Evaluating Insurance Coverage for Tooth Alignment

Evaluating Insurance Coverage for Tooth Alignment

* Type of orthodontic treatment needed for the child.

Okay, so we're talking about insurance and braces, right? But before diving into the paperwork and deductibles, let's just quickly touch on why kids even need orthodontic treatment. We're not just talking about a pretty smile, although that's definitely a perk. Getting those teeth straightened and that jaw aligned properly is actually about long-term health. Think about it: crooked teeth are harder to clean, leading to cavities and gum disease. Misaligned jaws can cause jaw pain, headaches, and even problems with chewing and speaking. Orthodontic appliances guide the proper growth of the jaw Early orthodontic intervention deciduous teeth. So, addressing these things early with braces or other orthodontic appliances isn't just cosmetic; it's preventative healthcare. It sets kids up for a healthier mouth and a happier life down the road. That's the 'why' behind all the fuss. Now, with that understanding, we can start to look at how insurance might help cover the costs.

* Complexity of the child's orthodontic case. —

Okay, so you're thinking about straightening your teeth and wondering how your insurance might help. Smart move! One of the first things to wrap your head around is the sheer variety of orthodontic treatments out there, because what you choose significantly affects how much your insurance chips in.


Traditional braces, the kind with metal brackets and wires, are often the most commonly covered. They've been around forever, are proven effective, and many insurance plans have established rules on how much they'll pay towards them.


Then you've got clear aligners, like Invisalign. These are super popular because they're nearly invisible, but insurance companies sometimes treat them differently. Some plans might cover them just like traditional braces, but others might have lower coverage limits or even exclude them altogether. It really boils down to the specifics of your policy.


Lingual braces, where the brackets are attached to the back of your teeth, are another option. They're hidden, like clear aligners, but can be more expensive. Because of the higher cost, insurance coverage might be less generous compared to traditional braces.


Finally, there are also less common treatments like self-ligating braces or accelerated orthodontics. These might offer faster treatment times or other benefits, but again, their coverage can be a bit of a wild card. Insurance companies often lag behind in adopting new technologies, so you'll definitely want to double-check how your specific plan handles these options.


The bottom line is, don't assume that all orthodontic treatments are created equal in the eyes of your insurance provider. Understanding the nuances of each type and how your plan views them is crucial before you commit to a treatment plan.

* Duration of the orthodontic treatment plan.

Okay, so you're staring at your insurance policy, a document seemingly written in ancient hieroglyphics, and you're trying to figure out if it'll cover braces. Specifically, you're tackling the beast that is "Decoding insurance policies: Key terms and clauses related to orthodontics." Let's break it down, because honestly, understanding this stuff shouldn't require a law degree.


First, realize insurance companies are businesses. They're looking for ways to minimize payouts. That means they use specific language to define what they cover, and more importantly, what they don't cover. When it comes to orthodontics, keep an eye out for a few key terms.


"Medically Necessary" is a big one. Many policies only cover orthodontic treatment if it's deemed medically necessary, meaning it's not just for cosmetic reasons. This usually involves things like correcting a severe bite that's causing jaw pain or difficulty chewing. You'll often need documentation from your orthodontist proving that the treatment falls into this category. Don't assume a crooked smile automatically qualifies; you'll need the professional assessment.


Then there's the "Maximum Benefit" clause. This is the total amount your insurance company will pay towards orthodontic treatment. It might be a lifetime maximum, or a maximum per year. Know this number! It'll help you estimate your out-of-pocket costs.


Look for "Age Limitations." Some policies only cover orthodontics for children or adolescents. If you're an adult hoping for straighter teeth, you might be out of luck, or only have partial coverage.


"Waiting Periods" are another hurdle. Some plans require you to be enrolled for a certain amount of time before you can access orthodontic benefits. So, signing up right before you need braces probably won't work.


And finally, be aware of "Exclusions." These are specific conditions or treatments that are not covered. Common exclusions related to orthodontics include treatments solely for cosmetic purposes, pre-existing conditions (if you already started treatment before getting the insurance), or treatments that aren't considered "standard" by the insurance company.


The bottom line? Read the fine print. Call your insurance company and ask specific questions about orthodontic coverage. Don't be afraid to push for clarification. And, most importantly, talk to your orthodontist. They've likely dealt with insurance companies before and can help you navigate the process. They can also help you understand if your case qualifies as medically necessary, which is often the key to unlocking coverage. Good luck!

* Geographic location and its cost of living.

Okay, so you're thinking about getting braces or aligners, and the big question is: will insurance help foot the bill? It's a valid concern! Navigating insurance coverage for tooth alignment can feel like wading through alphabet soup, but let's break down some of the key factors that influence whether you'll get some financial relief.


First off, the type of insurance plan you have is huge. Are you rocking a PPO, HMO, or some other flavor? PPOs generally offer more flexibility in choosing your orthodontist, which can be a plus. But the specifics of your plan document, that fine print we all tend to gloss over, are what really matter. Look for details on orthodontic coverage, paying close attention to any age limitations. Many plans have restrictions, often only covering braces for those under 19.


Another major factor is the "medical necessity" aspect. Insurance companies aren't just handing out money for cosmetic improvements. They want to see that your tooth alignment issues are impacting your oral health. Think problems with chewing, speech impediments, or even jaw pain caused by a misaligned bite. Your orthodontist will need to document these issues clearly to make a strong case for coverage.


Then there's the whole pre-authorization process. Before you even get started, your orthodontist will likely submit a treatment plan to your insurance company for approval. This is where they'll outline the reasons why braces or aligners are needed and what the expected outcome is. It's basically a "please approve this" letter with all the supporting evidence.


Finally, keep in mind that even if you get approved, most plans have a lifetime maximum benefit for orthodontics. This means there's a cap on how much they'll pay, regardless of how long your treatment lasts. It's crucial to understand this limit upfront so you can plan accordingly and potentially explore payment options with your orthodontist. So, yeah, insurance coverage for braces and aligners is complex, but understanding these factors is the first step to figuring out how much your smile makeover will actually cost you. Good luck!

* Orthodontist's experience and specialization.

Okay, so you're thinking about getting your kid's teeth straightened, which is awesome! But before you start picturing that perfect smile, let's talk about the not-so-glamorous (but super important) part: insurance. Figuring out your orthodontic benefits can feel like decoding a secret language, but trust me, it's worth it. Here's a simple roadmap to help you navigate the process and avoid any surprise bills down the road.


First things first, grab your insurance card and call the number on the back. Yep, that old-fashioned phone call is still the best way to get accurate, personalized information. When you get someone on the line, be prepared to ask some specific questions. Don't just ask "Do you cover orthodontics?" Dig a little deeper.


Ask about the specific percentage or dollar amount covered for orthodontic treatment. Is there a lifetime maximum benefit? This is crucial because many plans have a cap on how much they'll pay for braces. Find out if there's an age limit for orthodontic coverage. Some plans only cover treatment for children up to a certain age.


Next, ask if you need a referral from your general dentist to see an orthodontist. Some plans require this, while others don't. It's better to know upfront. And finally, ask about waiting periods. Some plans have a waiting period before orthodontic benefits become active.


While you're on the phone, jot down the representative's name and date of the call. This can be helpful if you need to reference the conversation later.


Once you've gathered all this information, share it with the orthodontist's office. They're pros at dealing with insurance companies and can often verify your benefits for you, sometimes even offering to pre-authorize the treatment. This is a huge help and can give you peace of mind knowing exactly what your insurance will cover before treatment begins.


Verifying your child's orthodontic insurance benefits might seem a little tedious, but it's an essential step in planning for their future smile. By taking the time to understand your coverage, you can make informed decisions and ensure a smoother, more financially predictable orthodontic journey. Good luck!

* Use of advanced technology or techniques.

Okay, so you finally got the news – your orthodontist says braces (or aligners!) are the way to go. But then comes the dreaded insurance approval process, and...denial. Ugh. Appealing insurance claim denials for orthodontic treatment? It's like adding insult to injury, right?


Look, insurance companies aren't exactly known for their generosity when it comes to things like straightening teeth. They often see it as cosmetic, even if your dentist knows your bite is a mess and could lead to bigger problems down the road. The key here is persistence and a good understanding of why they denied you in the first place.


Read that denial letter closely. What specific reason did they give? Was it a lack of documentation? Did they claim it's not medically necessary? Knowing the "why" allows you to craft a targeted appeal.


Gather your ammo. Get a detailed letter from your orthodontist explaining the medical necessity of the treatment. Include X-rays, photos, and anything else that paints a clear picture of your tooth alignment issues and the potential long-term health consequences if left untreated. Think beyond just aesthetics; highlight any functional problems like difficulty chewing, jaw pain, or speech impediments.


Frame your appeal as a plea for improved health, not just a prettier smile. Emphasize the preventative aspect of orthodontic treatment. Preventing future TMJ issues or gum disease is often more persuasive than simply wanting straighter teeth.


And finally, be polite but firm. Insurance company representatives deal with a lot of frustrated people, so a calm and respectful tone can go a long way. Clearly state your case, provide all the necessary documentation, and request a review of their decision. Sometimes, simply escalating to a supervisor can make a difference.


Appealing a denial is a pain, no doubt. But with a little effort and a solid understanding of your situation, you can increase your chances of getting the coverage you deserve. Good luck!

* Insurance coverage and payment options.

Let's face it, straightening your teeth, or your kid's teeth, isn't cheap. And while we hold out hope that insurance will swoop in and save the day, often the reality is a bit more...complicated. So, when we're talking about "Evaluating Insurance Coverage for Tooth Alignment," we're really talking about navigating a potential maze of deductibles, co-pays, and limitations.


First, dig into your policy. I mean, really dig. Look for the fine print on orthodontics specifically. Are braces covered? What about clear aligners? Is there an age limit? Some plans only cover orthodontic work for dependents under a certain age, which can be a real bummer if you're finally deciding to fix that lingering overbite in your thirties.


Then, don't be afraid to call your insurance company. Ask specific questions about your coverage for different types of treatment. Get everything in writing if possible, because verbal promises can sometimes disappear faster than free samples at Costco.


And finally, explore alternative payment options. Many orthodontists offer payment plans, and some even have relationships with financing companies that specialize in healthcare. Don't be shy about asking about discounts for paying in full upfront, or even payment plans that stretch out over the course of treatment. Think of it like buying a car – negotiation is almost always an option. Remember, a beautiful smile shouldn't bankrupt you. It's about finding a solution that fits your budget and gets those pearly whites aligned.

Planning for your child's future smiles often means thinking about braces or other orthodontic treatments. It can feel overwhelming, especially when you start considering the cost! That's where long-term financial planning comes in. It's not just about scrambling for cash when the orthodontist says it's time. It's about thoughtfully preparing, researching your options, and building a financial cushion so you can give your child the best possible care without breaking the bank. A big part of that preparation is understanding your insurance coverage. Really dig into the details of your dental plan. What percentage of orthodontic costs do they cover? Is there a lifetime maximum benefit? Are certain types of treatment, like Invisalign, covered differently than traditional braces? Knowing these answers upfront can significantly impact your financial strategy. Don't be afraid to call your insurance company and ask questions. It's their job to help you understand your benefits. And while you're at it, explore other potential funding options. Think about health savings accounts (HSAs), flexible spending accounts (FSAs), or even setting up a dedicated savings account specifically for orthodontic expenses. The more you plan and prepare, the less stressful the whole process will be, and the brighter your child's future smile will be.

