Suppression of the periodontopathic microflora in localized juvenile periodontitis by systemic tetracycline

Detection and serotyping of Actinobacillus actinomycetemcomitans isolates on nitrocellulose paper blots with monoclonal antibodies

A combination of blotting of bacterial colonies on nitrocellulose paper discs and immunoenzymatic detection of bound antigens with specific monoclonal antibodies was used to detect and serotype Actinobacillus actinomycetemcomitans directly off the initial agar culture dish. The A. actinomycetemcomitans antigens, representative of specific colonies, were identified immunoenzymatically using monoclonal antibody specific for a species-specific antigen. The serotype of the bacteria in colonies was identified by dividing the blotting paper into sections and immunoenzymatically identifying the serotype antigens with serotype-specific monoclonal antibodies. This procedure provides for simple, rapid, sensitive and accurate identification and characterization of A. actinomycetemcomitans isolates from the initial isolation agar plates.

Diagnosis and treatment of localized juvenile periodontitis

An actinomycetemcomitans can cause localized juvenile periodontitis and certain types of adult periodontitis. Optimal treatment of periodontal disease caused by this microorganism requires systemic antibiotic therapy in addition to mechanical debridement of the infected gingival tissues. Laboratory techniques are available to assist the practitioner in identifying this microorganism in dental plaque samples.

Atypical localized juvenile periodontitis. A case report and review of current treatment considerations

An atypical case of localized juvenile periodontitis is presented. The case exhibits a unique distribution of osseous defects, an unusually high dental lesion incidence, and an atypical Gram-staining and morphologic subgingival microflora. Past and current treatment regimens are reviewed. Based on our current understanding of the pathogenesis of juvenile periodontitis and the therapeutic effects of antibiotic and surgical treatment, a temporal treatment regimen is proposed which would overlap instead of superimpose effective stages of therapy.

The occurrence of Actinobacillus actinomycetemcomitans, Bacteroides gingivalis and Bacteroides intermedius in destructive periodontal disease in adults

A total of 235 subgingival sites, including 104 progressive deep lesions from 61 untreated patients, 26 progressive deep lesions from 10 treated patients, 33 nonprogressive deep sites from 20 untreated patients, and 72 nonprogressive sites from 55 treated patients were examined for Actinobacillus actinomycetemcomitans, Bacteroides gingivalis and Bacteroides intermedius. The periodontal disease progression was mainly determined on the basis of radiographic changes in the crestal alveolar bone level. A. actinomycetemcomitans isolation was carried out using the selective TSBV medium and B. gingivalis and B. intermedius isolations were performed using a nonselective blood agar medium. 1 or more of the 3 bacteria studied appeared in 99.2% of progressive periodontal lesions but only in 40.0% of nonprogressive sites. Culture-positive progressive periodontal sites in comparison with culture-positive nonprogressive sites showed higher median recovery rates of A. actinomycetemcomitans (0.5% vs 0.3%), B. gingivalis (30.5% vs 0.3%) and B. intermedius (4.9% vs 0.5%). Of total progressive lesions, 12.3% yielded solely A. actinomycetemcomitans, 21.5% demonstrated solely B. gingivalis, and 20.8% revealed solely B. intermedius. The A. actinomycetemcomitans--B. intermedius combination was found in 24.6% of progressive lesions. A. actinomycetemcomitans appeared in significantly higher prevalence in treated-progressive lesions (80.8%) than in nontreated-progressive lesions (42.3%). 32 of the 42 culture-positive nonprogressive sites yielded B. intermedius as the sole test organism. The main conclusion is that A. actinomycetemcomitans, B. gingivalis and B. intermedius are closely related to disease-active periodontitis, and more closely than to periodontal pocket depth. This finding is important in understanding periodontal disease etiology and pathogenesis and may also aid in a clinical setting to differentiate progressing and nonprogressing periodontal sites.

Oxidative and nonoxidative killing of Actinobacillus actinomycetemcomitans by human neutrophils

Actinobacillus actinomycetemcomitans is a facultative gram-negative microorganism which has been implicated as an etiologic agent in localized juvenile periodontitis and in subacute bacterial endocarditis and abscesses. Although resistant to serum bactericidal action and to oxidant injury mediated by superoxide anion (O2-) and hydrogen peroxide (H2O2), this organism is sensitive to killing by the myeloperoxidase-hydrogen peroxide-chloride system (K.T. Miyasaki, M.E. Wilson, and R.J. Genco, Infect. Immun. 53:161-165, 1986). In this study, we examined the sensitivity of A. actinomycetemcomitans to killing by intact neutrophils under aerobic conditions, under anaerobic conditions, and under aerobic conditions in the presence of the heme-protein inhibitor sodium cyanide. Intact neutrophils killed opsonized A. actinomycetemcomitans under aerobic and anaerobic conditions, and the kinetics of these reactions indicated that both oxidative and nonoxidative mechanisms were operative. Oxidative mechanisms contributed significantly, and most of the killing attributable to oxidative mechanisms was inhibited by sodium cyanide, which suggested that the myeloperoxidase-hydrogen peroxide-chloride system participated in the oxidative process. We conclude that human neutrophils are capable of killing A. actinomycetemcomitans by both oxygen-dependent and oxygen-independent pathways, and that most oxygen-dependent killing requires myeloperoxidase activity.

