The effect of supragingival plaque control on the subgingival microbiota in subjects with periodontal disease

The present investigation was performed to study the effect on the subgingival microbiota, of a plaque control program which included meticulous oral hygiene instruction, supragingival scaling and professional monitoring during a 2 year period. 300 subjects were examined for periodontal disease and monitored for 2 years without treatment. After the 2 year examination, 80 subjects were invited to participate in a treatment program intended to improve the standard of their self-performed plaque control. 40 of the invitees had a gingivitis and only minor attachment loss, while 40 subjects had moderate signs of periodontitis. 62 subjects volunteered for this treatment. 23 of the volunteers (Group AB) had several sites with deep pockets (> 4 mm). 39 of the volunteers had gingivitis but shallow pockets only (Group C). Group AB contributed 31 shallow pocket sites (A-sites) and 40 deep pocket sites (B-sites), while Group C contributed 63 shallow sites (C-sites). After the clinical examination, samples of the subgingival microbiota were harvested from the 134 A, B and C sites. The 62 subjects were enrolled in a supervised oral hygiene program. Supragingival scaling was carried out. Oral hygiene instruction was provided and repeated on an individual need basis so that all subjects reached and maintained a supragingival plaque score which was < 20%. 24 months after the year 2 examination, the 62 subjects were examined again using both clinical and microbiological examination procedures. The findings demonstrated that carefully performed supragingival plaque control changed the quantity and the composition of the supragingival microbiota.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effect of supragingival plaque control on the progression of advanced periodontal disease

Abstract. The aim of the present trial was to study the effect of meticulous supragingival plaque control on (i) the subgingival microbiota, and (ii) the rate of progression of attachment loss in subjects with advanced periodontal disease. An intra-individual group of sites exposed to non-surgical periodontal therapy served as controls. 12 patients with advanced periodontal disease were subjected to a baseline examination (BL) including assessments of oral hygiene status, gingival condition (BoP), probing depth, clinical attachment level and subgingival microbiota from pooled samples from each quadrant. The assessments were repeated after 12, 24 and 36 months. Following BL, a split mouth study was initiated. The patients received oral hygiene instruction, supragingival scaling and case presentation. 2 quadrants in each patient were identified as “test” and the remaining 2 as “control” quadrants. Subgingival therapy was performed in all bleeding sites in the control quadrants. Oral hygiene instructions and plaque control exercises were repeated once every 2 weeks during the initial 3 months of the study. Thereafter the plaque control program was repeated once every 3 months for the duration of the 3 years. Sites demonstrating loss of clinical attachment ≥2 mm in the test quadrants were treated subgingivally. The results showed that in both test and control quadrants repeated oral hygiene instructions and supragingival plaque removal procedures resulted in low plaque scores throughout the study. The gingival bleeding scores and the frequency of periodontal pockets ≥4 mm was, however, significantly higher in the test quadrants than in the control quadrants. At the end of the 3 year study, the control quadrants showed significantly more reduced (≥2 mm) pockets than the test quadrants, 265 versus 96. The number of sites in the test quadrants showing probing attachment loss ≥2 mm was more than 4× greater than in the control quadrants (59 versus 13). The microbiological findings indicate a more pronounced reduction only for P. gingivalis in the control quadrants. None of the other 4 marker bacteria consistently reflected or predicted the clinical parameters. The present study shows that only supragingival plaque control fails to prevent further periodontal tissue destruction in subjects with advanced periodontal disease.     

Differences in the subgingival microbiota of Swedish and USA subjects who were periodontally healthy or exhibited minimal periodontal disease