 

  • Sub-Millimeter Surgical Dexterity
  • Knowledge of human health, disease, pathology, and anatomy
  • Communication/Interpersonal Skills
  • Analytical Skills
  • Critical Thinking
  • Empathy/Professionalism
  • Private practices
  • Primary care clinics
  • Hospitals
  • Physician
  • dental assistant
  • dental technician
  • dental hygienist
  • various dental specialists
Dentistry
A dentist treats a patient with the help of a dental assistant.
Occupation
Names
  • Dentist
  • Dental Surgeon
  • Doctor

[1][nb 1]
Occupation type
 Profession
Activity sectors
 Health care, Anatomy, Physiology, Pathology, Medicine, Pharmacology, Surgery
Description
Competencies  
Education required
 Dental Degree
Fields of
employment
  
Related jobs
  
ICD-9-CM 23-24
MeSH D003813
[edit on Wikidata]
An oral surgeon and dental assistant removing a wisdom tooth

Dentistry, also known as dental medicine and oral medicine, is the branch of medicine focused on the teeth, gums, and mouth. It consists of the study, diagnosis, prevention, management, and treatment of diseases, disorders, and conditions of the mouth, most commonly focused on dentition (the development and arrangement of teeth) as well as the oral mucosa.[2] Dentistry may also encompass other aspects of the craniofacial complex including the temporomandibular joint. The practitioner is called a dentist.

The history of dentistry is almost as ancient as the history of humanity and civilization, with the earliest evidence dating from 7000 BC to 5500 BC.[3] Dentistry is thought to have been the first specialization in medicine which has gone on to develop its own accredited degree with its own specializations.[4] Dentistry is often also understood to subsume the now largely defunct medical specialty of stomatology (the study of the mouth and its disorders and diseases) for which reason the two terms are used interchangeably in certain regions. However, some specialties such as oral and maxillofacial surgery (facial reconstruction) may require both medical and dental degrees to accomplish. In European history, dentistry is considered to have stemmed from the trade of barber surgeons.[5]

Dental treatments are carried out by a dental team, which often consists of a dentist and dental auxiliaries (such as dental assistants, dental hygienists, dental technicians, and dental therapists). Most dentists either work in private practices (primary care), dental hospitals, or (secondary care) institutions (prisons, armed forces bases, etc.).

The modern movement of evidence-based dentistry calls for the use of high-quality scientific research and evidence to guide decision-making such as in manual tooth conservation, use of fluoride water treatment and fluoride toothpaste, dealing with oral diseases such as tooth decay and periodontitis, as well as systematic diseases such as osteoporosis, diabetes, celiac disease, cancer, and HIV/AIDS which could also affect the oral cavity. Other practices relevant to evidence-based dentistry include radiology of the mouth to inspect teeth deformity or oral malaises, haematology (study of blood) to avoid bleeding complications during dental surgery, cardiology (due to various severe complications arising from dental surgery with patients with heart disease), etc.

Terminology

[edit]

The term dentistry comes from dentist, which comes from French dentiste, which comes from the French and Latin words for tooth.[6] The term for the associated scientific study of teeth is odontology (from Ancient Greek: á½€δούς, romanized: odoús, lit. 'tooth') – the study of the structure, development, and abnormalities of the teeth.

Dental treatment

[edit]

Dentistry usually encompasses practices related to the oral cavity.[7] According to the World Health Organization, oral diseases are major public health problems due to their high incidence and prevalence across the globe, with the disadvantaged affected more than other socio-economic groups.[8]

The majority of dental treatments are carried out to prevent or treat the two most common oral diseases which are dental caries (tooth decay) and periodontal disease (gum disease or pyorrhea). Common treatments involve the restoration of teeth, extraction or surgical removal of teeth, scaling and root planing, endodontic root canal treatment, and cosmetic dentistry[9]

By nature of their general training, dentists, without specialization can carry out the majority of dental treatments such as restorative (fillings, crowns, bridges), prosthetic (dentures), endodontic (root canal) therapy, periodontal (gum) therapy, and extraction of teeth, as well as performing examinations, radiographs (x-rays), and diagnosis. Dentists can also prescribe medications used in the field such as antibiotics, sedatives, and any other drugs used in patient management. Depending on their licensing boards, general dentists may be required to complete additional training to perform sedation, dental implants, etc.

Irreversible enamel defects caused by an untreated celiac disease. They may be the only clue to its diagnosis, even in absence of gastrointestinal symptoms, but are often confused with fluorosis, tetracycline discoloration, acid reflux or other causes.[10][11][12] The National Institutes of Health include a dental exam in the diagnostic protocol of celiac disease.[10]

Dentists also encourage the prevention of oral diseases through proper hygiene and regular, twice or more yearly, checkups for professional cleaning and evaluation. Oral infections and inflammations may affect overall health and conditions in the oral cavity may be indicative of systemic diseases, such as osteoporosis, diabetes, celiac disease or cancer.[7][10][13][14] Many studies have also shown that gum disease is associated with an increased risk of diabetes, heart disease, and preterm birth. The concept that oral health can affect systemic health and disease is referred to as "oral-systemic health".

Education and licensing

[edit]
Main article: Dentistry throughout the world
A sagittal cross-section of a molar tooth; 1: crown, 2: root, 3: enamel, 4: dentin and dentin tubules, 5: pulp chamber, 6: blood vessels and nerve, 7: periodontal ligament, 8: apex and periapical region, 9: alveolar bone
Early dental chair in Pioneer West Museum in Shamrock, Texas

John M. Harris started the world's first dental school in Bainbridge, Ohio, and helped to establish dentistry as a health profession. It opened on 21 February 1828, and today is a dental museum.[15] The first dental college, Baltimore College of Dental Surgery, opened in Baltimore, Maryland, US in 1840. The second in the United States was the Ohio College of Dental Surgery, established in Cincinnati, Ohio, in 1845.[16] The Philadelphia College of Dental Surgery followed in 1852.[17] In 1907, Temple University accepted a bid to incorporate the school.

Studies show that dentists that graduated from different countries,[18] or even from different dental schools in one country,[19] may make different clinical decisions for the same clinical condition. For example, dentists that graduated from Israeli dental schools may recommend the removal of asymptomatic impacted third molar (wisdom teeth) more often than dentists that graduated from Latin American or Eastern European dental schools.[20]

In the United Kingdom, the first dental schools, the London School of Dental Surgery and the Metropolitan School of Dental Science, both in London, opened in 1859.[21] The British Dentists Act of 1878 and the 1879 Dentists Register limited the title of "dentist" and "dental surgeon" to qualified and registered practitioners.[22][23] However, others could legally describe themselves as "dental experts" or "dental consultants".[24] The practice of dentistry in the United Kingdom became fully regulated with the 1921 Dentists Act, which required the registration of anyone practising dentistry.[25] The British Dental Association, formed in 1880 with Sir John Tomes as president, played a major role in prosecuting dentists practising illegally.[22] Dentists in the United Kingdom are now regulated by the General Dental Council.

In many countries, dentists usually complete between five and eight years of post-secondary education before practising. Though not mandatory, many dentists choose to complete an internship or residency focusing on specific aspects of dental care after they have received their dental degree. In a few countries, to become a qualified dentist one must usually complete at least four years of postgraduate study;[26] Dental degrees awarded around the world include the Doctor of Dental Surgery (DDS) and Doctor of Dental Medicine (DMD) in North America (US and Canada), and the Bachelor of Dental Surgery/Baccalaureus Dentalis Chirurgiae (BDS, BDent, BChD, BDSc) in the UK and current and former British Commonwealth countries.

All dentists in the United States undergo at least three years of undergraduate studies, but nearly all complete a bachelor's degree. This schooling is followed by four years of dental school to qualify as a "Doctor of Dental Surgery" (DDS) or "Doctor of Dental Medicine" (DMD). Specialization in dentistry is available in the fields of Anesthesiology, Dental Public Health, Endodontics, Oral Radiology, Oral and Maxillofacial Surgery, Oral Medicine, Orofacial Pain, Pathology, Orthodontics, Pediatric Dentistry (Pedodontics), Periodontics, and Prosthodontics.[27]

Specialties

[edit]
Main article: Specialty (dentistry)
A modern dental clinic in Lappeenranta, Finland

Some dentists undertake further training after their initial degree in order to specialize. Exactly which subjects are recognized by dental registration bodies varies according to location. Examples include:

  • Anesthesiology[28] – The specialty of dentistry that deals with the advanced use of general anesthesia, sedation and pain management to facilitate dental procedures.
  • Cosmetic dentistry – Focuses on improving the appearance of the mouth, teeth and smile.
  • Dental public health – The study of epidemiology and social health policies relevant to oral health.
  • Endodontics (also called endodontology) – Root canal therapy and study of diseases of the dental pulp and periapical tissues.
  • Forensic odontology – The gathering and use of dental evidence in law. This may be performed by any dentist with experience or training in this field. The function of the forensic dentist is primarily documentation and verification of identity.
  • Geriatric dentistry or geriodontics – The delivery of dental care to older adults involving the diagnosis, prevention, and treatment of problems associated with normal aging and age-related diseases as part of an interdisciplinary team with other health care professionals.
  • Oral and maxillofacial pathology – The study, diagnosis, and sometimes the treatment of oral and maxillofacial related diseases.
  • Oral and maxillofacial radiology – The study and radiologic interpretation of oral and maxillofacial diseases.
  • Oral and maxillofacial surgery (also called oral surgery) – Extractions, implants, and surgery of the jaws, mouth and face.[nb 2]
  • Oral biology – Research in dental and craniofacial biology
  • Oral Implantology – The art and science of replacing extracted teeth with dental implants.
  • Oral medicine – The clinical evaluation and diagnosis of oral mucosal diseases
  • Orthodontics and dentofacial orthopedics – The straightening of teeth and modification of midface and mandibular growth.
  • Pediatric dentistry (also called pedodontics) – Dentistry for children
  • Periodontology (also called periodontics) – The study and treatment of diseases of the periodontium (non-surgical and surgical) as well as placement and maintenance of dental implants
  • Prosthodontics (also called prosthetic dentistry) – Dentures, bridges and the restoration of implants.
    • Some prosthodontists super-specialize in maxillofacial prosthetics, which is the discipline originally concerned with the rehabilitation of patients with congenital facial and oral defects such as cleft lip and palate or patients born with an underdeveloped ear (microtia). Today, most maxillofacial prosthodontists return function and esthetics to patients with acquired defects secondary to surgical removal of head and neck tumors, or secondary to trauma from war or motor vehicle accidents.
  • Special needs dentistry (also called special care dentistry) – Dentistry for those with developmental and acquired disabilities.
  • Sports dentistry – the branch of sports medicine dealing with prevention and treatment of dental injuries and oral diseases associated with sports and exercise.[29] The sports dentist works as an individual consultant or as a member of the Sports Medicine Team.
  • Veterinary dentistry – The field of dentistry applied to the care of animals. It is a specialty of veterinary medicine.[30][31]