Frequency distributions of periodontal attachment loss. Clinical and microbiological features

The present investigation attempted to determine if the pattern of past periodontal destruction could be concisely summarized, and related to other clinical and microbiological parameters. 61 subjects between the ages of 12 and 61 years with destructive periodontal disease were evaluated at 6 sites per tooth for redness, plaque, suppuration, bleeding on probing, pocket depth, and attachment level. The frequency distribution of baseline attachment level measurements was computed for each individual. A curve fitting algorithm was used to fit the frequency distribution to 1-, 2-, and 3-term normal distributions. The parameters of the fit could be used to summarize concisely all of the frequency distributions. 3 major patterns of attachment loss could be distinguished. Pattern I required a two-term distribution with localized destruction at less than 34% of sites and was further divided into 3 groups, depending on average attachment loss at diseased sites. The means of the second peak for the subgroups were 2.7, 5.3, and 8.6 mm, respectively. Pattern II exhibited more widespread disease (greater than 33% of sites affected) with multiple peaks in the frequency distribution requiring a 3-term distribution for satisfactory fit. However, a significant proportion of sites was not affected. Pattern III exhibited a single-peaked normal distribution in which virtually all sites were affected. Mean attachment levels of the peaks in this group ranged from 2.7 to 8.4 mm. 23 of the 61 subjects showed significant attachment loss at 1 or more sites during the course of bi-monthly monitoring, as determined by the tolerance method of analysis. Subgingival plaque samples were taken from these active sites and matched with control sites prior to therapy. The proportions of Fusobacterium nucleatum, Streptococcus intermedius, and Eikenella corrodens were significantly elevated in active and control sites of subjects in groups II and III combined (the widespread disease groups), and proportions of Actinobacillus actinomycetemcomitans and Propionibacterium acnes were elevated in active and control sites of the more localized disease group I subjects. Group I subjects showed a 13- to 15-fold decrease in hazard rates of periodontal sites after Widman flap surgery and systemic tetracycline, whereas groups II and III subjects showed 2-to 6-fold decreases.

Analysis of data from clinical studies of localized juvenile periodontitis

Data from 27 subjects with localized juvenile periodontitis were used to compute estimates of the intraclass correlation coefficient for initial periodontal pocket depth measurements and total subgingival Actinobacillus actinomycetemcomitans counts, and for changes from pre- to post-treatment in periodontal pocket depth, probing attachment level and Actinobacillus actinomycetemcomitans counts. The estimates for the clinical parameters were considerably higher than those found in a similar study of adult periodontitis. On the average, the estimates for the intraclass correlation coefficients for Actinobacillus actinomycetemcomitans counts did not differ markedly from the corresponding estimates for the clinical parameters. Although the results of this study indicate that the major component of variability in parameters commonly used in studies of periodontal disease can be attributed to site-specific factors, sites within subjects cannot be considered statistically independent. For the analysis of data arising from studies of periodontal disease, it is recommended that statistical techniques, like the nested mixed effects analysis of variance model be employed, which account for this dependence. These techniques will allow meaningful biological questions concerning site-specific phenomenon to be answered. However, changes in clinical and microbiological parameters, when therapeutic measures are employed on localized juvenile periodontitis patients, are often dramatic enough to allow informal data presentation.

Juvenile periodontitis. I. Demonstration of local immunoglobulin synthesis

The purpose of this investigation was to determine the presence and quantity of immunoglobulin G (IgG) and albumin (ALB) in specified periodontal tissues and serum from patients diagnosed as having juvenile periodontitis (JP), using an immunoelectrophoresis technique and to determine which portion of the lesion generated the greatest local immunoglobulin production. Serum and tissue samples were obtained from 19 patients (ages 13-21 years) who were diagnosed as having JP; 18 were female; 16 were black. Normal, diseased, and granulomatous gingival/periodontal tissues were collected during full thickness flap surgery, then minced, homogenized, and centrifuged. Supernatants containing the gingival/periodontal protein and the serum were electrophoresed against rabbit antihuman IgG and ALB. The relative IgG/ALB ratios in each specimen were plotted against known concentrations of IgG using a least squares analysis to provide evidence for local synthesis. In comparing mean IgG/ALB ratios for all tissue types, it was noted that normal gingiva did not differ significantly from serum. Diseased and granulomatous tissues, taken together or separately, had significantly higher IgG/ALB ratios than normal gingiva or serum, demonstrating that 73.6% of the IgG present was due to local synthesis. However, the greatest amounts of locally produced IgG were found in the granulomatous tissue from the deepest areas of the defects.

Actinobacillus actinomycetemcomitans and clinical periodontal status in Finnish juvenile periodontitis patients

The relationship between the clinical periodontal status and the occurrence of Actinobacillus actinomycetemcomitans (A.a.) in 19 Finnish patients with localized juvenile periodontitis (LJP) was studied. Clinical examination included the Plaque Index, Gingival Index, suppuration, probing depth and bleeding on probing. The subgingival bacterial samples were taken from two diseases periodontal pockets with radiographic bone loss and two periodontal pockets exhibiting no radiographic alveolar bone loss. The results indicate that A.a. was isolated in 17 (89%) patients, in 68% of the diseased and in 32% of the control periodontal sites. Supragingival plaque, marginal gingival inflammation, gingival bleeding on probing, and suppuration were found as frequently in A.a.-positive as in A.a.-negative diseased LJP pockets. It was concluded that A.a. was frequently, but not always, detected in diseased LJP lesions. No association was found between the clinical status and the occurrence of A.a.

