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This type of gingival enlargement is sometimes termed "drug induced gingival enlargement" or "drug influenced gingival enlargement", abbreviated to "DIGO". Gingival enlargement may also be associated with the administration of three different classes of drugs, all producing a similar response: Gingival overgrowth is a common side effect of phenytoin, termed "Phenytoin-induced gingival overgrowth" (PIGO).
- anticonvulsants (such as phenytoin, phenobarbital, lamotrigine, vigabatrin, ethosuximide, topiramate and primidone NOT common for valproate)
- calcium channel blockers (antihypertensives such as nifedipine, amlodipine, and verapamil). The dihydropyridine derivative isradipidine can replace nifedipine and does not induce gingival overgrowth.
- cyclosporine, an immunosuppresant.
Of all cases of DIGO, about 50% are attributed to phenytoin, 30% to cyclosporins and the remaining 10-20% to calcium channel blockers.
Drug-induced enlargement has been associated with a patient's genetic predisposition, and its association with inflammation is debated. Some investigators assert that underlying inflammation is necessary for the development of drug-induced enlargement, while others purport that the existing enlargement induced by the drug effect compounds plaque retention, thus furthering the tissue response. Careful attention to oral hygiene may reduce the severity of gingival hyperplasia. In most cases, discontinuing the culprit drug resolves the hyperplasia.
Many systemic diseases can develop oral manifestations that may include gingival enlargement, some that are related to conditions and others that are related to disease:
- Conditioned enlargement
- pregnancy
- puberty
- vitamin C deficiency
- nonspecific, such as a pyogenic granuloma
- Systemic disease causing enlargement
- leukemia
- granulolomatous diseases, such as granulomatosis with polyangiitis, sarcoidosis, or orofacial granulomatosis.
- neoplasm
- benign neoplasms, such as fibromas, papillomas and giant cell granulomas
- malignant neoplasms, such as a carcinoma or malignant melanoma
- false gingival enlargements, such as when there is an underlying bony or dental tissue lesion
This condition occurs in association with denture wearing, and so those affected tend to be middle aged or older adults. 66-75% are estimated to occur in women. Epulis fissuratum is the third most common reactive lesion that occurs in the mouth, after peripheral giant cell granuloma and pyogenic granuloma.
OFG is uncommon, but the incidence is increasing. The disease usually presents in adolescence or young adulthood. It may occur in either sex, but males are slightly more commonly affected.
There are many possible causes of gingival bleeding. The main cause of gingival bleeding is the formation and accumulation of plaque at the gum line due to improper brushing and flossing of teeth. The hardened form of plaque is calculus. An advanced form of gingivitis as a result of formation of plaque is periodontitis. Other causes that can exacerbate gingival bleeding include:
- placement of new dentures
- tooth or gum infection
- diabetes mellitus
- idiopathic thrombocytopenic purpura
- leukemia
- malnutrition
- use of aspirin and anticoagulants(blood thinners) such as warfarin and heparin
- hormonal imbalances during puberty and pregnancy
- iron overload
Other less common causes are:
- vitamin C deficiency (scurvy) and vitamin K deficiency
- dengue fever
If the causative factor persists, tissue will become more fibrous over time.
Risk factors associated with gingivitis include the following:
- age
- osteoporosis
- low dental care utilization (fear, financial stresses, etc.)
- poor oral hygiene
- overly aggressive oral hygiene such as brushing with stiff bristles
- mouth-breathing during sleep
- medications that dry the mouth
- cigarette smoking
- genetic factors
- pre-existing conditions
There is only very weak evidence linking to coronary heart disease.
There is little evidence linking progression of periodontal disease to low birth weight or preterm birth:
"In these women with periodontitis and within this study's limitations, disease progression was not associated with an increased risk for delivering a pre-term or a low birthweight infant."
There is recently emerged evidence linking chronic periodontitis with head and neck squamous cell carcinoma: "Patients with periodontitis were more likely to have poorly differentiated oral cavity SCC than those without periodontitis (32.8% versus 11.5%; P = 0.038)".
There is evidence to suggest that periodontal disease may play a role in the pathogenesis of Alzheimer's Disease.
