aggressive periodontitis 123
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AGGRESSIVE PERIODONTITIS
Presented by:Dr. Krishna Das1st Yr PG StudentDepartment of Periodontology and Oral Implantology
Aggressive periodontitis, by definition, causes rapid destruction of the periodontal attachment apparatus and the supporting alveolar bone.
Aggressive periodontitis may be further classified into: 1) Localized Aggressive Periodontitis 2) Generalized Aggressive Periodontitis
Aggressive Periodontitis
Aggressive Periodontitis
The following characteristics are common to patients with aggressive periodontitis:
Otherwise clinically healthy patient.
Rapid attachment loss and bone destruction.
Amount of microbial deposits inconsistent with disease severity.
Familial aggregation of diseased individual.
The following characteristics are common but not universal:
Diseased sites infected with Actinobacillus actinomycetemcomitans (now Aggregatibacter actinomycetemcomitans, A.a.)
Abnormalities in phagocyte function.
Hyperresponsive macrophages, producing increased prostaglandin E2 (PGE2) and interleukin-1β (IL-1β).
In some cases, self-arresting disease progression.
Historical Background
In 1923, Gottlieb called diffuse atrophy of the alveolar bone and deep cementopathia.
In 1938, Wannenmacher described incisor-first molar involvement and called the disease parodontitis marginalis progressiva.
In 1966 the World Workshop in Periodontics concluded that the concept of “periodontosis” as a degenerative entity was unsubstantiated and that the term should be eliminated from periodontal nomenclature.
The term juvenile periodontitis was introduced by Chaput and colleagues in 1967 and by Butler in 1969.
In 1971, Baer defined it as "a disease of the periodontium occurring in an otherwise healthy adolescent which is characterized by a rapid loss of alveolar bone about more than one tooth of the permanent dentition. The amount of destruction manifested is not commensurate with the amount of local irritants."
In 1989 the World Workshop in Clinical Periodontics categorized this disease as localized juvenile periodontitis (LJP), a subset of the broad classification of early onset periodontitis (EOP).
Under this classification system, age of onset and distribution of lesions were of primary importance when making a diagnosis of LJP.
Most recently, disease with the characteristics of LJP has been renamed localized aggressive periodontitis(LAP).
LOCALIZED AGGRESSIVE PERIODONTITIS
Clinical Features of Localized Aggressive Periodontitis
Clinically, it is characterized as having “localized first molar/incisor presentation with interproximal attachment loss on at least two permanent teeth, one of which is a first molar, and involving no more than two teeth other than first molars and incisors”
Onset of disease occurs between puberty & 20 years of age.
Bone loss 3-4 times faster than in chronic periodontitis.
Clinical inflammation may not be obvious.
Robust serum antibody response to infecting agents.
Minimal plaque that rarely mineralizes. However contains elevated levels of A.a. & Porphyromonas gingivalis (P.g.).
Maxillary incisors migrate in distolabial direction diastema.
Increasing mobility of affected teeth.
Sensitivity of denuded root surfaces.
Periodontal abscess formation.
Regional lymph node enlargement may occur
Localized aggressive periodontitis in 17-year-old girl. Gingival inflammation, periodontal pockets, and pathologic migration.
Site Specific Destruction Some reasons why disease activity affects certain
teeth:
#1: A.a. colonize first permanent teeth to erupt.
Evade host defenses
Following initial attack, host responds and produces antibodies which improve phagocytosis of bacteria and neutralize leucotoxic activity
Colonization of other sites may be prevented.
Additional reasons:
#2: A.a. may lose its ability to produce leukotoxin. This may slow or arrest the disease process.
#3: Antagonistic bacteria Anti-A.a. bacteria may colonize sites & prevent A.a. from
colonizing other sites in mouth. Localizes the infection & tissue destruction.
#4: Denuded root surfacesThe root surfaces of patient with LAP are often denuded (hypoplastic or aplastic cementum).Allows bacteria to penetrate the root and colonize the site.
Radiographic Evaluation
Vertical bone loss occurs ,usually bilateral, affecting first permanent molars & incisors.