The effect of treatment on Actinobacillus actinomycetemcomitans in localized juvenile periodontitis

Three treatment regimens including local tetracycline delivery, systemic doxycycline and surgery plus systemic doxycycline were investigated in a localized juvenile periodontitis (LJP) population. Of the investigated treatments only surgery plus systemic doxycycline for 14 days was effective in eliminating or suppressing Actinobacillus actinomycetemcomitans, an organism strongly associated with LJP lesions. While surgery plus antibiotics was the superior treatment, it appears that the possibility of reinfection or incomplete elimination of the organism exists. Careful long-term follow-up, including clinical and microbiological monitoring, is highly recommended in this periodontal population.

Prevalence of incipient juvenile periodontitis at age 16 years in Switzerland

The present radiographic and clinical survey was performed to study the prevalence of "incipient juvenile periodontitis" in a population of 16-year old adolescents in Switzerland. The subjects to be screened were selected on the basis of the population distribution in the year 1980 in the territory of Switzerland. 7% of all 16-year old adolescents proportionally distributed into the different ethnic groups of Switzerland were incorporated in the study. From the school dental systems, a total of 7604 pairs of bite-wing radiographs were obtained and evaluated for fillings and iatrogenic factors, gross amounts of calculus, resorption of alveolar bone. A diagnosis of "incipient juveline periodontitis" was given if the clinical criteria of this disorder proposed by Baer were met. In 7142 pairs of bite-wing radiographs, such a diagnosis was attributed to 7 female and 12 male patients. Subsequently, they were asked if they would be examined at the University of Berne School of Dental Medicine. On the basis of history, a complete periodontal chart and full mouth radiographs, the diagnosis was confirmed or refuted. 8 patients (4 female and 4 male) were definitely diagnosed as "incipient juvenile periodontitis". This resulted in a prevalence of 0.1% with a ratio of female to male of 1:1 in the country of Switzerland at age 16. As in other industrialized countries, this prevalence seems not to be a major public health problem.

Usefulness of subtraction radiography in the evaluation of periodontal therapy

Subtraction radiography, a sensitive and accurate technique for identifying alveolar crestal change from standardized pairs of radiographs, is useful in monitoring periodontal therapy. One half of the radiographs were found to be appropriate for subtraction analysis using present technology for taking standardized radiographs. The criterion for usability was identical interpretation of subtraction images made in duplicate from a pair of radiographs. A set of radiographs was analyzed by subtraction radiography as well as by measurement of alveolar bone-crest height. Subtraction radiography was found to be more sensitive in detecting change. Whereas 53% pairs of radiographs showed a change on subtraction radiography, only 14% showed a change in crest height. Comparison of change by subtraction radiography and probing attachment level showed an overall correlation. Since these two measures assess different aspects of the periodontium, perfect correlation was not expected.

Tetracyclines inhibit tissue collagenases. Effects of ingested low-dose and local delivery systems

In a series of experiments, Golub et al. demonstrated that tetracyclines, but not other antibiotics, can inhibit mammalian collagenases and proposed that this property could be useful in treating diseases, such as periodontal disease (but also included certain medical conditions, e.g., corneal ulcers) characterized by excessive collagen degradation (J Periodont Res 1983, 1984 and 1985; Experientia 1984; Cornea 1984). One effect was the dramatic reduction of tissue collagenase activity within the gingival crevicular fluid (GCF) of periodontal pockets after administering a standard regimen of a tetracycline (e.g., 200 mg minocycline or 1000 mg tetracycline/day). The preliminary studies described below determined the effect of (1) low-dose (LD; 40-80 mg/day) orally administered minocycline on GCF collagenase activity and on the subgingival microflora (Exp. I), and (2) tetracycline-loaded monolithic fibers (TF) on collagenase activity in vitro (Exp. II). In Exp. I, GCF collagenase activity was reduced by 45 to 80% 2 weeks after initiating LD minocycline therapy, an effect that lasted for at least several weeks after stopping drug treatment. No consistent change in the relative proportions of G(+), G(-) and motile subgingival microorganisms was detected as a result of LD treatment suggesting that the reduction in GCF collagenase activity was a direct inhibition of the enzyme by the drug. In Exp. II, 3- and 6-mm lengths of TF in vitro established tetracycline concentrations in 250 microliters of 132 micrograms/ml, from 3-mm lengths, and 265 micrograms/ml, from 6-mm lengths, after an 18-hour incubation.(ABSTRACT TRUNCATED AT 250 WORDS)

Assessment of serum antibody patterns and analysis of subgingival microflora of members of a family with a high prevalence of early-onset periodontitis