Periapical periodontitis of some form is a very common condition. The prevalence of periapical periodontitis is generally reported to vary according to age group, e.g. 33% in those aged 20–30, 40% in 30- to 40-year-olds, 48% in 40- to 50-year-olds, 57% in 50- to 60-year-olds and 62% in those over the age of 60. Most epidemiologic data has been generated in European countries, especially Scandinavia. Millions of root canal treatments are carried out in the United States each year, although the total number of root canal treatments is an imperfect indicator of the prevalence of periapical periodontitis, since not always is it performed due to the presence of periapacial periodontitis, and not all cases of asymptomatic periodontitis will be treated in this manner, either due to lack of patient attendance or watchful waiting.
The cause of the condition is unknown. The disease is characterized by non-caseating granulomatous inflammation. That is, the granulomas do not undergo the caseating ("cheese-like") necrosis typical of the granulomas of tuberculosis.
There is disagreement as to whether OFG represents an early form of Crohn's disease or sarcoidosis, or whether it is a distinct, but similar clinical entity. Crohn's disease can affect any part of gastrointestinal tract, from mouth to anus. When it involves the mouth alone, some authors refer to this as "oral Crohn's disease", distinguishing it from OFG, and others suggest that OFG is the same condition as Crohn's disease when it presents in the oral cavity.
OFG may represent a delayed hypersensitivity reaction, but the causative antigen(s) is not identified or varies form one individual to the next. Suspected sources of antigens include metals, e.g. cobalt, or additives and preservatives in foods, including benzoates, benzoic acid, cinnamaldehyde, metabisulfates, butylated hydroxyanisole, dodecyl gallate, tartrazine, or menthol, Examples of foods which may contain these substances include margarine, cinnamon, eggs, chocolate or peppermint oil.
Some suggest that infection with atypical mycobacteria could be involved, (paratuberculosis), and that OFG is a reaction to mycobacterial stress protein mSP65 acting as an antigen.
In response to an antigen, a chronic, submucosal, T cell mediated inflammatory response occurs, which involves cytokines (e.g. tumor necrosis factor alpha), protease-activated receptors, matrix metalloproteinases and cyclooxygenases. The granulomas in OFG form in the lamina propria, and may form adjacent to or within lymphatic vessels. This is thought to cause obstruction of lymphatic drainage and lymphedema which is manifest as swelling clinically.
There may be a genetic predisposition to the condition. People who develop OFG often have a history of atopy, such as childhood asthma or eczema.
Untreated, the infection may lead to rapid destruction of the periodontium and can spread, as necrotizing stomatitis or noma, into neighbouring tissues in the cheeks, lips or the bones of the jaw. As stated, the condition can occur and be especially dangerous in people with weakened immune systems. This progression to noma is possible in malnourished susceptible individuals, with severe disfigurement possible.
In developed countries, this disease occurs mostly in young adults. In developing countries, NUG may occur in children of low socioeconomic status, usually occurring with malnutrition (especially inadequate protein intake) and shortly after the onset of viral infections (e.g. measles).
Predisposing factors include smoking, viral respiratory infections and immune defects, such as in HIV/AIDS. Uncommon, except in lower socioeconomic classes, this typically affects adolescents and young adults, especially in institutions, armed forces, etc., or people with HIV/AIDS. The disease has occurred in epidemic-like patterns, but it is not contagious.
An examination by the dentist or dental hygienist should be sufficient to rule out the issues such as malnutrition and puberty. Additional corresponding diagnosis tests to certain potential disease may be required. This includes oral glucose tolerance test for diabetes mellitus, blood studies, human gonadotrophin levels for pregnancy, and X-rays for teeth and jaw bones.
In order to determine the periodontal health of a patient, the dentist or dental hygienist records the sulcular depths of the gingiva and observes any bleeding on probing. This is often accomplished with the use of a periodontal probe. Alternatively, dental floss may also be used to assess the Gingival bleeding index. It is used as an initial evaluation on patient's periodontal health especially to measure gingivitis. The number of bleeding sites is used to calculate the gingival bleeding score.
Peer-reviewed dental literature thoroughly establishes that bleeding on probing is a poor positive predictor of periodontal disease, but conversely lack of bleeding is a very strong negative predictor. The clinical interpretation of this research is that while BOP presence may not indicate periodontal disease, continued absence of BOP is a strong predictor (approximately 98%) of continued periodontal health.
Dental plaque accumulates at the surfaces when proper cleaning and maintaining is not done. There is inflammation due to the bacteria released from the toxins. calculus forms and if not removed, causes this disease.
Also termed a "pregnancy tumor" or "granuloma gravidarum", this lesion is identical to a pyogenic granuloma in all respects apart from the fact that it occurs exclusively in pregnant females. There is usually pregnancy gingivitis also. Pregnancy epulis commonly occurs during the third trimester of pregnancy.