History

[edit]
See also: History of dental treatments
A wealthy patient falling over because of having a tooth extracted with such vigour by a fashionable dentist, c. 1790. History of Dentistry.
Farmer at the dentist, Johann Liss, c. 1616–17

Tooth decay was low in pre-agricultural societies, but the advent of farming society about 10,000 years ago correlated with an increase in tooth decay (cavities).[32] An infected tooth from Italy partially cleaned with flint tools, between 13,820 and 14,160 years old, represents the oldest known dentistry,[33] although a 2017 study suggests that 130,000 years ago the Neanderthals already used rudimentary dentistry tools.[34] In Italy evidence dated to the Paleolithic, around 13,000 years ago, points to bitumen used to fill a tooth[35] and in Neolithic Slovenia, 6500 years ago, beeswax was used to close a fracture in a tooth.[36] The Indus valley has yielded evidence of dentistry being practised as far back as 7000 BC, during the Stone Age.[37] The Neolithic site of Mehrgarh (now in Pakistan's south western province of Balochistan) indicates that this form of dentistry involved curing tooth related disorders with bow drills operated, perhaps, by skilled bead-crafters.[3] The reconstruction of this ancient form of dentistry showed that the methods used were reliable and effective.[38] The earliest dental filling, made of beeswax, was discovered in Slovenia and dates from 6500 years ago.[39] Dentistry was practised in prehistoric Malta, as evidenced by a skull which had a dental abscess lanced from the root of a tooth dating back to around 2500 BC.[40]

An ancient Sumerian text describes a "tooth worm" as the cause of dental caries.[41] Evidence of this belief has also been found in ancient India, Egypt, Japan, and China. The legend of the worm is also found in the Homeric Hymns,[42] and as late as the 14th century AD the surgeon Guy de Chauliac still promoted the belief that worms cause tooth decay.[43]

Recipes for the treatment of toothache, infections and loose teeth are spread throughout the Ebers Papyrus, Kahun Papyri, Brugsch Papyrus, and Hearst papyrus of Ancient Egypt.[44] The Edwin Smith Papyrus, written in the 17th century BC but which may reflect previous manuscripts from as early as 3000 BC, discusses the treatment of dislocated or fractured jaws.[44][45] In the 18th century BC, the Code of Hammurabi referenced dental extraction twice as it related to punishment.[46] Examination of the remains of some ancient Egyptians and Greco-Romans reveals early attempts at dental prosthetics.[47] However, it is possible the prosthetics were prepared after death for aesthetic reasons.[44]

Ancient Greek scholars Hippocrates and Aristotle wrote about dentistry, including the eruption pattern of teeth, treating decayed teeth and gum disease, extracting teeth with forceps, and using wires to stabilize loose teeth and fractured jaws.[48] Use of dental appliances, bridges and dentures was applied by the Etruscans in northern Italy, from as early as 700 BC, of human or other animal teeth fastened together with gold bands.[49][50][51] The Romans had likely borrowed this technique by the 5th century BC.[50][52] The Phoenicians crafted dentures during the 6th–4th century BC, fashioning them from gold wire and incorporating two ivory teeth.[53] In ancient Egypt, Hesy-Ra is the first named "dentist" (greatest of the teeth). The Egyptians bound replacement teeth together with gold wire. Roman medical writer Cornelius Celsus wrote extensively of oral diseases as well as dental treatments such as narcotic-containing emollients and astringents.[54] The earliest dental amalgams were first documented in a Tang dynasty medical text written by the Chinese physician Su Kung in 659, and appeared in Germany in 1528.[55][56]

During the Islamic Golden Age Dentistry was discussed in several famous books of medicine such as The Canon in medicine written by Avicenna and Al-Tasreef by Al-Zahrawi who is considered the greatest surgeon of the Middle Ages,[57] Avicenna said that jaw fracture should be reduced according to the occlusal guidance of the teeth; this principle is still valid in modern times. Al-Zahrawi invented over 200 surgical tools that resemble the modern kind.[58]

Historically, dental extractions have been used to treat a variety of illnesses. During the Middle Ages and throughout the 19th century, dentistry was not a profession in itself, and often dental procedures were performed by barbers or general physicians. Barbers usually limited their practice to extracting teeth which alleviated pain and associated chronic tooth infection. Instruments used for dental extractions date back several centuries. In the 14th century, Guy de Chauliac most probably invented the dental pelican[59] (resembling a pelican's beak) which was used to perform dental extractions up until the late 18th century. The pelican was replaced by the dental key[60] which, in turn, was replaced by modern forceps in the 19th century.[61]

Dental needle-nose pliers designed by Fauchard in the late 17th century to use in prosthodontics

The first book focused solely on dentistry was the "Artzney Buchlein" in 1530,[48] and the first dental textbook written in English was called "Operator for the Teeth" by Charles Allen in 1685.[23]

In the United Kingdom, there was no formal qualification for the providers of dental treatment until 1859 and it was only in 1921 that the practice of dentistry was limited to those who were professionally qualified. The Royal Commission on the National Health Service in 1979 reported that there were then more than twice as many registered dentists per 10,000 population in the UK than there were in 1921.[62]

Modern dentistry

[edit]
A microscopic device used in dental analysis, c. 1907

It was between 1650 and 1800 that the science of modern dentistry developed. The English physician Thomas Browne in his A Letter to a Friend (c. 1656 pub. 1690) made an early dental observation with characteristic humour:

The Egyptian Mummies that I have seen, have had their Mouths open, and somewhat gaping, which affordeth a good opportunity to view and observe their Teeth, wherein 'tis not easie to find any wanting or decayed: and therefore in Egypt, where one Man practised but one Operation, or the Diseases but of single Parts, it must needs be a barren Profession to confine unto that of drawing of Teeth, and little better than to have been Tooth-drawer unto King Pyrrhus, who had but two in his Head.

The French surgeon Pierre Fauchard became known as the "father of modern dentistry". Despite the limitations of the primitive surgical instruments during the late 17th and early 18th century, Fauchard was a highly skilled surgeon who made remarkable improvisations of dental instruments, often adapting tools from watchmakers, jewelers and even barbers, that he thought could be used in dentistry. He introduced dental fillings as treatment for dental cavities. He asserted that sugar-derived acids like tartaric acid were responsible for dental decay, and also suggested that tumors surrounding the teeth and in the gums could appear in the later stages of tooth decay.[63][64]

Panoramic radiograph of historic dental implants, made 1978

Fauchard was the pioneer of dental prosthesis, and he invented many methods to replace lost teeth. He suggested that substitutes could be made from carved blocks of ivory or bone. He also introduced dental braces, although they were initially made of gold, he discovered that the teeth position could be corrected as the teeth would follow the pattern of the wires. Waxed linen or silk threads were usually employed to fasten the braces. His contributions to the world of dental science consist primarily of his 1728 publication Le chirurgien dentiste or The Surgeon Dentist. The French text included "basic oral anatomy and function, dental construction, and various operative and restorative techniques, and effectively separated dentistry from the wider category of surgery".[63][64]

A modern dentist's chair

After Fauchard, the study of dentistry rapidly expanded. Two important books, Natural History of Human Teeth (1771) and Practical Treatise on the Diseases of the Teeth (1778), were published by British surgeon John Hunter. In 1763, he entered into a period of collaboration with the London-based dentist James Spence. He began to theorise about the possibility of tooth transplants from one person to another. He realised that the chances of a successful tooth transplant (initially, at least) would be improved if the donor tooth was as fresh as possible and was matched for size with the recipient. These principles are still used in the transplantation of internal organs. Hunter conducted a series of pioneering operations, in which he attempted a tooth transplant. Although the donated teeth never properly bonded with the recipients' gums, one of Hunter's patients stated that he had three which lasted for six years, a remarkable achievement for the period.[65]

Major advances in science were made in the 19th century, and dentistry evolved from a trade to a profession. The profession came under government regulation by the end of the 19th century. In the UK, the Dentist Act was passed in 1878 and the British Dental Association formed in 1879. In the same year, Francis Brodie Imlach was the first ever dentist to be elected President of the Royal College of Surgeons (Edinburgh), raising dentistry onto a par with clinical surgery for the first time.[66]

Hazards in modern dentistry

[edit]
Main article: Occupational hazards in dentistry

Long term occupational noise exposure can contribute to permanent hearing loss, which is referred to as noise-induced hearing loss (NIHL) and tinnitus. Noise exposure can cause excessive stimulation of the hearing mechanism, which damages the delicate structures of the inner ear.[67] NIHL can occur when an individual is exposed to sound levels above 90 dBA according to the Occupational Safety and Health Administration (OSHA). Regulations state that the permissible noise exposure levels for individuals is 90 dBA.[68] For the National Institute for Occupational Safety and Health (NIOSH), exposure limits are set to 85 dBA. Exposures below 85 dBA are not considered to be hazardous. Time limits are placed on how long an individual can stay in an environment above 85 dBA before it causes hearing loss. OSHA places that limitation at 8 hours for 85 dBA. The exposure time becomes shorter as the dBA level increases.

Within the field of dentistry, a variety of cleaning tools are used including piezoelectric and sonic scalers, and ultrasonic scalers and cleaners.[69] While a majority of the tools do not exceed 75 dBA,[70] prolonged exposure over many years can lead to hearing loss or complaints of tinnitus.[71] Few dentists have reported using personal hearing protective devices,[72][73] which could offset any potential hearing loss or tinnitus.

Evidence-based dentistry

[edit]
Main article: Evidence-based dentistry

There is a movement in modern dentistry to place a greater emphasis on high-quality scientific evidence in decision-making. Evidence-based dentistry (EBD) uses current scientific evidence to guide decisions. It is an approach to oral health that requires the application and examination of relevant scientific data related to the patient's oral and medical health. Along with the dentist's professional skill and expertise, EBD allows dentists to stay up to date on the latest procedures and patients to receive improved treatment. A new paradigm for medical education designed to incorporate current research into education and practice was developed to help practitioners provide the best care for their patients.[74] It was first introduced by Gordon Guyatt and the Evidence-Based Medicine Working Group at McMaster University in Ontario, Canada in the 1990s. It is part of the larger movement toward evidence-based medicine and other evidence-based practices, especially since a major part of dentistry involves dealing with oral and systemic diseases. Other issues relevant to the dental field in terms of evidence-based research and evidence-based practice include population oral health, dental clinical practice, tooth morphology etc.