In a study of members of a large family with a high prevalence of early-onset periodontitis, we sampled the subgingival microflora and characterized 40 isolates from each sample. We surveyed serum samples by enzyme-linked immunosorbent assay for antibodies reacting with any of a panel of 21 periodontal bacteria. The mother and 7 of her 13 children had early-onset periodontitis. Bacteroides gingivalis was not detected in the subgingival flora of any affected or unaffected family member, and Actinobacillus actinomycetemcomitans was isolated from only one affected child. Capnocytophaga ochracea was isolated from five of seven affected children and from none of their normal siblings. We found no significant differences among the floras from family members who had rapidly progressive, juvenile, and prepubertal forms of periodontitis. Elevated levels of serum antibody reacting with one or more of the bacteria tested were found in all family members with disease, but in only one periodontally normal family member. Both children with prepubertal periodontitis had antibodies reacting with C. sputigena, a species not found in their subgingival floras, but with none of the other bacteria tested. All remaining affected family members had antibodies to one or more serotypes of A. actinomycetemcomitans, and four had antibodies reacting with additional bacteria, including C. sputigena, Eikenella corrodens, Fusobacterium nucleatum, and Haemophilus aphrophilus. Sera from patients contained antibodies specific for putative periodontal pathogens not found in their pocket flora, and conversely, putative periodontal pathogens for which no serum antibodies were found frequently comprised a large proportion (10% or more) of the pocket flora. In no case were both the bacterium and its antibody found. These observations are suggestive of sequential infection in the early-onset forms of periodontitis and of induction of protective immunity against reinfection by the same microorganism.

Survival analysis of periodontal sites before and after periodontal therapy

Periodontal diseases appear to progress with bursts of destructive activity at individual sites. One effect of treatment might be to diminish the frequency of such bursts. Survival analysis was employed to seek such effects on the periodontal sites of 16 individuals with prior evidence of destructive periodontal disease. The subjects were monitored at bi-monthly intervals and actively breaking down sites were detected using attachment level measurements and the tolerance method of analysis. When active sites were detected, control sites of equal pocket depth and attachment loss were selected and microbiological and immunological samples were taken. The subjects were treated by modified Widman flap surgery and systemically administered tetracycline. On completion of therapy, bi-monthly monitoring was reinstituted. Life tables were constructed for periodontal sites in each of the 16 subjects prior to and after therapy. A site losing more than 3 mm of attachment at any time interval was considered to have relapsed or "died". Survivor functions were calculated for each time period indicating the % of sites which survived at any time. The subjects were divided into 3 categories on the basis of post-therapy survivor functions. The annual hazard rate in 9 good treatment response subjects (group 1) was reduced from 0.10/year to 0.01/year. The hazard rate of 5 intermediate treatment response subjects (group 2A) was reduced from 0.16/year to 0.04/year and that of 2 poor treatment response subjects (group 2B) from 0.15/year to 0.07/year. Group 2A and 2B individuals were combined and differences were sought in clinical, microbiological and immunological parameters between the good and poor treatment response groups. 5 out of 7 of the poor responding individuals showed elevated humoral antibody responses to 3 or more gram-negative subgingival species tested. Many of the elevated responses in this group were to organisms which are widely distributed and return quickly after therapy such as Fusobacterium nucleatum, Eikenella corrodens, Bacteroides intermedius and Capnocytophaga sputigena. The predominant cultivable microbiota in subgingival samples taken prior to therapy from the good responding group had significantly greater proportions of Actinobacillus actinomycetemcomitans, C. ochracea and B. intermedius than the poor responding group. The latter group showed significantly elevated proportions of F. nucleatum, Peptostreptococcus micros and Streptococcus intermedius.

Clinical and microbiological evaluation of therapy for juvenile periodontitis

Eight patients (mean age 15.6 yrs) with severe molar-incisor bone loss and pocket formation characteristic of juvenile periodontitis were entered into a clinical protocol of three sequential stages: scaling and root planing (S/RP); S/RP concurrent with systemic tetracycline therapy (1 gm/day for 28 days); periodontal surgery concurrent with systemic tetracycline therapy. Clinical and microbiological examinations were scheduled at baseline, at 1 to 2 months after Stage I, at 1 to 2 months after completion of tetracycline therapy in Stages II and III, and during recall. A decision to progress to the next stage or to place the patient on a 3-month recall was based solely on clinical findings (suppuration, bleeding upon probing and pocket depth) at the deepest site in each patient. Paperpoint subgingival plaque samples from representative affected sites were analyzed for percentage of total cultivable microflora composed of black-pigmented Bacteroides species (BPB), surface translocating bacteria (STB) and Actinobacillus actinomycetemcomitans (Aa). At baseline, all sites bled to probing, seven of eight sites showed suppuration, and deepest pocket depths averaged 8.0 mm. STB were detected in one and BPB in four sites, respectively, and all sites demonstrated Aa, which constituted approximately 40% of the total cultivable flora. S/RP alone had essentially no effect on either clinical or microbiological findings, and all patients progressed to Stage II. Five went on to Stage III. S/RP with tetracycline was clinically and microbiologically more effective at sites in which Aa was predominant. Surgery was required in all sites containing high levels of both BPB and Aa. These results suggest that microbiological diagnosis may be useful in selecting and monitoring treatment for juvenile periodontitis.