This is a fibrous hyperplasia of excess connective tissue folds that takes place in reaction to chronic trauma from an ill fitting denture. It usually occurs in the mandibular labial sulcus. Sometimes the term "epulis" is used synonymously with epulis fissuratum, but this is technically incorrect as several other lesions could be described as epulides.
Some researchers suggest that HGF is transmitted as a Mendelian trait since both autosomal dominant and autosomal recessive transmission has been reported since the early 1970s. (SOURCE 1) In more recent scientific literature, there is evidence in which pedigree analyses confirm autosomal dominant, autosomal recessive or even as X-linked inherited cases of the HGF trait.
In 2002, researchers described the SOS1 gene and proved for the first time that a single-nucleotide–insertion mutation of the SOS1 gene on codon 1083 is the preliminary cause of HGF1 in humans. (Source 1) Later on in 2010, there was a case study done on a 16-year-old male with severe gingival overgrowth, almost covering all teeth. Researchers approached this issue with periodontics - a partial gingivectomy and flap surgery. This case study concluded that surgery followed by regular follow-ups is a good way to treat HGF despite the fact that the risks of re-occurrence of the condition remain high.
Even more recently, a study was done in 2013 on a family that showed history of autosomal recessive inheritance of HGF. The study did not dismiss the return of HGF after treatment but did claim that general surgical intervention after scaling and root planning of teeth supplemented with good oral hygiene is good enough to prevent the re-occurrence of HGF. This case study also acknowledged how HGF can be part of a multi-system syndrome associated with disorders such as Zimmermann Laband syndrome (ear, nose, bone, and nail defects with hepatosplenomegaly), Rutherford syndrome (microphthalmia, mental retardation, athetosis, and hypopigmentation), Murray-Puretic Drescher syndrome and Ramon syndrome.
As defined by the 1999 World Workshop in Clinical Periodontics, there are two primary categories of gingival diseases, each with numerous subgroups:
1. Dental plaque-induced gingival diseases.
1. Gingivitis associated with plaque only
2. Gingival diseases modified by systemic factors
3. Gingival diseases modified by medications
4. Gingival diseases modified by malnutrition
2. Non-plaque-induced gingival lesions
1. Gingival diseases of specific bacterial origin
2. Gingival diseases of viral origin
3. Gingival diseases of fungal origin
4. Gingival diseases of genetic origin
5. Gingival manifestations of systemic conditions
6. Traumatic lesions
7. Foreign body reactions
8. Not otherwise specified
Plasma cell gingivits is rare, and plasma cell cheilitis is very rare. Most people with plasma cell cheilitis have been elderly.
In the early stages, chronic periodontitis has few symptoms and in many individuals the disease has progressed significantly before they seek treatment.
Symptoms may include the following:
- Redness or bleeding of gums while brushing teeth, using dental floss or biting into hard food (e.g. apples) (though this may occur even in gingivitis, where there is no attachment loss)
- Gum swelling that recurs
- Halitosis, or bad breath, and a persistent metallic taste in the mouth
- Gingival recession, resulting in apparent lengthening of teeth. (This may also be caused by heavy-handed brushing or with a stiff tooth brush.)
- Deep pockets between the teeth and the gums (pockets are sites where the attachment has been gradually destroyed by collagen-destroying enzymes, known as "collagenases")
- Loose teeth, in the later stages (though this may occur for other reasons as well)
Gingival inflammation and bone destruction are often painless. Patients sometimes assume that painless bleeding after teeth cleaning is insignificant, although this may be a symptom of progressing chronic periodontitis in that patient.
Subgingival calculus is a frequent finding.
There is a slow to moderate rate of disease progression but the patient may have periods of rapid progression ("bursts of destruction"). Chronic periodontitis can be associated with local predisposing factors(e.g. tooth-related or iatrogenic factors). The disease may be modified by and be associated with systemic diseases (e.g. diabetes mellitus, HIV infection) It can also be modified by factors other than systemic disease such as smoking and emotional stress.
Major risk factors: Smoking, lack of oral hygiene with inadequate plaque biofilm control.
Measuring disease progression is carried out by measuring probing pocket depth (PPD) and bleeding indices using a periodontal probe. Pockets greater than 3mm in depth are considered to be unhealthy. Bleeding on probing is considered to be a sign of active disease. Discharge of pus, involvement of the root furcation area and deeper pocketing may all indicate reduced prognosis for an individual tooth.