A dental chair at the University of Michigan School of Dentistry

Ethical and medicolegal issues

[edit]

Dentistry is unique in that it requires dental students to have competence-based clinical skills that can only be acquired through supervised specialized laboratory training and direct patient care.[75] This necessitates the need for a scientific and professional basis of care with a foundation of extensive research-based education.[76] According to some experts, the accreditation of dental schools can enhance the quality and professionalism of dental education.[77][78]

See also

[edit]
  • Dental aerosol
  • Dental instrument
  • Dental public health
  • Domestic healthcare:
    • Dentistry in ancient Rome
    • Dentistry in Canada
    • Dentistry in the Philippines
    • Dentistry in Israel
    • Dentistry in the United Kingdom
    • Dentistry in the United States
  • Eco-friendly dentistry
  • Geriatric dentistry
  • List of dental organizations
  • Pediatric dentistry
  • Sustainable dentistry
  • Veterinary dentistry
 

Notes

[edit]
  1. ^ Whether Dentists are referred to as "Doctor" is subject to geographic variation. For example, they are called "Doctor" in the US. In the UK, dentists have traditionally been referred to as "Mister" as they identified themselves with barber surgeons more than physicians (as do surgeons in the UK, see Surgeon#Titles). However more UK dentists now refer to themselves as "Doctor", although this was considered to be potentially misleading by the British public in a single report (see Costley and Fawcett 2010).
  2. ^ The scope of oral and maxillofacial surgery is variable. In some countries, both a medical and dental degree is required for training, and the scope includes head and neck oncology and craniofacial deformity.

References

[edit]
  1. ^ Neil Costley; Jo Fawcett (November 2010). General Dental Council Patient and Public Attitudes to Standards for Dental Professionals, Ethical Guidance and Use of the Term Doctor (PDF) (Report). General Dental Council/George Street Research. Archived from the original (PDF) on 4 March 2016. Retrieved 11 January 2017.
  2. ^ "Glossary of Dental Clinical and Administrative Terms". American Dental Association. Archived from the original on 6 March 2016. Retrieved 1 February 2014.
  3. ^ a b "Stone age man used dentist drill". BBC News. 6 April 2006. Retrieved 24 May 2010.
  4. ^ Suddick, RP; Harris, NO (1990). "Historical perspectives of oral biology: a series". Critical Reviews in Oral Biology and Medicine. 1 (2): 135–51. doi:10.1177/10454411900010020301. PMID 2129621.
  5. ^ "When barbers were surgeons and surgeons were barbers". Radio National. 15 April 2015. Retrieved 10 September 2021.
  6. ^ "dentistry". Etymonline.com. Retrieved 17 May 2018.
  7. ^ a b Gambhir RS (2015). "Primary care in dentistry – an untapped potential". Journal of Family Medicine and Primary Care (Review). 4 (1): 13–18. doi:10.4103/2249-4863.152239. PMC 4366984. PMID 25810982.
  8. ^ "What is the burden of oral disease?". WHO. Archived from the original on 30 June 2004. Retrieved 6 June 2017.
  9. ^ "American Academy of Cosmetic Dentistry | Dental CE Courses". aacd.com. Retrieved 21 October 2019.
  10. ^ a b c "Diagnosis of Celiac Disease". National Institute of Health (NIH). Archived from the original on 15 May 2017. Retrieved 6 June 2017.cite web: CS1 maint: bot: original URL status unknown (link)
  11. ^ Dental Enamel Defects and Celiac Disease (PDF) (Report). National Institute of Health (NIH). Archived from the original (PDF) on 5 March 2016.
  12. ^ Pastore L, Carroccio A, Compilato D, Panzarella V, Serpico R, Lo Muzio L (2008). "Oral manifestations of celiac disease". J Clin Gastroenterol (Review). 42 (3): 224–32. doi:10.1097/MCG.0b013e318074dd98. hdl:10447/1671. PMID 18223505. S2CID 205776755.
  13. ^ Estrella MR, Boynton JR (2010). "General dentistry's role in the care for children with special needs: a review". Gen Dent (Review). 58 (3): 222–29. PMID 20478802.
  14. ^ da Fonseca MA (2010). "Dental and oral care for chronically ill children and adolescents". Gen Dent (Review). 58 (3): 204–09, quiz 210–11. PMID 20478800.
  15. ^ Owen, Lorrie K., ed. (1999). Dictionary of Ohio Historic Places. Vol. 2. St. Clair Shores: Somerset. pp. 1217–1218.
  16. ^ Mary, Otto (2017). Teeth: the story of beauty, inequality, and the struggle for oral health in America. New York: The New Press. p. 70. ISBN 978-1-62097-144-4. OCLC 958458166.
  17. ^ "History". Pennsylvania School of Dental Medicine. Retrieved 13 January 2016.
  18. ^ Zadik Yehuda; Levin Liran (January 2008). "Clinical decision making in restorative dentistry, endodontics, and antibiotic prescription". J Dent Educ. 72 (1): 81–86. doi:10.1002/j.0022-0337.2008.72.1.tb04456.x. PMID 18172239.
  19. ^ Zadik Yehuda; Levin Liran (April 2006). "Decision making of Hebrew University and Tel Aviv University Dental Schools graduates in every day dentistry—is there a difference?". J Isr Dent Assoc. 23 (2): 19–23. PMID 16886872.
  20. ^ Zadik Yehuda; Levin Liran (April 2007). "Decision making of Israeli, East European, and South American dental school graduates in third molar surgery: is there a difference?". J Oral Maxillofac Surg. 65 (4): 658–62. doi:10.1016/j.joms.2006.09.002. PMID 17368360.
  21. ^ Gelbier, Stanley (1 October 2005). "Dentistry and the University of London". Medical History. 49 (4): 445–462. doi:10.1017/s0025727300009157. PMC 1251639. PMID 16562330.
  22. ^ a b Gelbier, S. (2005). "125 years of developments in dentistry, 1880–2005 Part 2: Law and the dental profession". British Dental Journal. 199 (7): 470–473. doi:10.1038/sj.bdj.4812875. ISSN 1476-5373. PMID 16215593. The 1879 register is referred to as the "Dental Register".
  23. ^ a b "The story of dentistry: Dental History Timeline". British Dental Association. Archived from the original on 9 March 2012. Retrieved 2 March 2010.
  24. ^ J Menzies Campbell (8 February 1955). "Banning Clerks, Colliers and other Charlatans". The Glasgow Herald. p. 3. Retrieved 5 April 2017.
  25. ^ "History of Dental Surgery in Edinburgh" (PDF). Royal College of Surgeons of Edinburgh. Retrieved 11 December 2007.
  26. ^ "Dentistry (D.D.S. or D.M.D.)" (PDF). Purdue.edu. Archived from the original (PDF) on 9 January 2017. Retrieved 17 May 2018.
  27. ^ "Canadian Dental Association". cda-adc.ca. Retrieved 21 October 2019.
  28. ^ "Anesthesiology recognized as a dental specialty". www.ada.org. Archived from the original on 21 September 2019. Retrieved 12 March 2019.
  29. ^ "Sports dentistry". FDI World Dental Federation. Archived from the original on 23 October 2020. Retrieved 13 July 2020.
  30. ^ "AVDC Home". Avdc.org. 29 November 2009. Retrieved 18 April 2010.
  31. ^ "EVDC web site". Evdc.info. Archived from the original on 5 September 2018. Retrieved 18 April 2010.
  32. ^ Barras, Colin (29 February 2016). "How our ancestors drilled rotten teeth". BBC. Archived from the original on 19 May 2017. Retrieved 1 March 2016.
  33. ^ "Oldest Dentistry Found in 14,000-Year-Old Tooth". Discovery Channel. 16 July 2015. Archived from the original on 18 July 2015. Retrieved 21 July 2015.
  34. ^ "Analysis of Neanderthal teeth marks uncovers evidence of prehistoric dentistry". The University of Kansas. 28 June 2017. Retrieved 1 July 2017.
  35. ^ Oxilia, Gregorio; Fiorillo, Flavia; Boschin, Francesco; Boaretto, Elisabetta; Apicella, Salvatore A.; Matteucci, Chiara; Panetta, Daniele; Pistocchi, Rossella; Guerrini, Franca; Margherita, Cristiana; Andretta, Massimo; Sorrentino, Rita; Boschian, Giovanni; Arrighi, Simona; Dori, Irene (2017). "The dawn of dentistry in the late upper Paleolithic: An early case of pathological intervention at Riparo Fredian". American Journal of Physical Anthropology. 163 (3): 446–461. doi:10.1002/ajpa.23216. hdl:11585/600517. ISSN 0002-9483. PMID 28345756.
  36. ^ Bernardini, Federico; Tuniz, Claudio; Coppa, Alfredo; Mancini, Lucia; Dreossi, Diego; Eichert, Diane; Turco, Gianluca; Biasotto, Matteo; Terrasi, Filippo; Cesare, Nicola De; Hua, Quan; Levchenko, Vladimir (19 September 2012). "Beeswax as Dental Filling on a Neolithic Human Tooth". PLOS ONE. 7 (9): e44904. Bibcode:2012PLoSO...744904B. doi:10.1371/journal.pone.0044904. ISSN 1932-6203. PMC 3446997. PMID 23028670.
  37. ^ Coppa, A.; et al. (2006). "Early Neolithic tradition of dentistry". Nature. 440 (7085). Springer Science and Business Media LLC: 755–756. doi:10.1038/440755a. ISSN 0028-0836. PMID 16598247.
  38. ^ "Dig uncovers ancient roots of dentistry". NBC News. 5 April 2006.
  39. ^ Bernardini, Federico; et al. (2012). "Beeswax as Dental Filling on a Neolithic Human Tooth". PLOS ONE. 7 (9): e44904. Bibcode:2012PLoSO...744904B. doi:10.1371/journal.pone.0044904. PMC 3446997. PMID 23028670.
  40. ^ "700 years added to Malta's history". Times of Malta. 16 March 2018. Archived from the original on 16 March 2018.
  41. ^ "History of Dentistry: Ancient Origins". American Dental Association. Archived from the original on 5 July 2007. Retrieved 9 January 2007.
  42. ^ TOWNEND, B. R. (1944). "The Story of the Tooth-Worm". Bulletin of the History of Medicine. 15 (1): 37–58. ISSN 0007-5140. JSTOR 44442797.
  43. ^ Suddick Richard P., Harris Norman O. (1990). "Historical Perspectives of Oral Biology: A Series" (PDF). Critical Reviews in Oral Biology and Medicine. 1 (2): 135–51. doi:10.1177/10454411900010020301. PMID 2129621. Archived from the original (PDF) on 18 December 2007.
  44. ^ a b c Blomstedt, P. (2013). "Dental surgery in ancient Egypt". Journal of the History of Dentistry. 61 (3): 129–42. PMID 24665522.
  45. ^ "Ancient Egyptian Dentistry". University of Oklahoma. Archived from the original on 26 December 2007. Retrieved 15 December 2007.
  46. ^ Wilwerding, Terry. "History of Dentistry 2001" (PDF). Archived from the original (PDF) on 3 November 2014. Retrieved 3 November 2014.
  47. ^ "Medicine in Ancient Egypt 3". Arabworldbooks.com. Retrieved 18 April 2010.
  48. ^ a b "History Of Dentistry". Complete Dental Guide. Archived from the original on 14 July 2016. Retrieved 29 June 2016.
  49. ^ "History of Dentistry Research Page, Newsletter". Rcpsg.ac.uk. Archived from the original on 28 April 2015. Retrieved 9 June 2014.
  50. ^ a b Donaldson, J. A. (1980). "The use of gold in dentistry" (PDF). Gold Bulletin. 13 (3): 117–124. doi:10.1007/BF03216551. PMID 11614516. S2CID 137571298.
  51. ^ Becker, Marshall J. (1999). Ancient "dental implants": a recently proposed example from France evaluated with other spurious examples (PDF). International Journal of Oral & Maxillofacial Implants 14.1.
  52. ^ Malik, Ursman. "History of Dentures from Beginning to Early 19th Century". Exhibits. Retrieved 3 May 2023.
  53. ^ Renfrew, Colin; Bahn, Paul (2012). Archaeology: Theories, Methods, and Practice (6th ed.). Thames & Hudson. p. 449. ISBN 978-0-500-28976-1.
  54. ^ "Dental Treatment in the Ancient Times". Dentaltreatment.org.uk. Archived from the original on 1 December 2009. Retrieved 18 April 2010.
  55. ^ Bjørklund G (1989). "The history of dental amalgam (in Norwegian)". Tidsskr Nor Laegeforen. 109 (34–36): 3582–85. PMID 2694433.
  56. ^ Czarnetzki, A.; Ehrhardt S. (1990). "Re-dating the Chinese amalgam-filling of teeth in Europe". International Journal of Anthropology. 5 (4): 325–32.
  57. ^ Meri, Josef (2005). Medieval Islamic Civilization: An Encyclopedia (Routledge Encyclopedias of the Middle Ages). Psychology Press. ISBN 978-0-415-96690-0.
  58. ^ Friedman, Saul S. (2006). A history of the Middle East. Jefferson, N.C.: Mcfarland. p. 152. ISBN 0786451343.
  59. ^ Gregory Ribitzky. "Pelican". Archived from the original on 25 January 2020. Retrieved 23 June 2018.
  60. ^ Gregory Ribitzky. "Toothkey". Archived from the original on 23 June 2018. Retrieved 23 June 2018.
  61. ^ Gregory Ribitzky. "Forceps". Archived from the original on 23 June 2018. Retrieved 23 June 2018.
  62. ^ Royal Commission on the NHS Chapter 9. HMSO. July 1979. ISBN 978-0-10-176150-5. Retrieved 19 May 2015.
  63. ^ a b André Besombes; Phillipe de Gaillande (1993). Pierre Fauchard (1678–1761): The First Dental Surgeon, His Work, His Actuality. Pierre Fauchard Academy.
  64. ^ a b Bernhard Wolf Weinberger (1941). Pierre Fauchard, Surgeon-dentist: A Brief Account of the Beginning of Modern Dentistry, the First Dental Textbook, and Professional Life Two Hundred Years Ago. Pierre Fauchard Academy.
  65. ^ Moore, Wendy (30 September 2010). The Knife Man. Transworld. pp. 223–24. ISBN 978-1-4090-4462-8. Retrieved 8 March 2012.
  66. ^ Dingwall, Helen (April 2004). "A pioneering history: dentistry and the Royal College of Surgeons of Edinburgh" (PDF). History of Dentistry Newsletter. No. 14. Archived from the original (PDF) on 1 February 2013.
  67. ^ "Noise-Induced Hearing Loss". NIDCD. 18 August 2015.
  68. ^ "Occupational Safety and Health Standards | Occupational Safety and Health Administration". Osha.gov.
  69. ^ Stevens, M (1999). "Is someone listening to the din of occupational noise exposure in dentistry". RDH (19): 34–85.
  70. ^ Merrel, HB (1992). "Noise pollution and hearing loss in the dental office". Dental Assisting Journal. 61 (3): 6–9.
  71. ^ Wilson, J.D. (2002). "Effects of occupational ultrasonic noise exposure on hearing of dental hygienists: A pilot study". Journal of Dental Hygiene. 76 (4): 262–69. PMID 12592917.
  72. ^ Leggat, P.A. (2007). "Occupational Health Problems in Modern Dentistry: A Review" (PDF). Industrial Health. 45 (5): 611–21. doi:10.2486/indhealth.45.611. PMID 18057804. Archived (PDF) from the original on 27 April 2019.
  73. ^ Leggat, P.A. (2001). "Occupational hygiene practices of dentists in southern Thailand". International Dental Journal. 51 (51): 11–6. doi:10.1002/j.1875-595x.2001.tb00811.x. PMID 11326443.
  74. ^ Evidence-Based Medicine Working Group (1992). "Evidence-based medicine. A new approach to teaching the practice of medicine". Journal of the American Medical Association. 268 (17): 2420–2425. doi:10.1001/jama.1992.03490170092032. PMID 1404801.
  75. ^ "Union workers build high-tech dental simulation laboratory for SIU dental school". The Labor Tribune. 17 March 2014. Retrieved 10 September 2021.
  76. ^ Slavkin, Harold C. (January 2012). "Evolution of the scientific basis for dentistry and its impact on dental education: past, present, and future". Journal of Dental Education. 76 (1): 28–35. doi:10.1002/j.0022-0337.2012.76.1.tb05231.x. ISSN 1930-7837. PMID 22262547.
  77. ^ Formicola, Allan J.; Bailit, Howard L.; Beazoglou, Tryfon J.; Tedesco, Lisa A. (February 2008). "The interrelationship of accreditation and dental education: history and current environment". Journal of Dental Education. 72 (2 Suppl): 53–60. doi:10.1002/j.0022-0337.2008.72.2_suppl.tb04480.x. ISSN 0022-0337. PMID 18250379.
  78. ^ Carrrassi, A. (2019). "The first 25 year [Internet] Ireland: ADEE (Association for Dental Education in Europe)". Association for Dental Education in Europe. Retrieved 21 October 2019.
[edit]
 