BACKGROUND: Previous studies have shown differences in the mean proportions of subgingival species in samples from periodontitis subjects in different countries, which may relate to differences in diet, genetics, disease susceptibility and manifestation. The purpose of the present investigation was to determine whether there were differences in the subgingival microbiotas of Swedish and American subjects who exhibited periodontal health or minimal periodontal disease. METHOD: One hundred and fifty eight periodontally healthy or minimally diseased subjects (N Sweden=79; USA=79) were recruited. Subjects were measured at baseline for plaque, gingivitis, BOP, suppuration, pocket depth and attachment level at 6 sites per tooth. Subgingival plaque samples taken from the mesial aspect of each tooth at baseline were individually analyzed, in one laboratory, for their content of 40 bacterial species using checkerboard DNA-DNA hybridization (total samples=4345). % DNA probe counts comprised by each species was determined for each site and averaged across sites in each subject. Significance of differences in proportions of each species between countries was determined using ancova adjusting for age, mean pocket depth, gender and smoking status. p values were adjusted for multiple comparisons. Cluster analysis was performed to group subjects based on their subgingival microbial profiles using a chord coefficient and an average unweighted linkage sort. RESULTS: On average, all species were detected in samples from subjects in both countries. After adjusting for multiple comparisons, 5 species were in significantly higher adjusted mean percentages in Swedish than American subjects: Actinomyces naeslundii genospecies 1 (9.7, 3.3); Streptococcus sanguis (2.5, 1.2); Eikenella corrodens (1.7, 1.0); Tannerella forsythensis (3.5, 2.3) and Prevotella melaninogenica (6.3, 1.8). Leptotrichia buccalis was in significantly higher adjusted mean percentages in American (5.5) than Swedish subjects (3.0). Cluster analysis grouped 121 subjects into 8 microbial profiles. Twenty four of the 40 test species examined differed significantly among cluster groups. Five clusters were dominated by American subjects and 2 clusters by Swedish subjects. Fifty eight of 79 (73%) of the Swedish subjects fell into 1 cluster group dominated by high proportions of A. naeslundii genospecies 1, Prevotella nigrescens, T. forsythensis and P. melaninogenica. Other clusters were characterized by high proportions of Actinomyces gerencseriae, Veillonella parvula, Capnocytophaga gingivalis, Prevotella intermedia, Eubacterium saburreum, L. buccalis and Neisseria mucosa. CONCLUSIONS: The microbial profiles of subgingival plaque samples from Swedish and American subjects who exhibited periodontal health or minimal disease differed. The heterogeneity in subgingival microbial profiles was more pronounced in the American subjects, possibly because of greater genetic and microbiologic diversity in the American subjects sampled.     

The role of the microbiota in periodontal disease

The last decade has witnessed unparalleled advances in our understanding of the complexity of the oral microbiome and the compositional changes that occur in subgingival biofilms in the transition from health to gingivitis and to destructive periodontal disease. The traditional view, which has held sway for the last 2 decades, that disease is characterized by the outgrowth of a consortium, or consortia, of a limited number of potentially pathogenic organisms, has given way to an alternative paradigm. In this new view, the microbiological changes associated with disease represent whole-scale alterations to the overall microbial population structure and to the functional properties of the entire community. Thus, and in common with other microbially mediated diseases of the gastrointestinal tract, the normally balanced, symbiotic, and generally benign commensal microbiome of the tooth-associated biofilm undergoes dysbiosis to a potentially deleterious microbiota. Coincident with progress in defining the microbiology of these diseases, there have been equally important advances in our understanding of the inflammatory systems of the periodontal tissues, their control, and how inflammation may contribute both to the development of dysbiosis and, in a deregulated state, the destructive disease process. One can therefore speculate that the inflammatory response and the periodontal microbiome are in a bidirectional balance in oral health and a bidirectional imbalance in periodontitis. However, despite these clear insights into both sides of the host/microbe balance in periodontal disease, there remain several unresolved issues concerning the role of the microbiota in disease. These include, but are not limited to, the factors which determine progression from gingivitis to periodontitis in a proportion of the population, whether dysbiosis causes disease or results from disease, and the molecular details of the microbial stimulus responsible for driving the destructive inflammatory response. Further progress in resolving these issues may provide significant benefit to diagnosis, treatment, and prevention.     