Relationship between some subgingival bacteria and periodontal pocket depth and gain or loss of periodontal attachment after treatment of adult periodontitis

We studied the association between post-treatment periodontal disease activity and subgingival Bacteroides gingivalis, Bacteroides intermedius, spirochetes and motile rods. 20 adults, 22-62 years, with moderate-to-severe periodontitis participated in a split-mouth treatment study. All individual quadrants received supragingival cleaning and in addition, subgingival scaling and a NaHCO3-NaCl-H2O2 slurry, subgingival scaling alone, slurry alone, or no subgingival treatment. Post-treatment periodontal disease status was determined over a period of 12 months by changes in probing periodontal pocket depth and probing periodontal attachment level. Subgingival specimens obtained by paper point-sampling were evaluated for B. gingivalis and B. intermedius using indirect immunofluorescence and for spirochetes and motile rods using bright light phase contrast microscopy. A total of 142 periodontitis lesions representing all 4 quadrants of the 20 subjects were studied. The relationship between clinical data and bacteria was analyzed using logistic regression. The probability of the study organisms being present in subgingival sites at 3 to 6 months after treatment increased with increased residual pocket depth. The presence of B. gingivalis showed a strong positive association (p less than 0.004) with loss of periodontal attachment. A significant association was also found for spirochetes (p less than 0.008) but not for motile rods (p greater than 0.35) or B. intermedius (p greater than 0.13). Similar results were obtained at 12 months after therapy, except that the presence of motile rods was significantly associated with loss of periodontal attachment (p less than 0.03). Caution must be exercised when using B. gingivalis or spirochetes to evaluate treatment efficacy. If the presence of these organisms was utilized to indicate progressing periodontitis, many active lesions could be identified, and only 1 to 17% and 13 to 43% of sites in remission at 3-6 months after therapy would be expected to harbor B. gingivalis and spirochetes, respectively. The consequences of treating periodontal sites in remission would mainly be limited to cost and inconvenience. However, since several active periodontitis lesions did not reveal the organisms, treatment decisions based solely on the absence of the organisms may result in the omission of needed therapy. As a practical consideration, periodontal treatment should be continued as long as B. gingivalis and maybe spirochetes are detectable in the subgingival microflora. In the absence of these organisms, and until additional periodontal pathogens have become known, the decision to continue or conclude periodontal therapy must b

The thermodynamic behaviour of labial gingiva in patients with destructive periodontal disease

The temperature changes of the labial gingiva and mucosa of the maxillary incisor regions were investigated using computer-assisted thermography. 9 patients with destructive periodontal disease (7 female and 2 male, aged between 12 and 33 years, undergoing periodontal treatment for periods varying from 6 months to 12 years) and 10 volunteers with clinically normal periodontia (6 female and 4 male, aged between 19 and 26 years) took part in this study. The gingivae and mucosae were initially cooled using a homogeneous flow of air (15 l/min at 15 degrees C) for 3 min. 20 s after the cooling phase, temperature increases of these soft tissues were sequentially recorded using 48 thermograms per person. This procedure was repeated 4 times for each person examined. The weighted mean of the time constants of the tissue re-warming curves was significantly higher (p less than 0.025) for the periodontitis group (152 +/- 6 s) compared to the clinically healthy group (110 +/- 9 s). The different thermodynamic behaviour between the 2 groups studied indicated differences in the blood-flow and/or its regulation.

Microbiological and clinical effects of surgical treatment of localized juvenile periodontitis

Since Actinobacillus actinomycetemcomitans appears to be a key etiologic agent in localized juvenile periodontitis, this study determined the effectiveness of different treatment modalities in suppressing A. actinomycetemcomitans in localized juvenile periodontitis lesions. A total of 25 deep periodontal lesions from 7 patients with localized juvenile periodontitis were included in the study. The test periodontal lesions either received scaling and root planing alone, scaling and root planing together with soft tissue curettage, or modified Widman flap surgery. Subgingival A. actinomycetemcomitans were enumerated using selective culturing. Clinical measurements included changes in probing periodontal attachment level, probing periodontal pocket depth, gingival index, plaque index, and digital subtraction of standardized serial radiographs. The microbiological and clinical effects of treatment were monitored over a period of 16 weeks. All periodontal lesions studied demonstrated high numbers of A. actinomycetemcomitans prior to treatment. Scaling and root planing alone did not markedly change the subgingival A. actinomycetemcomitans counts, nor any of the clinical parameters studied. In contrast, soft tissue curettage as well as modified Widman flap surgery suppressed A. actinomycetemcomitans to undetectable levels immediately after therapy in more than 80% of the lesions studied. A total of 5 periodontal lesions exhibited gain of probing periodontal attachment after subgingival curettage or Widman flap treatment; 3 of these sites revealed no detectable A. actinomycetemcomitans, and the remaining 2 sites harbored only low levels of A. actinomycetemcomitans. 5 periodontal lesions which lost probing attachment after treatment all demonstrated high numbers of subgingival A. actinomycetemcomitans. Changes in alveolar bone, assessed by digital subtraction of serial radiographs, correlated with changes in probing periodontal attachment level, confirming the clinical results. The present study revealed a close relationship between post-treatment A. actinomycetemcomitans levels and the clinical response to treatment, which supports the concept that A. actinomycetemcomitans is an important organism in the etiology of localized juvenile periodontitis. This study also showed that a substantial suppression of subgingival A. actinomycetemcomitans cannot be achieved by periodontal scaling and root planing alone, but can be accomplished by surgical removal of periodontal tissues.(ABSTRACT TRUNCATED AT 400 WORDS)

A clinical trial of phenoxymethyl penicillin for adjunctive treatment of juvenile periodontitis

