnum, in the midsagittal plane. It can be located by following the image of the slope of the inferior border of the basilar part of the occipital bone to its posterior limit, superior to the dens of the axis. (midsagittal)

Bolton (Bo)

The highest points on the outlines of the retrocondylar fossae of the occipital bone, approximating the center of the foramen magnum. Named after C. B. Bolton. (bilateral)

Cephalometric Analysis - Bolton (Bo)

CC Point (CC) Ricketts

(Cranial Center) Crossing of the facial axis with the BaN plane

Cervical point (C)

The innermost point between the submental area and the neck in the midsagittal plane. Located at the intersection of lines drawn tangent to the neck and submental areas. (midsagittal)

CC Point (CC) Ricketts

Condylion (Co)

The most superior posterior point on the head of the mandibular condyle. (bilateral)

Condylion (Co)

Crista galli

A vertically elongated, diamond-shaped radiopacity, appearing between the orbital outlines on postero-anterior cephalometric radiographs. Its location is used to establish a midsagittal reference plane. (midsagittal)

Crista galli

Dacryon

The point of intersection of the frontomaxillary, lacrimomaxillary and frontolacrimal sutures. An anatomic reference point used to record interorbital distance. (bilateral) Orbital hypertelorism

The increased distance between the medial orbital walls, reflecting an increased distance between the orbits (greater than 2 standard deviations from the norm). The anatomic landmarks used commonly for the measure-ment of interorbital distance are the dacryon points (bilaterally). Hypertelorism is described on the basis of skeletal measurements, because the presence of epicanthal folds or strabismus (exotropia), or other soft-tissue variations such as increased distance between the medial canthi (telecanthus) clinically may give a false impression of hypertelorism. Orbital hypertelorism is common in a number of craniofacial malformations such as Crouzon syndrome and frontonasal dysplasia.

Compare with Telecanthus

DC Point  (Ricketts)

Center of the neck of the condyle on the Basion Nasion line.

Glabella (G)

The most prominent point of the anterior contour of the frontal bone in the midsagittal plane. (midsagittal)

Glabella (G)

Gnathion (Gn)

The most anterior inferior point on the bony chin in the midsagittal plane. (midsagittal)

 Gnathion (Gn)

Gonion (Go)

The most posterior inferior point on the outline of the angle of the mandible. It may be determined by inspection or it can be constructed by bisecting the angle formed by the intersection of the mandibular plane and the ramal plane and by extending the bisector through the mandibular border. (bilateral)

Infradentale (Id)  Inferior prosthion Pr

The most superior anterior point on the mandibular alveolar process, between the central incisors. (midsagittal)

Incision inferius (Ii) or B1 (Ricketts)

The incisal tip of the most labially placed mandibular incisor. (unilateral)

Incisian Inferius Root or BR (Ricketts)

Incision superius (Is) or A1 (Ricketts)

The incisal tip of the most labially placed maxillary central incisor. (unilateral)

Incision Superious Root or AR (Ricketts)

L-point

A point located in the anterior surface of the cortical plate, labial to the apices of the maxillary central incisors. Introduced by F. P. G. M. van der Linden, as a point representing the anterior border of the maxillary apical area. (midsagittal)

Labrale inferior (Li)

Labrale inferior (Li)

The point denoting the vermilion border of the lower lip, in the midsagittal plane. (midsagittal)

Labrale superior (Ls)

The point denoting the vermilion border of the upper lip, in the midsagittal plane. (midsagittal)

Menton (Me)

The most inferior point of the mandibular symphysis, in the midsagittal plane. (midsagittal)

Menton (Me)

Molar Upper First (Ricketts)

Point on the occlusal plane perpendicular to the distal surface of the crown of the upper first molar.

Molar Lower First (Ricketts)

Point on the occlusal plane perpendicular to the distal surface of the crown of the lower first molar.

