ADVANCES IN THE MANAGEMENT OF

DENTAL INFECTIONS

The lion's share of dental practices involves dealing with the effects of micro-organisms on the structures of the teeth and jaws. Caries and periodontal disease affect almost every individual. Despite the universality of this assault on the mouth, relatively few people develop overt, acute, serious infection of the jaws. We owe this to the many defense mechanisms in place that localize and minimize the potential for tissue invasion. These include individual and professional interventions like oral hygiene and dental restorations. These, of course, augment the natural defense of the saliva and its components (IgA), mucosal barriers and the cell mediated and humoral immune system. By necessity; therefore, an infective process must hurdle one or more of these barriers in order to establish itself. From that point of view, the question of why a particular person should present with a particular infection may assume paramount importance in the management of the illness.

The factors which bring about an infection may be thought of as the interplay of three sets of determinants: Bug factors, local factors and host factors.

1. Bug factors involve adaptations of the organism in question to defeat the natural defense barriers. For example the stickiness of Streptococcus mutans or the ability of other species to live in anaerobic environments.

2. Local factors include holes in teeth or recent wounds, traumatic or surgical. It also involves the sheer numbers of bacteria available in a given mouth. Furry teeth not only have more bugs available to start an infection, they have broader section of species that can take advantage of the openings that occur.

3. Host factors involve the relative presence or absence of the systemic defense mechanisms. A good example being the leukemic patient with decreased numbers of functional white blood cells.

Not only is this a complex process in terms of the number of interconnecting variables; it is a dynamic, changing process with time. As a wound heals, it presents a smaller and smaller "window of opportunity" for organisms to exploit. Conversely, an established early infection with Streptococcal species may open ever larger volumes of tissue by the elaboration of destructive enzymes (such as collagenase and hyaluronidase) and toxins. Further, the character of the infection evolves with time. Whereas an initial facial cellulitis consists of primarily aerobic Streptocci, as the oxygen tension is lowered by the bacteria and the body responds by walling off the part, anaerobic species take over. In other words, the patient presenting on Monday with a facial swelling due to cellulitis will be entirely different in terms of extent and composition compared to Friday's frank abcess in the same patient.

Consideration of the process of infection allows the clinician to appreciate that the moment that a patient presents with a problem is but a phase in an ongoing series of events. This is by no means a new concept, but it does put management into context. In the absence of, in spite of or because of clinical intervention, the patient's illness is going to evolve. It is going to get better or get worse. Management must therefore have two capabilities: anticipation and reaction. Anticipation of possible scenarios and preparation for them. Reaction to actual events as they transpire. Management, being dynamic, must be thought of as a process rather than an event.

A. Diagnosis:

The first step in this process is the establishment of a diagnosis. The diagnosis consists of four basic pieces of information:

1. Cause: where did the infection originate

2. Extent: what spaces does the infection now occupy

3. Causative organism: which species are present at this time

4. Systemic considerations: fever, dehydration, sepsis, airway, shock, etc.

Sources of infections of the jaws may be broadly classified into four major categories:

1. Pulpal: carious spread to the pulp

2. Periodontal: deep infected pockets

3. Pericoronal: associated with a partially erupted tooth

4. Post-traumatic: post injury or surgery

These represent the main portals of entry into tissue. Early intervention is often aimed at eliminating the cause, eg. tooth removal, and therefore turning off the ongoing supply of organisms to deeper tissues. Which deeper tissue that may be involved next can often be predicted by establishing the source and through applied anatomy anticipate natural planes of spread. Occasionally; however, the cause is obscure or possibly irrelevant. This again refers to the dynamic nature of many infections.

Having gained access to tissue the infection, through time, can spread through a number of stages:

1. Primary: the immediate point of access, eg. the pulp

2. Secondary: spread to adjacent tissue, eg. the PDL and bony cavity

3. Tertiary: break out to adjacent soft tissue spaces, eg. buccal space

4. Quaternary: fascial spread to deep spaces, eg. parapharyngeal

Exact establishment of just where the infection has spread to is probably the most important point to assess. This is particulary true of those that have reached the quaternary stage. Deep space infections involving the para-and retropharyngeal spaces directly threaten the airway, the great vessels of the neck and the structures of the mediastinum. Assessment of signs and symptoms will allow the clinician to "map out the spread of the infection and thereby assess progress through time or anticipate problems. This will be highlighted during discussion of the "danger" signals.