 
 
 
 

 

Orthodontics
Connecting the arch-wire on brackets with wire
Occupation
Names Orthodontist
Occupation type
 Specialty
Activity sectors
 Dentistry
Description
Education required
 Dental degree, specialty training
Fields of
employment
 Private practices, hospitals

Orthodontics[a][b] is a dentistry specialty that addresses the diagnosis, prevention, management, and correction of mal-positioned teeth and jaws, as well as misaligned bite patterns.[2] It may also address the modification of facial growth, known as dentofacial orthopedics.

Abnormal alignment of the teeth and jaws is very common. The approximate worldwide prevalence of malocclusion was as high as 56%.[3] However, conclusive scientific evidence for the health benefits of orthodontic treatment is lacking, although patients with completed treatment have reported a higher quality of life than that of untreated patients undergoing orthodontic treatment.[4][5] The main reason for the prevalence of these malocclusions is diets with less fresh fruit and vegetables and overall softer foods in childhood, causing smaller jaws with less room for the teeth to erupt.[6] Treatment may require several months to a few years and entails using dental braces and other appliances to gradually adjust tooth position and jaw alignment. In cases where the malocclusion is severe, jaw surgery may be incorporated into the treatment plan. Treatment usually begins before a person reaches adulthood, insofar as pre-adult bones may be adjusted more easily before adulthood.

History

[edit]

Though it was rare until the Industrial Revolution,[7] there is evidence of the issue of overcrowded, irregular, and protruding teeth afflicting individuals. Evidence from Greek and Etruscan materials suggests that attempts to treat this disorder date back to 1000 BC, showcasing primitive yet impressively well-crafted orthodontic appliances. In the 18th and 19th centuries, a range of devices for the "regulation" of teeth were described by various dentistry authors who occasionally put them into practice.[8] As a modern science, orthodontics dates back to the mid-1800s.[9] The field's influential contributors include Norman William Kingsley[9] (1829–1913) and Edward Angle[10] (1855–1930). Angle created the first basic system for classifying malocclusions, a system that remains in use today.[9]

Beginning in the mid-1800s, Norman Kingsley published Oral Deformities, which is now credited as one of the first works to begin systematically documenting orthodontics. Being a major presence in American dentistry during the latter half of the 19th century, not only was Kingsley one of the early users of extraoral force to correct protruding teeth, but he was also one of the pioneers for treating cleft palates and associated issues. During the era of orthodontics under Kingsley and his colleagues, the treatment was focused on straightening teeth and creating facial harmony. Ignoring occlusal relationships, it was typical to remove teeth for a variety of dental issues, such as malalignment or overcrowding. The concept of an intact dentition was not widely appreciated in those days, making bite correlations seem irrelevant.[8]

In the late 1800s, the concept of occlusion was essential for creating reliable prosthetic replacement teeth. This idea was further refined and ultimately applied in various ways when dealing with healthy dental structures as well. As these concepts of prosthetic occlusion progressed, it became an invaluable tool for dentistry.[8]

It was in 1890 that the work and impact of Dr. Edwards H. Angle began to be felt, with his contribution to modern orthodontics particularly noteworthy. Initially focused on prosthodontics, he taught in Pennsylvania and Minnesota before directing his attention towards dental occlusion and the treatments needed to maintain it as a normal condition, thus becoming known as the "father of modern orthodontics".[8]

By the beginning of the 20th century, orthodontics had become more than just the straightening of crooked teeth. The concept of ideal occlusion, as postulated by Angle and incorporated into a classification system, enabled a shift towards treating malocclusion, which is any deviation from normal occlusion.[8] Having a full set of teeth on both arches was highly sought after in orthodontic treatment due to the need for exact relationships between them. Extraction as an orthodontic procedure was heavily opposed by Angle and those who followed him. As occlusion became the key priority, facial proportions and aesthetics were neglected. To achieve ideal occlusals without using external forces, Angle postulated that having perfect occlusion was the best way to gain optimum facial aesthetics.[8]

With the passing of time, it became quite evident that even an exceptional occlusion was not suitable when considered from an aesthetic point of view. Not only were there issues related to aesthetics, but it usually proved impossible to keep a precise occlusal relationship achieved by forcing teeth together over extended durations with the use of robust elastics, something Angle and his students had previously suggested. Charles Tweed[11] in America and Raymond Begg[12] in Australia (who both studied under Angle) re-introduced dentistry extraction into orthodontics during the 1940s and 1950s so they could improve facial esthetics while also ensuring better stability concerning occlusal relationships.[13]

In the postwar period, cephalometric radiography[14] started to be used by orthodontists for measuring changes in tooth and jaw position caused by growth and treatment.[15] The x-rays showed that many Class II and III malocclusions were due to improper jaw relations as opposed to misaligned teeth. It became evident that orthodontic therapy could adjust mandibular development, leading to the formation of functional jaw orthopedics in Europe and extraoral force measures in the US. These days, both functional appliances and extraoral devices are applied around the globe with the aim of amending growth patterns and forms. Consequently, pursuing true, or at least improved, jaw relationships had become the main objective of treatment by the mid-20th century.[8]

At the beginning of the twentieth century, orthodontics was in need of an upgrade. The American Journal of Orthodontics was created for this purpose in 1915; before it, there were no scientific objectives to follow, nor any precise classification system and brackets that lacked features.[16]

Until the mid-1970s, braces were made by wrapping metal around each tooth.[9] With advancements in adhesives, it became possible to instead bond metal brackets to the teeth.[9]

In 1972, Lawrence F. Andrews gave an insightful definition of the ideal occlusion in permanent teeth. This has had meaningful effects on orthodontic treatments that are administered regularly,[16] and these are: 1. Correct interarchal relationships 2. Correct crown angulation (tip) 3. Correct crown inclination (torque) 4. No rotations 5. Tight contact points 6. Flat Curve of Spee (0.0–2.5 mm),[17] and based on these principles, he discovered a treatment system called the straight-wire appliance system, or the pre-adjusted edgewise system. Introduced in 1976, Larry Andrews' pre-adjusted edgewise appliance, more commonly known as the straight wire appliance, has since revolutionized fixed orthodontic treatment. The advantage of the design lies in its bracket and archwire combination, which requires only minimal wire bending from the orthodontist or clinician. It's aptly named after this feature: the angle of the slot and thickness of the bracket base ultimately determine where each tooth is situated with little need for extra manipulation.[18][19][20]

Prior to the invention of a straight wire appliance, orthodontists were utilizing a non-programmed standard edgewise fixed appliance system, or Begg's pin and tube system. Both of these systems employed identical brackets for each tooth and necessitated the bending of an archwire in three planes for locating teeth in their desired positions, with these bends dictating ultimate placements.[18]

Evolution of the current orthodontic appliances

[edit]

When it comes to orthodontic appliances, they are divided into two types: removable and fixed. Removable appliances can be taken on and off by the patient as required. On the other hand, fixed appliances cannot be taken off as they remain bonded to the teeth during treatment.