“Arc-shaped” bone loss extending from the distal surface of
the 2nd premolar to the mesial surface of the 2st molar.
Clinical and cone beam CT view of advanced alveolar bone resorption around incisors and first molar in a 24-year-old male with aggressive periodontitis.
GENERALIZED AGGRESSIVE PERIODONTITIS
Clinical Features of Generalized Aggressive Periodontitis
Characterized by “Generalized interproximal attachment loss affecting at least three permanent teeth other than first molars & incisors”
Includes conditions formerly known as generalized juvenile and rapidly progressive periodontitis
Usually affects persons 30 years & younger but can affect older persons.
Poor serum antibody response to infecting agents.
Often plaque is minimal but contains high levels of:
• A.actinomycetemcomitans• P..gingivalis• Tannerella forsythia (previously B. forsythus)
Episodic nature to disease
-Periods of inactivity may last weeks, months, or years.
Episodic nature of disease produces two different tissue responses
Non-destructive phase:
Tissues may appear pink with some stipplingLack of inflammationProbing will reveal deep pocketsBone & attachment levels relatively stable
Destructive phase:
Tissue appears severely inflamed, ulcerated & fiery red
Bleeding with or without stimulationSuppurationActive attachment & bone loss
Associated Systemic Complications
Some clients with GAP may exhibit:• Weight loss• Mental depression• general malaise
Systemic conditions may predispose patient to GAP, these include chronic neutrophil defects, leukocyte adherence deficiency
Functional defects of PMNs, monocytes or both
impaired chemotaxis & phagocytosis
Radiographic Evaluation
Severe bone loss affecting minimal number of teeth
to
Advanced bone loss affecting the majority of teeth in the dentition.
Generalized aggressive periodontitis and poor crown-to-root ratio in 24-year-old patient; overall prognosis poor. A, generalized periodontal attachment loss and pocket formation. B, Moderate to advanced bone destruction. Thecontrast between the well-formed crowns and the relatively short, tapered roots worsens the prognosis.
Prevalence of Aggressive Periodontitis
Prevalence estimates below 1% (U.S. & other countries).
Prevalence for both types higher among African-Americans.
Gender differences unclear.
Distribution of disease by gender among race groups:
• Prevalence higher for African-American males compared to females.
• Reverse is true among whites.
Risk Factors 1) Microbiologic Factors
A.a. has been implicated as the primary pathogen associated with LAP.
A.a. produces a strong leukotoxin kills neutrophils.
Different strains of A.a. produce different levels of leukotoxin:
• Highly toxic strains produce greater numbers of leukotoxin
• People with the disease more likely to have highly toxic strains
(African-Americans in particular)
2) Immunologic Factors
The human leukocyte antigens (HLAs), which regulate immune responses, have been evaluated as candidate markers for aggressive periodontitis( HLA A9 and B15 )
Functional defect in PMNs and monocytes or both:
-Impaired chemotaxis
-Impaired phagocytosis
Hyperresponsiveness of monocyte (LAP) PGE2
increased connective tissue or bone loss
Also, poorly functional inherited forms of monocyte FcγRII , the receptor for human immunoglobulin G2 (IgG2) antibodies, have been shown to be disproportionately present in patients with LAP.
Autoimmunity has a role in GAP host antibodies to collagen, DNA and IgG.
3) Genetic Factors
All individuals are not equally susceptible to aggressive periodontitis.
Familial pattern of alveolar bone loss
Data support the concept that a gene or genes of major effect exists for aggressive periodontitis.
Data also support a genetic basis for some of the immunologic defects seen in patients with aggressive periodontitis.
However, it is unlikely that all patients affected with aggressive periodontitis have the same genetic defect.
As summarized by Tonetti and Mombelli,
“it seems that specific genes may be different in various populations and/or ethnic groups and therefore true heterogeneity in disease susceptibility may be present. The role of specific genes remains to be elucidated ”
The amount and duration of smoking are important variables that can influence the extent of destruction seen in young adults.
Patients with GAP who smoke have more affected teeth and more loss of clinical attachment than nonsmoking patients with GAP.
However, smoking may not have the same impact on attachment levels in younger patients with LAP.
