Diagnosis

Periodontal abscess #19, combined periodontic‐endodontic lesion #19 (Armitage 1999).

Treatment Plan

As tooth #19 was deemed to have a poor prognosis, extraction was recommended. The patient did not consent to extraction that day, but did consent to drainage of the infection. After inferior alveolar block anesthesia with one carpule 2% lidocaine with 1 : 100,000 epinephrine, drainage was established through the furcation with combined ultrasonic and curette instrumentation. Antibiotics (amoxicillin 500 mg TID for seven days) were prescribed and the patient was advised to return in one week for extraction of #19 and for a comprehensive oral evaluation. The patient did not return and has been lost to follow up.

Discussion

Periodontitis is a bacterially initiated series of inflammatory processes that result in the destruction of periodontal connective tissue attachment and supporting bone. Traditional therapy focuses on disruption of the subgingival biofilm mass by mechanical methods such as intensive home care, scaling and root planing, and surgical debridement. Biofilm removal is a difficult task and ultimately incomplete. Most patients demonstrate a favorable clinical response, while some subpopulations of patients respond poorly.

Attempts have been made to address the subgingival biofilm mass through the use of systemic antibiotics with the intention of removing the residual biofilm remaining after mechanical therapy. Multiple clinical studies have been performed to evaluate the potential benefits of adjunctive use of systemic antibiotics in the treatment of chronic periodontitis, aggressive periodontitis, and periodontitis unresponsive to conventional therapy, previously referred to as refractory periodontitis (The American Academy of Periodontology 1989). Variations in research methodology, including study design, antibiotics utilized, dosages, and duration of therapy make comparisons between studies difficult. A recent systematic review of the use of systemic antibiotics in periodontics could not establish definitive conclusions or treatment recommendations (Garcia Canas et al. 2015). Individual clinicians will need to decide if and when antibiotic therapy is appropriate. If antibiotics are to be used, scaling and root planing therapy with intense home care education should be provided first to lower the biofilm load (Jorgenson and Slots 2000). Antibiotic use is generally considered during instances of acute infection (abscesses), and possibly in patients with aggressive periodontitis.

Prior to using systemic antibiotics, the clinician has the obligation to consider multiple patient factors (see Table 5.5.1). A comprehensive review of the patient’s history is necessary with regard to allergies, comorbid medical conditions, current medication profile, and scheduled medical tests or procedures. Possible adverse drug reactions (side effects) of the antibiotics should be considered, as well as potential drug interactions with the patient’s other medications. Most antibiotics can cause nausea and diarrhea, with resultant dehydration raising the blood levels of other medications. Indiscriminate antibiotic use may contribute to the development of bacterial resistance to antimicrobials. Patient compliance with the drug regimen and the economic cost should be considered. Finally, as with all medications, one must consider whether the use of the medication is expected to alter the overall clinical outcome of the disease.

Amoxicillin is a broad‐spectrum penicillin that is bactericidal to both gram‐positive and gram‐negative bacteria (see Table 5.5.2). It is well absorbed orally and can be taken irrespective of meals. It is usually dosed at 500 mg every eight hours. As there is a great overuse of penicillin globally, there is potential for both bacterial resistance and allergic responses. It is susceptible to the bacterial enzyme beta‐lactamase, which renders it ineffective. For that reason, a product has been developed that combines amoxicillin with a beta‐lactamase inhibitor called clavulanic acid. The amoxicillin‐clavulanic acid combination is marketed as the product Augmentin with recommended dosage 500 mg every 12 hours (Ciancio and Mariotti 2014).

Doxycycline is a tetracycline derivative that is bacteriostatic against gram‐positive, gram‐negative, spirochetes, and motile rods. The usual dose is 100 mg daily, but a dose of 100 mg twice a day for the first day and then 100 mg daily is not uncommon. Known side effects are photosensitivity and staining of the developing teeth of fetuses and nursing infants, leading to concerns about use in women of child bearing age (Slots and Ting 2002; Ciancio and Mariotti 2014).

Metronidazole is a nitroimidizole compound that is bactericidal to anaerobes, including spirochetes. It has been used to treat patients with necrotizing ulcerative gingivitis who present with systemic symptoms. It is usually dosed at 500 mg every eight hours. To increase its effectiveness against Aggregatibacter actinomycetemcomitans, it may be combined with amoxicillin at a dose of 250–500 mg of both agents every eight hours (Jorgenson and Slots 2000; Slots and Ting 2002). It has the unique side effect of a disulfiram reaction, in that it may induce severe vomiting when used with alcohol (See Table 5.5.3).

Clindamycin is a lincomycin derivative commonly used in patients with allergies to penicillin. It is bacteriostatic against anaerobes. A common dosage when used in periodontics is 300 mg every eight hours. A potentially fatal side effect of pseudomembranous colitis due to the overgrowth of Clostridium difficile is associated with clindamycin, although the condition may also occur with the use of other antibiotics (Jorgenson and Slots 2000). Clindamycin should not be used in patients with colitis.

Ciprofloxacin is a fluoroquinolone antibiotic effective against anaerobes. It is the only product effective against all strains of A. actinomycetemcomitans. Its usual dose when used in periodontics is 500 mg every 12 hours (Ciancio and Mariotti 2014). It may cause photosensitivity.

Azithromycin is a macrolide effective against anaerobes and gram‐negative bacilli. The usual dose is 500 mg once a day (Ciancio and Mariotti 2014).

While systemic antibiotics are used with the intent of altering the subgingival biofilm mass, a reduced dose of the tetracycline derivative doxycycline, referred to as subantimicrobial dose doxycycline (SDD), is used with the intent of modifying the patient’s host response to the biofilm challenge (see Table 5.5.4). Doxycycline is an effective inhibitor of the matrix metalloprotease enzymes (MMPs) that are responsible for the degradation of collagen, which leads the loss of periodontal connective tissue attachment and bone loss. At a dose of 20 mg twice a day, subantimicrobial dose doxycycline has demonstrated statistically significant and some minor clinically significant effects on periodontal probing depths and clinical attachment levels in selected patients with generalized severe chronic periodontitis (Caton et al. 2000). Less impressive effects are seen in patients with mild or moderate chronic periodontitis. The effects on probing depths and clinical attachment levels were not to the extent that would alter clinical decision making. Available as the prescription product Periostat, it is meant to be used for a minimum of 90 days.

At the recommended dose of 20 mg twice a day, doxycycline demonstrates no antimicrobial properties, and as such does not lead to any changes in the normal flora of the oral cavity, gastrointestinal tract, genitourinary tract, or skin. It does not lead to changes in bacterial sensitivity or resistance to tetracyclines. Since it is tetracycline derivative, there are concerns about its use in women of child bearing age due to its potential for staining of teeth in developing fetuses or nursing infants. It may cause photosensitivity.