Fixed appliances

[edit]

Fixed orthodontic appliances are predominantly derived from the edgewise appliance approach, which typically begins with round wires before transitioning to rectangular archwires for improving tooth alignment. These rectangluar wires promote precision in the positioning of teeth following initial treatment. In contrast to the Begg appliance, which was based solely on round wires and auxiliary springs, the Tip-Edge system emerged in the early 21st century. This innovative technology allowed for the utilization of rectangular archwires to precisely control tooth movement during the finishing stages after initial treatment with round wires. Thus, almost all modern fixed appliances can be considered variations on this edgewise appliance system.

Early 20th-century orthodontist Edward Angle made a major contribution to the world of dentistry. He created four distinct appliance systems that have been used as the basis for many orthodontic treatments today, barring a few exceptions. They are E-arch, pin and tube, ribbon arch, and edgewise systems.

E-arch

[edit]

Edward H. Angle made a significant contribution to the dental field when he released the 7th edition of his book in 1907, which outlined his theories and detailed his technique. This approach was founded upon the iconic "E-Arch" or 'the-arch' shape as well as inter-maxillary elastics.[21] This device was different from any other appliance of its period as it featured a rigid framework to which teeth could be tied effectively in order to recreate an arch form that followed pre-defined dimensions.[22] Molars were fitted with braces, and a powerful labial archwire was positioned around the arch. The wire ended in a thread, and to move it forward, an adjustable nut was used, which allowed for an increase in circumference. By ligation, each individual tooth was attached to this expansive archwire.[8]

Pin and tube appliance

[edit]

Due to its limited range of motion, Angle was unable to achieve precise tooth positioning with an E-arch. In order to bypass this issue, he started using bands on other teeth combined with a vertical tube for each individual tooth. These tubes held a soldered pin, which could be repositioned at each appointment in order to move them in place.[8] Dubbed the "bone-growing appliance", this contraption was theorized to encourage healthier bone growth due to its potential for transferring force directly to the roots.[23] However, implementing it proved troublesome in reality.

Ribbon arch

[edit]

Realizing that the pin and tube appliance was not easy to control, Angle developed a better option, the ribbon arch, which was much simpler to use. Most of its components were already prepared by the manufacturer, so it was significantly easier to manage than before. In order to attach the ribbon arch, the occlusal area of the bracket was opened. Brackets were only added to eight incisors and mandibular canines, as it would be impossible to insert the arch into both horizontal molar tubes and the vertical brackets of adjacent premolars. This lack of understanding posed a considerable challenge to dental professionals; they were unable to make corrections to an excessive Spee curve in bicuspid teeth.[24] Despite the complexity of the situation, it was necessary for practitioners to find a resolution. Unparalleled to its counterparts, what made the ribbon arch instantly popular was that its archwire had remarkable spring qualities and could be utilized to accurately align teeth that were misaligned. However, a major drawback of this device was its inability to effectively control root position since it did not have enough resilience to generate the torque movements required for setting roots in their new place.[8]

Edgewise appliance

[edit]

In an effort to rectify the issues with the ribbon arch, Angle shifted the orientation of its slot from vertical, instead making it horizontal. In addition, he swapped out the wire and replaced it with a precious metal wire that was rotated by 90 degrees in relation—henceforth known as Edgewise.[25] Following extensive trials, it was concluded that dimensions of 22 × 28 mils were optimal for obtaining excellent control over crown and root positioning across all three planes of space.[26] After debuting in 1928, this appliance quickly became one of the mainstays for multibanded fixed therapy, although ribbon arches continued to be utilized for another decade or so beyond this point too.[8]

Labiolingual

[edit]

Prior to Angle, the idea of fitting attachments on individual teeth had not been thought of, and in his lifetime, his concern for precisely positioning each tooth was not highly appraised. In addition to using fingersprings for repositioning teeth with a range of removable devices, two main appliance systems were very popular in the early part of the 20th century. Labiolingual appliances use bands on the first molars joined with heavy lingual and labial archwires affixed with soldered fingersprings to shift single teeth.

Twin wire

[edit]

Utilizing bands around both incisors and molars, a twin-wire appliance was designed to provide alignment between these teeth. Constructed with two 10-mil steel archwires, its delicate features were safeguarded by lengthy tubes stretching from molars towards canines. Despite its efforts, it had limited capacity for movement without further modifications, rendering it obsolete in modern orthodontic practice.

Begg's Appliance

[edit]

Returning to Australia in the 1920s, the renowned orthodontist, Raymond Begg, applied his knowledge of ribbon arch appliances, which he had learned from the Angle School. On top of this, Begg recognized that extracting teeth was sometimes vital for successful outcomes and sought to modify the ribbon arch appliance to provide more control when dealing with root positioning. In the late 1930s, Begg developed his adaptation of the appliance, which took three forms. Firstly, a high-strength 16-mil round stainless steel wire replaced the original precious metal ribbon arch. Secondly, he kept the same ribbon arch bracket but inverted it so that it pointed toward the gums instead of away from them. Lastly, auxiliary springs were added to control root movement. This resulted in what would come to be known as the Begg Appliance. With this design, friction was decreased since contact between wire and bracket was minimal, and binding was minimized due to tipping and uprighting being used for anchorage control, which lessened contact angles between wires and corners of the bracket.

Tip-Edge System

[edit]

Begg's influence is still seen in modern appliances, such as Tip-Edge brackets. This type of bracket incorporates a rectangular slot cutaway on one side to allow for crown tipping with no incisal deflection of an archwire, allowing teeth to be tipped during space closure and then uprighted through auxiliary springs or even a rectangular wire for torque purposes in finishing. At the initial stages of treatment, small-diameter steel archwires should be used when working with Tip-Edge brackets.

Contemporary edgewise systems

[edit]

Throughout time, there has been a shift in which appliances are favored by dentists. In particular, during the 1960s, when it was introduced, the Begg appliance gained wide popularity due to its efficiency compared to edgewise appliances of that era; it could produce the same results with less investment on the dentist's part. Nevertheless, since then, there have been advances in technology and sophistication in edgewise appliances, which led to the opposite conclusion: nowadays, edgewise appliances are more efficient than the Begg appliance, thus explaining why it is commonly used.

Automatic rotational control

[edit]

At the beginning, Angle attached eyelets to the edges of archwires so that they could be held with ligatures and help manage rotations. Now, however, no extra ligature is needed due to either twin brackets or single brackets that have added wings touching underneath the wire (Lewis or Lang brackets). Both types of brackets simplify the process of obtaining moments that control movements along a particular plane of space.

Alteration in bracket slot dimensions

[edit]

In modern dentistry, two types of edgewise appliances exist: the 18- and 22-slot varieties. While these appliances are used differently, the introduction of a 20-slot device with more precise features has been considered but not pursued yet.[27]

Straight-wire bracket prescriptions

[edit]

Rather than rely on the same bracket for all teeth, L.F. Andrews found a way to make different brackets for each tooth in the 1980s, thanks to the increased convenience of bonding.[28] This adjustment enabled him to avoid having multiple bends in archwires that would have been needed to make up for variations in tooth anatomy. Ultimately, this led to what was termed a "straight-wire appliance" system – an edgewise appliance that greatly enhanced its efficiency.[29] The modern edgewise appliance has slightly different construction than the original one. Instead of relying on faciolingual bends to accommodate variations among teeth, each bracket has a correspondingly varying base thickness depending on the tooth it is intended for. However, due to individual differences between teeth, this does not completely eliminate the need for compensating bends.[30] Accurately placing the roots of many teeth requires angling brackets in relation to the long axis of the tooth. Traditionally, this mesiodistal root positioning necessitated using second-order, or tip, bends along the archwire. However, angling the bracket or bracket slot eliminates this need for bends.

Given the discrepancies in inclination of facial surfaces across individual teeth, placing a twist, otherwise known as third-order or torque bends, into segments of each rectangular archwire was initially required with the edgewise appliance. These bends were necessary for all patients and wires, not just to avoid any unintentional movement of suitably placed teeth or when moving roots facially or lingually. Angulation of either brackets or slots can minimize the need for second-order or tip bends on archwires. Contemporary edgewise appliances come with brackets designed to adjust for any facial inclinations, thereby eliminating or reducing any third-order bends. These brackets already have angulation and torque values built in so that each rectangluar archwire can be contorted to form a custom fit without inadvertently shifting any correctly positioned teeth. Without bracket angulation and torque, second-order or tip bends would still be required on each patient's archwire.

Methods

[edit]
Upper and lower jaw functional expanders

A typical treatment for incorrectly positioned teeth (malocclusion) takes from one to two years, with braces being adjusted every four to 10 weeks by orthodontists,[31] while university-trained dental specialists are versed in the prevention, diagnosis, and treatment of dental and facial irregularities. Orthodontists offer a wide range of treatment options to straighten crooked teeth, fix irregular bites, and align the jaws correctly.[32] There are many ways to adjust malocclusion. In growing patients, there are more options to treat skeletal discrepancies, either by promoting or restricting growth using functional appliances, orthodontic headgear, or a reverse pull facemask. Most orthodontic work begins in the early permanent dentition stage before skeletal growth is completed. If skeletal growth has completed, jaw surgery is an option. Sometimes teeth are extracted to aid the orthodontic treatment (teeth are extracted in about half of all the cases, most commonly the premolars).[33]

Orthodontic therapy may include the use of fixed or removable appliances. Most orthodontic therapy is delivered using appliances that are fixed in place,[34] for example, braces that are adhesively bonded to the teeth. Fixed appliances may provide greater mechanical control of the teeth; optimal treatment outcomes are improved by using fixed appliances.