4) Environmental Factors
Systemic Conditions associated with Aggressive Periodontitis
Cyclic neutropenia
Agammaglobulinemia
Ehlers Danlos Syndrome
Lazy leukocyte Syndrome
Disease associated with deficient PMN leukocyte function:
- Papillon Lefevre Syndrome - Downs Syndrome - Chediak Higashi Syndrome
Aggressive Periodontitis - Treatment
The prognosis for patients with aggressive periodontitis depends on:
whether the disease is generalized or localized,
the degree of destruction present at the time of diagnosis, and
the ability to control future progression.
Therapeutic Modalities
Early detection : preventing further destruction more predictable than attempting to regenerate lost supporting tissues.
Conventional Periodontal therapy: -Patient education: about disease, risk factors and patients role in success of treatment
-oral hygiene improvement -scaling and root planning(SRP) -frequent recall maintenance(but response to conventional treatment is unpredictable)
Educate family members and examine siblings- familial aggregation
Surgical Therapy:
1) Resective Therapy: decreases or eliminate pocket depth.
Limitations: Further risk of increased mobility.
careful evaluation of risk/benefit must be considered from case to case
2) Regenerative Therapy: bone grafts, barrier membrane and wound healing agents. In intrabony defect particularly vertical with multiple walls.
Limitations: -patients with severe bone loss -depends on anatomy of defect and tooth involved.
Antimicrobial Therapy: A.a. remains in pocket even after conventional treatment reinfection require use of systemic antibiotics.
1) Systemic Antibiotics: -more favorable clinical response -increase in clinical attachment level -decrease probing pocket depth -decrease risk of additional attachment loss antibiotics used: amoxicillin tetracycline amoxicillin + metronidazole clindamycin doxycycline
2) Microbial testing: Advocated by some clinician for sensitivity and resistance to select antibiotics.But according to Carranza empirical use of antibiotic (amoxicillin and metronidazole) is more clinically sound and cost effective.
3) Local drug delivery: for localized infections. advantages: -small total dose -avoid systemic side effects - exposure to target microorganism to high concentration so more therapeutic level of medication is achieved
Full mouth disinfection:
Described by Quirynen et alFull mouth debridement (remove all plaque and calculus) completely in two appointments within 24 hours. Which also includes : -SRP -tongue brushed with CHX gel 1%(1 min) -full mouth rinse with CHX solution 0.2% (2min) -periodontal pocket irrigated with CHX solution 1%
Host Modulation: is a means of treating the host side of the host-bacteria interaction.
Several agents used: Sub-antimicrobial dose doxacycline(SDD) Flubriprofen Indomethacin Naproxen
PDL tissues(fibroblast, neutrophils…..)
Matrix metalloproteinases(MMP8 & MMP9)
Degrades extracellular matrix material (collagen-I breakdown)
Clinical signs of periodontitis
SDD
Downregulates
Also causes: Reduced cytokene level Stimulates osteoblastic activity New bone formation by upregulating collagen production
inflammation
Restorative considerations:
Sever teeth should be extracted -outcome of treatment limited -their retention may cause additional bone lossRestoration of lost tooth:
1) Transplantation: have been attempted but with limited success.
2) Dental Implants: recent studies (eg. Mengel et al.) have shown successful implant rehabilitation for partially edentulous in patient with treated for GAP.
But it was observed that the bone loss and attachment loss around implant patient in GAP > periodontally healthy patient.
Periodontal Maintenance: Frequent maintenance visit is one of the most important factors in the control the disease and success of treatment. - no longer than 3 months after the surgical therapy - in case of active disease : 3-4 weeks
PARAMETERS GAP LAP
Age 20-35 yrs 11-19yrs
Calculus Scanty to moderate moderate
Disease progression Rapid Rapid
Distribution Generalized; no consistent pattern
1st molars and incisors
Antibody response Poor Strong
Racial predilection No More common in blacks
Familial Tendency Yes Yes
Gender distribution ? ?
PMN/ Macrophage Defect Yes Yes
Associated with systemic problems
Some cases Yes
Response to therapy Variable Good
Thank You