A double-blind clinical trial of oral penicillin as an adjunct to conventional treatment of localized juvenile periodontitis (JP) was conducted. Sixteen subjects with JP were paired on the basis of general similarity of disease, and within each pair the persons were assigned randomly, one to a placebo group and one to a penicillin group. Neither patients nor therapist/examiner were aware of whether placebo or penicillin was being taken. All subjects received an initial scaling and root planing of all teeth and flap surgery of all affected sites. Every 12 weeks after surgery through Week 62 of the study, root planing and oral hygiene instructions were repeated. Phenoxymethyl penicillin (250 mg qid) or placebo was started the day of surgery and each recall visit and lasted for 10 days. Clinical measurements were made at the beginning of the study and at each recall visit. In both groups there was a significant decrease in plaque scores, gingival inflammation, gingival bleeding and probeable depths for all sites and for affected sites. Similarly there was a significant increase in attachment level and radiographic bone height, and a total elimination of suppuration. The favorable changes were apparent at the first postsurgical recall (Week 26 of the study) and remained essentially the same through Week 62. The magnitude of change in these parameters was similar to that reported by others for treatment regimes including tetracycline therapy. However, there were no differences in any parameters between the placebo and penicillin groups. Half of the subjects (4 in each group) were continued in the study for another 9 months (Week 98).(ABSTRACT TRUNCATED AT 250 WORDS)

The cellular host response in juvenile periodontitis. A review

The current knowledge on the cellular, host-response features in juvenile periodontitis (JP) has been reviewed. The chemotaxis of the polymorphonuclear leukocytes (PMNs), known to be defective in JP, is modulated by serum factors and bacteria. The interactions of the putative etiologic pathogen Actinobacillus actinomycetemcomitans (A.a.) and the enzyme lysozyme with PMNs modify the host defense. Data on the phagocytic capacity of the peripheral blood and gingival crevice PMNs in JP are still controversial. The monocytes exhibit similar alterations as PMNs in interaction with A.a., but the reports on defective monocyte chemotaxis are conflicting. Both bacterial challenge and genetic factors may regulate the lymphocyte response in JP.

Current concepts in periodontal diseases

Periodontal diseases are common oral diseases that afflict all humans to some degree. The major aetiological agent is dental plaque--the complex microflora which forms on teeth in the absence of effective oral hygiene. The interaction of the microbial flora and the periodontal tissues produces an inflammatory response and tissue breakdown. Recent information has categorized periodontal diseases on the basis of increased knowledge about the particular microorganisms associated with the different clinical conditions. In addition, the important role of host defences, in particular the phagocytic cellular elements, has allowed for a better understanding of the pathological processes. This knowledge is contributing towards the development of rational and effective therapy for all forms of periodontal diseases. Because of the widespread occurrence of periodontal diseases and their potential relationships to systemic conditions, it is important that medical practitioners should be able to recognize, and be conversant with methods of treatment of, these diseases.

Rapid identification of periodontal pathogens in subgingival plaque: comparison of indirect immunofluorescence microscopy with bacterial culture for detection of Actinobacillus actinomycetemcomitans

The sensitivity of indirect immunofluorescence microscopy using specific polyclonal or monoclonal serodiagnostic reagents for Actinobacillus actinomycetemcomitans in subgingival dental plaque ranged from 82-100% as compared with culture on selective or non-selective media. This bacterium was found in 100% of the periodontally diseased sites examined in localized juvenile periodontitis patients and was statistically related to clinical indices of periodontal disease including the Gingival Index, Plaque Index, and Pocket Depth. Indirect immunofluorescence microscopy is a useful technique for the rapid and reliable determination of A. actinomycetemcomitans in human subgingival dental plaque which may be applied to the clinical diagnosis, treatment, and monitoring of periodontitis associated with A. actinomycetemcomitans.

Comparative bacteriology of juvenile periodontitis

Statistical comparisons of the floras associated with juvenile periodontitis, severe periodontitis, and moderate periodontitis indicated that differences in the bacterial compositions of affected sites in these populations were not statistically significant. The subgingival flora of affected juvenile periodontitis sites was statistically significantly different from the adjacent supragingival flora and from the subgingival floras of people with healthy gingiva and of children with developing (experimental) gingivitis. However, the subgingival flora of affected juvenile periodontitis sites was not significantly different from the flora of sites with gingival index scores of 1 or 2 in adults with developing (experimental) gingivitis. Of 357 bacterial taxa among over 18,000 isolates, 54 non-treponemal species, 2 treponemal species, and mycoplasma were most associated with diseased periodontal sulci. These species comprised an increasing proportion of the flora during developing gingivitis and constituted over half of the cultivable flora of diseased sites.