Fixed appliances may be used, for example, to rotate teeth if they do not fit the arch shape of the other teeth in the mouth, to adjust multiple teeth to different places, to change the tooth angle of teeth, or to change the position of a tooth's root. This treatment course is not preferred where a patient has poor oral hygiene, as decalcification, tooth decay, or other complications may result. If a patient is unmotivated (insofar as treatment takes several months and requires commitment to oral hygiene), or if malocclusions are mild.

The biology of tooth movement and how advances in gene therapy and molecular biology technology may shape the future of orthodontic treatment.[35]

Braces

[edit]
Dental braces

Braces are usually placed on the front side of the teeth, but they may also be placed on the side facing the tongue (called lingual braces). Brackets made out of stainless steel or porcelain are bonded to the center of the teeth using an adhesive. Wires are placed in a slot in the brackets, which allows for controlled movement in all three dimensions.

Apart from wires, forces can be applied using elastic bands,[36] and springs may be used to push teeth apart or to close a gap. Several teeth may be tied together with ligatures, and different kinds of hooks can be placed to allow for connecting an elastic band.[37][36]

Clear aligners are an alternative to braces, but insufficient evidence exists to determine their effectiveness.[38]

Treatment duration

[edit]

The time required for braces varies from person to person as it depends on the severity of the problem, the amount of room available, the distance the teeth must travel, the health of the teeth, gums, and supporting bone, and how closely the patient follows instructions. On average, however, once the braces are put on, they usually remain in place for one to three years. After braces are removed, most patients will need to wear a retainer all the time for the first six months, then only during sleep for many years.[39]

Headgear

[edit]

Orthodontic headgear, sometimes referred to as an "extra-oral appliance", is a treatment approach that requires the patient to have a device strapped onto their head to help correct malocclusion—typically used when the teeth do not align properly. Headgear is most often used along with braces or other orthodontic appliances. While braces correct the position of teeth, orthodontic headgear—which, as the name suggests, is worn on or strapped onto the patient's head—is most often added to orthodontic treatment to help alter the alignment of the jaw, although there are some situations in which such an appliance can help move teeth, particularly molars.

Full orthodontic headgear with headcap, fitting straps, facebow, and elastics

Whatever the purpose, orthodontic headgear works by exerting tension on the braces via hooks, a facebow, coils, elastic bands, metal orthodontic bands, and other attachable appliances directly into the patient's mouth. It is most effective for children and teenagers because their jaws are still developing and can be easily manipulated. (If an adult is fitted with headgear, it is usually to help correct the position of teeth that have shifted after other teeth have been extracted.) Thus, headgear is typically used to treat a number of jaw alignment or bite problems, such as overbite and underbite.[40]

Palatal expansion

[edit]

Palatal expansion can be best achieved using a fixed tissue-borne appliance. Removable appliances can push teeth outward but are less effective at maxillary sutural expansion. The effects of a removable expander may look the same as they push teeth outward, but they should not be confused with actually expanding the palate. Proper palate expansion can create more space for teeth as well as improve both oral and nasal airflow.[41]

Jaw surgery

[edit]

Jaw surgery may be required to fix severe malocclusions.[42] The bone is broken during surgery and stabilized with titanium (or bioresorbable) plates and screws to allow for healing to take place.[43] After surgery, regular orthodontic treatment is used to move the teeth into their final position.[44]

During treatment

[edit]

To reduce pain during the orthodontic treatment, low-level laser therapy (LLLT), vibratory devices, chewing adjuncts, brainwave music, or cognitive behavioral therapy can be used. However, the supporting evidence is of low quality, and the results are inconclusive.[45]

Post treatment

[edit]

After orthodontic treatment has been completed, there is a tendency for teeth to return, or relapse, back to their pre-treatment positions. Over 50% of patients have some reversion to pre-treatment positions within 10 years following treatment.[46] To prevent relapse, the majority of patients will be offered a retainer once treatment has been completed and will benefit from wearing their retainers. Retainers can be either fixed or removable.

Removable retainers

[edit]

Removable retainers are made from clear plastic, and they are custom-fitted for the patient's mouth. It has a tight fit and holds all of the teeth in position. There are many types of brands for clear retainers, including Zendura Retainer, Essix Retainer, and Vivera Retainer.[47] A Hawley retainer is also a removable orthodontic appliance made from a combination of plastic and metal that is custom-molded to fit the patient's mouth. Removable retainers will be worn for different periods of time, depending on the patient's need to stabilize the dentition.[48]

Fixed retainers

[edit]

Fixed retainers are a simple wire fixed to the tongue-facing part of the incisors using dental adhesive and can be specifically useful to prevent rotation in incisors. Other types of fixed retainers can include labial or lingual braces, with brackets fixed to the teeth.[48]

  • Palatal expander
    Palatal expander
  • Orthodontic headgear
    Orthodontic headgear
  • An X-ray taken for skull analysis
    An X-ray taken for skull analysis
  • Top (left) and bottom retainers
    Top (left) and bottom retainers

Clear aligners

[edit]

Clear aligners are another form of orthodontics commonly used today, involving removable plastic trays. There has been controversy about the effectiveness of aligners such as Invisalign or Byte; some consider them to be faster and more freeing than the alternatives.[49]

Training

[edit]

There are several specialty areas in dentistry, but the specialty of orthodontics was the first to be recognized within dentistry.[50] Specifically, the American Dental Association recognized orthodontics as a specialty in the 1950s.[50] Each country has its own system for training and registering orthodontic specialists.

Australia

[edit]

In Australia, to obtain an accredited three-year full-time university degree in orthodontics, one will need to be a qualified dentist (complete an AHPRA-registered general dental degree) with a minimum of two years of clinical experience. There are several universities in Australia that offer orthodontic programs: the University of Adelaide, the University of Melbourne, the University of Sydney, the University of Queensland, the University of Western Australia, and the University of Otago.[51] Orthodontic courses are accredited by the Australian Dental Council and reviewed by the Australian Society of Orthodontists (ASO). Prospective applicants should obtain information from the relevant institution before applying for admission.[52] After completing a degree in orthodontics, specialists are required to be registered with the Australian Health Practitioner Regulation Agency (AHPRA) in order to practice.[53][54]

Bangladesh

[edit]

Dhaka Dental College in Bangladesh is one of the many schools recognized by the Bangladesh Medical and Dental Council (BM&DC) that offer post-graduation orthodontic courses.[55][56] Before applying to any post-graduation training courses, an applicant must have completed the Bachelor of Dental Surgery (BDS) examination from any dental college.[55] After application, the applicant must take an admissions test held by the specific college.[55] If successful, selected candidates undergo training for six months.[57]

Canada

[edit]

In Canada, obtaining a dental degree, such as a Doctor of Dental Surgery (DDS) or Doctor of Medical Dentistry (DMD), would be required before being accepted by a school for orthodontic training.[58] Currently, there are 10 schools in the country offering the orthodontic specialty.[58] Candidates should contact the individual school directly to obtain the most recent pre-requisites before entry.[58] The Canadian Dental Association expects orthodontists to complete at least two years of post-doctoral, specialty training in orthodontics in an accredited program after graduating from their dental degree.

United States

[edit]

Similar to Canada, there are several colleges and universities in the United States that offer orthodontic programs. Every school has a different enrollment process, but every applicant is required to have graduated with a DDS or DMD from an accredited dental school.[59][60] Entrance into an accredited orthodontics program is extremely competitive and begins by passing a national or state licensing exam.[61]

The program generally lasts for two to three years, and by the final year, graduates are required to complete the written American Board of Orthodontics (ABO) exam.[61] This exam is also broken down into two components: a written exam and a clinical exam.[61] The written exam is a comprehensive exam that tests for the applicant's knowledge of basic sciences and clinical concepts.[61] The clinical exam, however, consists of a Board Case Oral Examination (BCOE), a Case Report Examination (CRE), and a Case Report Oral Examination (CROE).[61] Once certified, certification must then be renewed every ten years.[61] Orthodontic programs can award a Master of Science degree, a Doctor of Science degree, or a Doctor of Philosophy degree, depending on the school and individual research requirements.[62]

United Kingdom

[edit]

Throughout the United Kingdom, there are several Orthodontic Specialty Training Registrar posts available.[63] The program is full-time for three years, and upon completion, trainees graduate with a degree at the Masters or Doctorate level.[63] Training may take place within hospital departments that are linked to recognized dental schools.[63] Obtaining a Certificate of Completion of Specialty Training (CCST) allows an orthodontic specialist to be registered under the General Dental Council (GDC).[63] An orthodontic specialist can provide care within a primary care setting, but to work at a hospital as an orthodontic consultant, higher-level training is further required as a post-CCST trainee.[63] To work within a university setting as an academic consultant, completing research toward obtaining a Ph.D. is also required.[63]

See also

[edit]
  • Orthodontic technology
  • Orthodontic indices
  • List of orthodontic functional appliances
  • Molar distalization
  • Mouth breathing
  • Obligate nasal breathing

Notes

[edit]
  1. ^ Also referred to as orthodontia
  2. ^ "Orthodontics" comes from the Greek orthos ('correct, straight') and -odont- ('tooth').[1]