Nasion (N, Na)

The intersection of the internasal and frontonasal sutures, in the midsagittal plane. (midsagittal)

Cephalometric Analysis Analysis

Opisthion (Op)

The most posterior inferior point on the margin of the foramen magnum, in the midsagittal plane. (midsagittal)

Orbitale (Or)

The lowest point on the inferior orbital margin. (bilateral)

Pogonion (Pog, P, Pg)

The most anterior point on the contour of the bony chin, in the midsagittal plane. Pogonion can be located by drawing a perpendicular to mandibular plane, tangent to the chin. (midsagittal)

Porion (Po)

The most superior point of the outline of the external auditory meatus (“anatomic porion”). When the anatomic porion cannot be located reliably, the superior-most point of the image of the ear rods (“machine porion”) sometimes is used instead. (bilateral)

Posterior nasal spine (PNS)

The most posterior point on the bony hard palate in the midsagittal plane; the meeting point between the inferior and the superior surfaces of the bony hard palate (nasal floor) at its posterior aspect. It can be located by extending the anterior wall of the pterygopalatine fossa inferiorly, until it intersects the floor of the nose. (midsagittal)

Pronasale (Pn)

The most prominent point of the tip of the nose, in the midsagittal plane. (midsagittal)

Prosthion (Pr, Superior prosthion, Supradentale)

The most inferior anterior point on the maxillary alveolar process, between the central incisors. (midsagittal)

Protruberance Menti (Pm) or Supra pogonion (Ricketts)

A point where the curvature of the anterior border of the symphysis changes from concave to convex,

Pterygoid Point (Pt) Ricketts

Lower lip of foramen rotundum (Represents the position of the sphenoid bone) posterior superior tangent of the pterygomaxillary fissure

 

Pterygoid Root (Pr) Ricketts

Most posterior point on the outlines of the pterygopalatine fossa

Pterygomaxillary fissure (PTM, Pterygomaxillare)

A bilateral, inverted teardrop-shaped radiolucency, whose anterior border represents the posterior surfaces of the tuberosities of the maxilla. The landmark is taken at the most inferior point of the fissure, where the anterior and the posterior outline of the inverted teardrop merge with each other. (bilateral)

R-point (Registration point)

A cephalometric reference point for registration of superimposed tracings, introduced by B. H. Broadbent, Sr. , in his original presentation of the cephalometric technique. It is the midpoint on a perpendicular drawn from sella to the Bolton-nasion line. (midsagittal)

Sella (S)

The geometric center of the pituitary fossa (sella turcica), determined by inspectionóa constructed point in the midsagittal plane. (midsagittal)

Soft tissue glabella (Gí)

The most prominent point of the soft tissue drape of the forehead, in the midsagittal plane. (midsagittal)

Soft tissue menton (Meí)

The most inferior point of the soft tissue chin, in the midsagittal plane. (midsagittal)

Soft tissue nasion (Ní, Naí)

The deepest point of the concavity between the forehead and the soft tissue contour of the nose in the midsagittal plane. (midsagittal)

Soft tissue pogonion (Pgí, Pogí)

The most prominent point on the soft tissue contour of the chin, in the midsagittal plane. (midsagittal)

Stomion (St)

The most anterior point of contact between the upper and lower lip in the midsagittal plane. When the lips are apart at rest, a superior and an inferior stomion point can be distinguished. (midsagittal)

Stomion inferius (Sti)

The highest midline point of the lower lip. (midsagittal) if lips are apart

Stomion superius (Sts)

The lowest midline point of the upper lip. (midsagittal) if lips are apart

Subnasale (Sn)

The point in the midsagittal plane where the base of the columella of the nose meets the upper lip. (midsagittal)

Superior labial sulcus (Sls)  Soft Tissue Point A

The point of greatest concavity on the contour of the upper lip between subnasale and labrale superius, in the midsagittal plane. (midsagittal)

Soft Tissue B  or Inferior labial sulcus (Ils)

The point of greatest concavity on the contour of the lower lip between labrale inferius and menton, in the midsagittal plane. (midsagittal)

Trichion (Tr)

An anthropometric landmark, defined as the demarcation point of the hairline in the midline of the forehead. (midsagittal)

Xi Point (Xi) approximate for Inferior alveolar foramen (Ricketts)

A constructed point located at the geographic center of the ramus as indicated below.

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