Orthodontic therapy in patients with juvenile periodontitis: clinical and microbiologic effects

The correction of malocclusions in juvenile periodontitis (JP) patients completing periodontal therapy is a problem of increasing clinical concern to orthodontists, since many teeth with severe alveolar bone loss in these patients can now be successfully treated without extraction. In this report, fixed edgewise orthodontic therapy was carried out after the completion of periodontal therapy on four JP patients. The orthodontic therapy included extensive intrusion of teeth severely affected by JP. Phase-contrast microscopic analysis of subgingival plaque from orthodontically treated teeth was used to monitor longitudinally the effects of fixed orthodontic bands on the subgingival flora and also to monitor the efficacy of topical and systemic antimicrobial therapy aimed at suppression of suspected periodontopathic bacteria. Orthodontic movement was completed on most periodontally compromised teeth without significant evidence of additional deterioration in periodontal status. However, within the first 6 months of orthodontic band placement, all patients had significant increases in the number of spirochetes and motile rods in their subgingival flora. Three of the patients also developed high levels of crevicular polymorphonuclear leukocytes around orthodontically treated teeth, indicating significant subgingival inflammation. Intensive antimicrobial measures, including topical inorganic salt applications and systemic tetracycline, were helpful in limiting clinical inflammation and subgingival colonization by periodontopathogens during orthodontic therapy. The results demonstrate that successful orthodontic repositioning can be carried out in treated JP patients. In addition, bacteriologic monitoring and chemotherapeutic suppression of periodontal pathogens may be valuable in the prevention of further destructive periodontal disease activity in periodontitis patients undergoing orthodontic therapy.

Transmission and colonization of Actinobacillus actinomycetemcomitans in localized juvenile periodontitis patients

Actinobacillus actinomycetemcomitans is a Gram-negative oral microorganism, which has been implicated in the etiology of localized juvenile periodontitis and in severe medical infections such as bacterial endocarditis. This study evaluated the ability of periodontal probes to transmit A actinomycetemcomitans from juvenile periodontitis lesions to healthy gingival sulci in the same patient. Localized juvenile periodontitis patients exhibiting first molar and incisor alveolar bone loss and with large numbers of A actinomycetemcomitans in deep periodontal pockets were included in this study. A periodontal probe was inserted into periodontal pockets of 6 mm or greater depth. The probe was then placed into a healthy gingival sulcus of 3 mm or less, in the same subject. Fifty-five transfers by probing were made and A actinomycetemcomitans in both the donor and recipient sites was assessed by a selective culture technique. The results indicate that periodontal probes can become contaminated with A actinomycetemcomitans from juvenile periodontitis lesions during routine dental examinations and can transfer this microorganism from infected to previously uninfected sites. However, A actinomycetemcomitans inoculated into the healthy gingival sulci did not permanently colonize these sites since the organisms were eliminated within 3 weeks.

Freeze-dried bone allografts combined with tetracycline in the treatment of juvenile periodontitis

Sixteen patients diagnosed as having juvenile periodontitis were randomly placed into one of two treatment groups. Group I received local and systemic tetracycline (TTC), while Group II received no antibiotics. Osseous defects were grafted with allogeneic freeze-dried bone (FDBA) mixed with TTC powder (Group Ia) or FDBA alone (Group IIa). Contralateral defects were debrided only in both Groups (Ib and IIb). Direct reentry evaluation of 104 measurement sites demonstrated significantly greater bone fill (mean = 2.8 mm) and resolution of osseous defects (mean = 72.7%) in the TTC/FDBA-treated group (Ia) as compared to the TTC plus debridement only (Ib) or no TTC-treated groups (IIa and IIb). The results of this study indicate that of the modes of treatment investigated, the combination of local and systemic tetracycline coupled with freeze-dried bone allografts was the treatment of choice for defects associated with juvenile periodontitis.

The composition of the subgingival microflora of young adults suffering from juvenile periodontitis

The composition of subgingival plaque, from healthy and periodontally diseased regions, as well as the clinical periodontal condition of 6 patients, 17 to 24-years-old suffering from juvenile periodontitis were examined. 6 older patients with rapidly progressive periodontitis served as a control. Samples of subgingival plaque were taken from first molars and central incisors and were analysed morphologically by dark-field microscopy. In the control group in healthy regions the ratio between non-motile and motile bacteria was 27:1 and about 1:1 in deep pockets. In the juvenile periodontitis group in diseased regions, motile bacteria made up only 1/4 of the bacteria present. The results clearly show that our relatively old patients with juvenile periodontitis had a completely different microflora in their periodontally diseased regions than patients with common periodontitis. As regards our observations by dark-field microscopy, one can assume, however, that with increasing age, there might be a shift of the flora associated with juvenile periodontitis lesions from a rather simple composition to a more complex composition very similar to the flora seen in rapidly progressive adult periodontitis lesions.