References

[edit]
  1. ^ "Definition of orthodontics | Dictionary.com". www.dictionary.com. Retrieved 2019-08-28.
  2. ^ "What is orthodontics?// Useful Resources: FAQ and Downloadable eBooks". Orthodontics Australia. Retrieved 2020-08-13.
  3. ^ Lombardo G, Vena F, Negri P, Pagano S, Barilotti C, Paglia L, Colombo S, Orso M, Cianetti S (June 2020). "Worldwide prevalence of malocclusion in the different stages of dentition: A systematic review and meta-analysis". Eur J Paediatr Dent. 21 (2): 115–22. doi:10.23804/ejpd.2020.21.02.05. PMID 32567942.
  4. ^ Whitcomb I (2020-07-20). "Evidence and Orthodontics: Does Your Child Really Need Braces?". Undark Magazine. Retrieved 2020-07-27.
  5. ^ "Controversial report finds no proof that dental braces work". British Dental Journal. 226 (2): 91. 2019-01-01. doi:10.1038/sj.bdj.2019.65. ISSN 1476-5373. S2CID 59222957.
  6. ^ von Cramon-Taubadel N (December 2011). "Global human mandibular variation reflects differences in agricultural and hunter-gatherer subsistence strategies". Proceedings of the National Academy of Sciences of the United States of America. 108 (49): 19546–19551. Bibcode:2011PNAS..10819546V. doi:10.1073/pnas.1113050108. PMC 3241821. PMID 22106280.
  7. ^ Rose, Jerome C.; Roblee, Richard D. (June 2009). "Origins of dental crowding and malocclusions: an anthropological perspective". Compendium of Continuing Education in Dentistry (Jamesburg, N.J.: 1995). 30 (5): 292–300. ISSN 1548-8578. PMID 19514263.
  8. ^ a b c d e f g h i j k Proffit WR, Fields Jr HW, Larson BE, Sarver DM (2019). Contemporary orthodontics (Sixth ed.). Philadelphia, PA. ISBN 978-0-323-54387-3. OCLC 1089435881.cite book: CS1 maint: location missing publisher (link)
  9. ^ a b c d e "A Brief History of Orthodontic Braces – ArchWired". www.archwired.com. 17 July 2019.[self-published source]
  10. ^ Peck S (November 2009). "A biographical portrait of Edward Hartley Angle, the first specialist in orthodontics, part 1". The Angle Orthodontist. 79 (6): 1021–1027. doi:10.2319/021009-93.1. PMID 19852589.
  11. ^ "The Application of the Principles of the Edge- wise Arch in the Treatment of Malocclusions: II.*". meridian.allenpress.com. Retrieved 2023-02-07.
  12. ^ "British Orthodontic Society > Museum and Archive > Collection > Fixed Appliances > Begg". www.bos.org.uk. Retrieved 2023-02-07.
  13. ^ Safirstein D (August 2015). "P. Raymond Begg". American Journal of Orthodontics and Dentofacial Orthopedics. 148 (2): 206. doi:10.1016/j.ajodo.2015.06.005. PMID 26232825.
  14. ^ Higley LB (August 1940). "Lateral head roentgenograms and their relation to the orthodontic problem". American Journal of Orthodontics and Oral Surgery. 26 (8): 768–778. doi:10.1016/S0096-6347(40)90331-3. ISSN 0096-6347.
  15. ^ Themes UF (2015-01-12). "14: Cephalometric radiography". Pocket Dentistry. Retrieved 2023-02-07.
  16. ^ a b Andrews LF (December 2015). "The 6-elements orthodontic philosophy: Treatment goals, classification, and rules for treating". American Journal of Orthodontics and Dentofacial Orthopedics. 148 (6): 883–887. doi:10.1016/j.ajodo.2015.09.011. PMID 26672688.
  17. ^ Andrews LF (September 1972). "The six keys to normal occlusion". American Journal of Orthodontics. 62 (3): 296–309. doi:10.1016/s0002-9416(72)90268-0. PMID 4505873. S2CID 8039883.
  18. ^ a b Themes UF (2015-01-01). "31 The straight wire appliance". Pocket Dentistry. Retrieved 2023-02-07.
  19. ^ Andrews LF (July 1979). "The straight-wire appliance". British Journal of Orthodontics. 6 (3): 125–143. doi:10.1179/bjo.6.3.125. PMID 297458. S2CID 33259729.
  20. ^ Phulari B (2013), "Andrews' Straight Wire Appliance", History of Orthodontics, Jaypee Brothers Medical Publishers (P) Ltd., p. 98, doi:10.5005/jp/books/12065_11, ISBN 9789350904718, retrieved 2023-02-07
  21. ^ Angle EH. Treatment of malocclusion of the teeth. 7th éd. Philadelphia: S.S.White Dental Mfg Cy, 1907
  22. ^ Philippe J (March 2008). "How, why, and when was the edgewise appliance born?". Journal of Dentofacial Anomalies and Orthodontics. 11 (1): 68–74. doi:10.1051/odfen/20084210113. ISSN 2110-5715.
  23. ^ Angle EH (1912). "Evolution of orthodontia. Recent developments". Dental Cosmos. 54: 853–867.
  24. ^ Brodie AG (1931). "A discussion on the Newest Angle Mechanism". The Angle Orthodontist. 1: 32–38.
  25. ^ Angle EH (1928). "The latest and best in Orthodontic Mechanism". Dental Cosmos. 70: 1143–1156.
  26. ^ Brodie AG (1956). "Orthodontic Concepts Prior to the Death of Edward Angle". The Angle Orthodontist. 26: 144–155.
  27. ^ Matasa CG, Graber TM (April 2000). "Angle, the innovator, mechanical genius, and clinician". American Journal of Orthodontics and Dentofacial Orthopedics. 117 (4): 444–452. doi:10.1016/S0889-5406(00)70164-8. PMID 10756270.
  28. ^ Andrews LF. Straight Wire: The Concept and Appliance. San Diego: LA Wells; 1989.
  29. ^ Andrews LF (1989). Straight wire: the concept and appliance. Lisa Schirmer. San Diego, CA. ISBN 978-0-9616256-0-3. OCLC 22808470.cite book: CS1 maint: location missing publisher (link)
  30. ^ Roth RH (November 1976). "Five year clinical evaluation of the Andrews straight-wire appliance". Journal of Clinical Orthodontics. 10 (11): 836–50. PMID 1069735.
  31. ^ Fleming PS, Fedorowicz Z, Johal A, El-Angbawi A, Pandis N, et al. (The Cochrane Collaboration) (June 2015). "Surgical adjunctive procedures for accelerating orthodontic treatment". The Cochrane Database of Systematic Reviews. 2015 (6). John Wiley & Sons, Ltd.: CD010572. doi:10.1002/14651858.cd010572. PMC 6464946. PMID 26123284.
  32. ^ "What is an Orthodontist?". Orthodontics Australia. 5 December 2019.
  33. ^ Dardengo C, Fernandes LQ, Capelli Júnior J (February 2016). "Frequency of orthodontic extraction". Dental Press Journal of Orthodontics. 21 (1): 54–59. doi:10.1590/2177-6709.21.1.054-059.oar. PMC 4816586. PMID 27007762.
  34. ^ "Child Dental Health Survey 2013, England, Wales and Northern Ireland". digital.nhs.uk. Retrieved 2018-03-08.
  35. ^ Atsawasuwan P, Shirazi S (2019-04-10). "Advances in Orthodontic Tooth Movement: Gene Therapy and Molecular Biology Aspect". In Aslan BI, Uzuner FD (eds.). Current Approaches in Orthodontics. IntechOpen. doi:10.5772/intechopen.80287. ISBN 978-1-78985-181-6. Retrieved 2021-05-16.
  36. ^ a b "Elastics For Braces: Rubber Bands in Orthodontics". Orthodontics Australia. 2019-12-15. Retrieved 2020-12-13.
  37. ^ Mitchell L (2013). An Introduction to Orthodontics. Oxford Medical Publications. pp. 220–233.
  38. ^ Rossini G, Parrini S, Castroflorio T, Deregibus A, Debernardi CL (September 2015). "Efficacy of clear aligners in controlling orthodontic tooth movement: a systematic review". The Angle Orthodontist. 85 (5): 881–889. doi:10.2319/061614-436.1. PMC 8610387. PMID 25412265. S2CID 10787375. The quality level of the studies was not sufficient to draw any evidence-based conclusions.
  39. ^ "Dental Braces and Retainers".
  40. ^ Millett DT, Cunningham SJ, O'Brien KD, Benson PE, de Oliveira CM (February 2018). "Orthodontic treatment for deep bite and retroclined upper front teeth in children". The Cochrane Database of Systematic Reviews. 2 (2): CD005972. doi:10.1002/14651858.CD005972.pub4. PMC 6491166. PMID 29390172.
  41. ^ "Palate Expander". Cleveland Clinic. Retrieved October 29, 2024.
  42. ^ "Jaw Surgery". Modern Orthodontic Clinic in Sammamish & Bellevue. Retrieved 2024-10-03.
  43. ^ Agnihotry A, Fedorowicz Z, Nasser M, Gill KS, et al. (The Cochrane Collaboration) (October 2017). Zbigniew F (ed.). "Resorbable versus titanium plates for orthognathic surgery". The Cochrane Database of Systematic Reviews. 10 (10). John Wiley & Sons, Ltd: CD006204. doi:10.1002/14651858.cd006204. PMC 6485457. PMID 28977689.
  44. ^ "British Orthodontic Society > Public & Patients > Your Jaw Surgery". www.bos.org.uk. Retrieved 2019-08-28.
  45. ^ Fleming PS, Strydom H, Katsaros C, MacDonald L, Curatolo M, Fudalej P, Pandis N, et al. (Cochrane Oral Health Group) (December 2016). "Non-pharmacological interventions for alleviating pain during orthodontic treatment". The Cochrane Database of Systematic Reviews. 2016 (12): CD010263. doi:10.1002/14651858.CD010263.pub2. PMC 6463902. PMID 28009052.
  46. ^ Yu Y, Sun J, Lai W, Wu T, Koshy S, Shi Z (September 2013). "Interventions for managing relapse of the lower front teeth after orthodontic treatment". The Cochrane Database of Systematic Reviews. 2014 (9): CD008734. doi:10.1002/14651858.CD008734.pub2. PMC 10793711. PMID 24014170.
  47. ^ "Clear Retainers | Maintain Your Hard to Get Smile with Clear Retainers". Retrieved 2020-01-13.
  48. ^ a b Martin C, Littlewood SJ, Millett DT, Doubleday B, Bearn D, Worthington HV, Limones A (May 2023). "Retention procedures for stabilising tooth position after treatment with orthodontic braces". The Cochrane Database of Systematic Reviews. 2023 (5): CD002283. doi:10.1002/14651858.CD002283.pub5. PMC 10202160. PMID 37219527.
  49. ^ Putrino A, Barbato E, Galluccio G (March 2021). "Clear Aligners: Between Evolution and Efficiency-A Scoping Review". International Journal of Environmental Research and Public Health. 18 (6): 2870. doi:10.3390/ijerph18062870. PMC 7998651. PMID 33799682.
  50. ^ a b Christensen GJ (March 2002). "Orthodontics and the general practitioner". Journal of the American Dental Association. 133 (3): 369–371. doi:10.14219/jada.archive.2002.0178. PMID 11934193.
  51. ^ "How to become an orthodontist". Orthodontics Australia. 26 September 2017.
  52. ^ "Studying orthodontics". Australian Society of Orthodontists. 26 September 2017.
  53. ^ "Specialties and Specialty Fields". Australian Health Practitioners Regulation Agency.
  54. ^ "Medical Specialties and Specialty Fields". Medical Board of Australia.
  55. ^ a b c "Dhaka Dental College". Dhaka Dental College. Archived from the original on October 28, 2017. Retrieved October 28, 2017.
  56. ^ "List of recognized medical and dental colleges". Bangladesh Medical & Dental Council (BM&DC). Retrieved October 28, 2017.
  57. ^ "Orthodontic Facts - Canadian Association of Orthodontists". Canadian Association of Orthodontists. Retrieved 26 October 2017.
  58. ^ a b c "FAQ: I Want To Be An Orthodontist - Canadian Association of Orthodontists". Canadian Association of Orthodontists. Retrieved 26 October 2017.
  59. ^ "RCDC - Eligibility". The Royal College of Dentists of Canada. Archived from the original on 29 October 2019. Retrieved 26 October 2017.
  60. ^ "Accredited Orthodontic Programs - AAO Members". www.aaoinfo.org.
  61. ^ a b c d e f "About Board Certification". American Board of Orthodontists. Archived from the original on 16 February 2019. Retrieved 26 October 2017.
  62. ^ "Accredited Orthodontic Programs | AAO Members". American Association of Orthodontists. Retrieved 26 October 2017.
  63. ^ a b c d e f "Orthodontic Specialty Training in the UK" (PDF). British Orthodontic Society. Retrieved 28 October 2017.
Look up orthodontics in Wiktionary, the free dictionary.
 
Wikimedia Commons has media related to Orthodontics.
 
 
 

 

Check our other pages :