Knowledge of the organism in question is a tremendous aid in selection of appropriate antibiotic therapeutics. Unfortunately, this information is usually only available after necessary treatment has begun. This forces us into empirical management on the basis of the "most likely" pathogens. The vast majority of dental infections begin with aerobic gram positive Streptococcus species. This presents clinically as the firm indurated swelling of a facial cellutitis. With time, this evolves into the predominantly anaerobic, mixed abcess. This is more localized with the fluctuance of pus formation deep in the tissue.

While this interesting information on a statistical basis over a large sample of patients, it may not apply to the individual sitting in your large sample of patients, it may not apply to the individual sitting in your office. For this reason, the submission of a sample of infective material to a laboratory for culture and sensitivity at the earliest possible moment can be critical. While in many cases empirical use of antibiotics will help to clear an infection, the occasional case that continues to worsen may benefit tremendously from a timely culture and sensitivity report.

A crucial aspect of diagnosis that must be established at the time of presentation are systemicconsiderations. These involve the underlying health of the individual independent of the infection as well as the systemic toxic effects of the infection. Systemic illness, for example, diabetes, may point the way to a potential role in etiology as well as highlight management consideration during the course of the illness. Systemic toxicity, for example, fever, dehydration or even septic shock illustrate the seriousness of the infection, dictate management and by their disappearance denote improvement.

We have now established a diagnosis with respect to the cause, extent and systemic effects of the infection. Further we have a "best guess" for the guilty organism. From here we move to the next stage of management which is treatment.

B. Treatment:

The first point to note is that the treatment for each individual is individualized. Systemic health considerations and severity of infection both dictate the nature and order of steps. Never the less, some basic generalizations apply. Priorities are as follows:

  1. Airway

a) Anatomical considerations: Generally, the more posterior the infection, the more seriously endangered is the airway. In addition, assessment is difficult because of the almost universal trimus that is superimposed. If there is suspicion of significant danger to the airway, hospital management is mandatory. Airway involvement tends to progress rapidly and artificial or surgical procurement of an airway is best managed in the OR.

  1. Systemic Health ( fever, dehydration, generalized toxicity)

a) Antipyretics (NB with children because of the danger of convulsions)

b) Fluid management to restore losses due to fever and limitation of oral intake.

3. Initiation of antibiotics ...... IF INDICATED

a) For the minor infection.....are they necessary?

b) For the early infection.....mostly aerobic strep, therefore use Penicillin.

c) For the established infection....superimposed anaerobes....add Flagyl

d) For the penicillin allergic..... clindamycin (depends on the nature of the allergy....consult with patient's physician)

e) For the non-resolving infection...C and S report is crucial, blood cultures or non-drained abcess

f) For the resistant organism....C and S

g) Dose - more serious....larger

h)Timing - more serious....often

i) Route - more serious....IV

j) Combination - more serious....second drug, avoid combination of bacteriostatic and bactericidal antibiotics, eg. tetracyclines and penicillin

4. Surgery...... IF INDICATED

a) Of the cause.....eg. Pulpal infection .vs. pericoronitis

b) Of the secondary spread.....either intra- or extra-oral

c) Of the true abcess.....mandatory incision and drainage with C&S

5. Follow up monitoring

a) Symptoms.....pain, malaise

b) Signs.....temperature and pulse

c) Laboratory.....blood culture

d) Clinical progress.....swelling, trimus, regional lymphadenopathy

6. Modification of therapy

a) In the face of worsening

b) In the face of the C and S report

c) In the face of improvement

d) In the face of complications

C. Danger signs of serious infection

A special note at this stage should be made regarding the signs and symptoms of serious, potentially dangerous infections. These arise as a function of organism virulence, anatomical spread or poor underlying health of the patient. Twelve big danger signs must be watched for:

1. Significant trimus: airway

2. Significant odynophagia: airway

3. Dysphagia: airway

4. Dyspnea: airway

5. Elevation of the tongue: airway

6. Deviation of the uvula: airway

7. Bilateral swelling: airway, virulent

8. Rapid severe swelling: virulent

9. Chest pain: mediastinal spread

10. Obvious overt systemic toxicity: virulence, systemic health

11. Eye signs: cavernous sinus thrombosis

12. Clouding or loss of consciousness: cavernous sinus thrombosis, CNS spread

I would like to close by highlighting the following. Infections are dynamic changing clinical problems that require sustained vigilance and prompt responses to events as they transpire. Effective responses are born of thorough knowledge of anatomy, the infective process and the underlying patient.