Actinobacillus actinomycetemcomitans in human periodontal disease

Recent evidence implicates Actinobacillus actinomycetemcomitans in the etiology of localized juvenile periodontitis. This paper reviews the morphological, biochemical and serological charcteristics of A. actinomycetemcomitans, evidence incriminating it as a periodontopathogen, its importance in human nonoral infections, and virulence factors which may be involved in the pathogenesis of A. actinomycetemcomitans infections. A. actinomycetemcomitans is a non-motile, gram-negative, capnophilic, fermentative coccobacillus which closely resembles several Haemophilus species but which does not require X or V growth factors. The organism has been categorized into 10 biotypes based on the variable fermentation of dextrin, maltose, mannitol, and xylose and into 3 serotypes on the basis of heat stable, cell surface antigens. A. actinomycetemcomitans' primary human ecologic niche is the oral cavity. It is found in dental plaque, in periodontal pockets, and buccal mucosa in up to 36% of the normal population. The organism can apparently seed from these sites to cause severe infections throughout the human body such as brain abscesses and endocarditis. There is a large body of evidence which implicates A. actinomycetemcomitans as an important micro-organism in the etiology of localized juvenile periodontitis including: (1) an increased prevalence of the organism in almost all localized juvenile periodontitis patients and their families compared to other patient groups; (2) the observation that localized juvenile periodontitis patients exhibit elevated antibody levels to A. actinomycetemcomitans in serum, saliva and gingival crevicular fluid; (3) the finding that localized juvenile periodontitis can be successfully treated by eliminating A. actinomycetemcomitans from periodontal pockets; (4) histopathologic investigations showing that A. actinomycetemcomitans invades the gingival connective tissue in localized juvenile periodontitis lesions; (5) the demonstration of several pathogenic products from A. actinomycetemcomitans including factors which may: (a) facilitate its adherence to mucosal surfaces such as capsular polysaccharides; (b) inhibit host defense mechanisms including leukotoxin, a polymorphonuclear leukocyte chemotaxis inhibiting factor, and a lymphocyte suppressing factor (c) cause tissue destruction such as lipopolysaccharide endotoxin, a bone resorption-inducing toxin, acid and alkaline phosphatases, collagenase, a fibroblast inhibiting factor and an epitheliotoxin.(ABSTRACT TRUNCATED AT 400 WORDS)

Inhibition of bacterial growth by tetracycline-impregnated enamel and dentin

Tetracyclines can react with enamel and dentin to form relatively insoluble fluorescent compounds. The purpose of this study was to evaluate the possible antimicrobial effect of these reaction products on various microorganisms associated with human dental plaque and periodontal disease. Slabs of native dentin and enamel as well as demineralized dentin were immersed in aqueous solutions of tetracycline HCl, oxytetracycline HCl and doxycycline HCl for periods of 1 h or 24 h. Unimpregnated enamel and dentin slabs sterilized by gamma irradiation and specimens impregnated with phenoxymethylpenicillin calcium were used as controls. Test and control specimens were placed on agar plates seeded with B. cereus, C. ochraceus, S. sanguis, F. nucleatum, B. melaninogenicus or A. viscosus and were subsequently incubated aerobically or anaerobically at 37 degrees C. With the exception of enamel impregnated for 1 h in a 0.01 mg/ml tetracycline solution, all test specimens caused growth inhibition zones, varying in size according to concentration of the drug, immersion period and bacterial species. The results indicate that tetracyclines react with enamel and dentin to form slightly soluble compounds with a pronounced antibacterial effect. In comparison, the antimicrobial effect of dentin treated with penicillin was small.

Evaluation of cause-related periodontal therapy and compliance with maintenance care recommendations

An evaluation of the long-term clinical effects of an intense period of cause-related periodontal therapy provided by dental hygiene students, was made in patients with moderately advanced periodontitis. By the evaluation, we also intended to gain information about compliance with given recommendations for periodontal health maintenance. The results after 3 years without supervision by the specialist team showed that achieved beneficial effects on the gingival conditions were maintained despite a significant increase in plaque prevalence. Recommendations as to the daily use of a variety of additional oral hygienic measures besides toothbrushing met with a considerable lack of compliance. Maintenance visits to the referring general practitioner were mostly made once a year and included regular dental care. Despite this, no further deterioration of periodontal status was observed. The results indicate that it may be possible to maintain successful effects of periodontal therapy in this patient category with less personal and professional effort than traditionally recommended.

Microbiological and clinical effects of topical subgingival antimicrobial treatment on human periodontal disease

This study was undertaken to evaluate the microbiological and clinical effects of a subgingivally applied mixture of H2O2-NaCl and NaHCO3 followed by subgingival irrigation with 1% Betadine in the treatment of periodontal disease. 20 adults with moderate to severe periodontal disease were included in a split mouth design study. All patients were given oral hygiene instruction and were subjected to supragingival scaling in all 4 quadrants, and subgingival scaling and root planing of half the dentition. 10 patients were instructed to use the chemical antimicrobial mixture twice a day instead of dentifrice, and also received professional application of the mixture once every 14 days for 3 months in connection with reinstruction in oral hygiene procedures. The remaining 10 patients received oral hygiene instructions combined with professional tooth cleaning without use of chemicals once every 14 days during a 3-month period. The effect of treatment was evaluated by monitoring the subgingival microflora, clinical periodontal parameters, and by computer assisted subtraction analysis of serial standardized radiographs to determine changes in mass of the supporting alveolar bone. The present study revealed that subgingival debridement combined with mechanical plaque control resulted in decreased numbers of subgingival microorganisms including spirochetes and motile rods, and arrested the progressive breakdown of the periodontal tissues. Topical antimicrobial agents used in combination with subgingival scaling further reduced the subgingival microflora and substantially improved early periodontal healing including gain of probing attachment level and gain in radiographic alveolar bone mass during the 12 months of observation. No clinical improvement but a tendency to further periodontal breakdown was found in the unscaled quadrants, even in those which were subjected to a personal application of the topical antimicrobial mixture. This study indicates that professional and personal subgingival application of a mixture of H2O2-NaCl and NaHCo3 will significantly enhance the microbiological and clinical effects of periodontal scaling and root planing. These agents, and the topical mode of antimicrobial therapy seem promising in the management of human periodontal diseases.