Age is related to the incidence of periodontal destruction: "...in a well-maintained population who practises oral home care and has regular check-ups, the incidence of incipient periodontal destruction increases with age, the highest rate occurs between 50 and 60 years, and gingival recession is the predominant lesion before 40 years, while periodontal pocketing is the principal mode of destruction between 50 and 60 years of age."
Chronic periapical periodontitis, also termed chronic apical periodontitis, chronic periradicular periodontitis, or assymptomatic periapical periodontitis
A periapical granuloma (also termed an apical granuloma or a radicular granuloma) is mass of chronically inflamed granulation tissue that forms at the apex of the root of a nonvital (dead) tooth. However, a periapical granuloma does not contain granulomatous inflammation, and therefore is not a true granuloma, but the term "periapical granuloma" is in common use.
There are many possible causes for gingival recession:
- By far the most common cause is gum disease (periodontal disease).
- Overaggressive brushing is often assumed to cause gum recession, however a systematic review of the literature concludes that "The data to support or refute the association between tooth brushing and gingival recession are inconclusive." A subsequent study found horizontal tooth brushing technique (versus Bass technique or circular methods), medium-hardness toothbrush use and brushing only once daily were associated with gingival recession.
- Hereditary thin, fragile or insufficient gingival tissue predisposes to gingival recession.
- Dipping tobacco, which affects the mucous membrane lining in the mouth and will cause receding gums over time
- Self-inflicted trauma, such as habits like digging a fingernail or pencil into the gum. This type of recession more commonly associated with children and persons with psychiatric disorders.
- Scurvy (lack of dietary vitamin C)
- Acute necrotizing ulcerative gingivitis
- Abnormal tooth position, such as tooth crowding, giving inadequate cover of one or more teeth by the jaw bone.
- Piercings in the lip or tongue that wear away the gum by rubbing against it.
- Intentional gingival retraction. For example, the adult tooth may not grow out of the gum, and to remedy this, a procedure called an exposure is done. It involves the gum tissue being cut open to allow the adult tooth to grow out. This is a less common cause of gum recession.
The following can occur if left untreated:
- Too much gingiva exposure
- Oral morbidity
- Chronic infection of areas between the gums and teeth, or at the gum line
- various degrees of Periodontitis - most likely due to the inability and difficulty of keeping the gingival margin and surrounding tissue clean due to the overgrowth
- Improper tooth eruption and/or complete prevention of tooth eruption as a result of too much gingiva exposure
- Systemic every-day troubles including functional and aesthetic problems of the mouth
- Malocclusion
Daily oral hygiene measures to prevent periodontal disease include:
- Brushing properly on a regular basis (at least twice daily), with the patient attempting to direct the toothbrush bristles underneath the gumline, helps disrupt the bacterial-mycotic growth and formation of subgingival plaque.
- Flossing daily and using interdental brushes (if the space between teeth is large enough), as well as cleaning behind the last tooth, the third molar, in each quarter
- Using an antiseptic mouthwash: Chlorhexidine gluconate-based mouthwash in combination with careful oral hygiene may cure gingivitis, although they cannot reverse any attachment loss due to periodontitis.
- Using periodontal trays to maintain dentist-prescribed medications at the source of the disease: The use of trays allows the medication to stay in place long enough to penetrate the biofilms where the microorganism are found.
- Regular dental check-ups and professional teeth cleaning as required: Dental check-ups serve to monitor the person's oral hygiene methods and levels of attachment around teeth, identify any early signs of periodontitis, and monitor response to treatment.
- Microscopic evaluation of biofilm may serve as a guide to regaining commensal health flora.
Typically, dental hygienists (or dentists) use special instruments to clean (debride) teeth below the gumline and disrupt any plaque growing below the gumline. This is a standard treatment to prevent any further progress of established periodontitis. Studies show that after such a professional cleaning (periodontal debridement), microbial plaque tends to grow back to precleaning levels after about three to four months. Nonetheless, the continued stabilization of a patient's periodontal state depends largely, if not primarily, on the patient's oral hygiene at home, as well as on the go. Without daily oral hygiene, periodontal disease will not be overcome, especially if the patient has a history of extensive periodontal disease.
Periodontal disease and tooth loss are associated with an increased risk, in male patients, of cancer.
Contributing causes may be high alcohol consumption or a diet low in antioxidants.
Treatment usually involves surgical removal of the lesion down to the bone. If there are any adjacent teeth, they are cleaned thoroughly to remove any possible source of irritation. Recurrence is around 16%.