Effect of surgical and non-surgical periodontal treatment on periodontal status and subgingival microbiota

The purpose of this study was to evaluate, on a short-term basis, the clinical and microbiological effects of a single course of scaling and root planing as compared with those obtained by flap surgery in patients with moderate to advanced periodontitis. 11 patients participated in the study. Using a split-mouth design, one quadrant of the mouth was treated with reverse bevel flap surgery, whereas the contralateral one was subjected to a single course of scaling and root planing. 2 approximal sites on single-rooted teeth with a pocket depth greater than or equal to 5 mm were monitored clinically and microbiologically for 16 weeks after active treatment. Both techniques resulted in a gain of probable attachment levels, a reduction in bleeding on probing and a reduced mean pocket depth, although 31.2% of the sites in the scaling and root planing group still had 6-7 mm deep pockets at 8 and 16 weeks after treatment. Both techniques reduced median relative proportions and frequencies of detection of black-pigmented Bacteroides species. A highly statistically significant increase (p less than 0.01) in median proportions of oral streptococci was recorded only for surgery within the 1st month post-operatively. No correlation was found between residual pocket depth and any of the microbiological parameters considered in the study, suggesting that residual pocket depth does not exert a significant influence on bacterial subgingival recolonization after therapy. The results from this study suggest that surgery can be as effective as scaling and root planing in favoring the establishment of micro-organisms compatible with periodontal health, although this effect is limited to the 1st month after therapy.     

Recolonization of a subgingival microbiota following scaling in deep pockets

The present investigation was carried out to study some aspects of the recolonization of a subgingival microbiota following subgingival instrumentation in sites with deep pockets. 16 patients were recruited for the study. From each patient 4 inflamed gingival sites with deep pockets were selected. These sites were examined for plaque, overt gingivitis, bleeding on probing and probing depth. Samples of the subgingival microbiota were obtained and examined in the darkfield microscope and in a Neubauer chamber. Following the Baseline examination the teeth of all 4 jaw quadrants were carefully scaled and planed. Subgingival instrumentation was carried out under local anesthesia and required between 2-4 appointments. The patients were subsequently divided into 2 groups (Groups A and B) consisting of 9 and 7 subjects, respectively. During the first 16 weeks of maintenance the patients of Group A were not supervised regarding their self-performed plaque control measures and they accumulated supragingival plaque. The patients of Group B, however, were during these 16 weeks recalled once every 2 weeks for professional tooth cleaning. In addition they rinsed twice daily with a 0.2% solution of chlorhexidine digluconate. Reexaminations including assessments of the same parameters as those studied at Baseline were performed after 2, 4, 8, 12 and 16 weeks. After the 16-week examination the patients of Group A received a new sequence of subgingival scaling and root planing. During the subsequent 16 weeks the patients of Group A were also recalled for professional tooth cleaning. They were reexamined 18, 20, 24, 28 and 32 weeks after the Baseline examination. Subgingival scaling followed by carefully supervised oral hygiene measures resulted in a marked improvement of periodontal conditions. This improvement was accompanied by a pronounced and sustained reduction in the motile segments of the subgingival microbiota. In the presence of supragingival plaque (Group A), however, a subgingival microbiota containing large numbers of spirochetes and motile rods was soon (4-8 weeks) reestablished. A small number of sites with deep pockets (greater than or equal to 8 mm) was not substantially reduced in depth following subgingival instrumentation. In these sites which were kept free from supragingival deposits a subgingival microbiota with a large proportion of motile bacteria soon recurred.     

Effect of modified Widman flap surgery and systemic tetracycline on the subgingival microbiota of periodontal lesions

33 subjects with evidence of active destructive periodontal disease were treated by modified Widman flap surgery and systemic tetracycline (1 g/day for 21 days). Subgingival plaque samples were taken from 41 sites in 12 of these subjects before and 6 months after therapy for predominant cultivable microbiota studies. Mean pocket depth and attachment levels in the 41 sampled sites were 7.1 +/- 2.9 mm and 7.7 +/- 3.2 mm prior to therapy and 4.8 +/- 2.3 mm and 6.2 +/- 3.4 mm after therapy. B. melaninogenicus and V. parvula were more frequently detected in samples taken after therapy, while S. intermedius, S. morbillorum, S. uberis and W. recta were less frequently detected after therapy. A. actinomycetemcomitans were detected in 7 sites pretherapy and 1 site post therapy. The frequency of detection of B. gingivalis and B. intermedius was virtually unchanged. The mean levels of the Actinomyces sp., A. actinomycetemcomitans, B. gingivalis, B. intermedius, S. morbillorum, S. uberis and W. recta were decreased after therapy, while the mean levels of B. melaninogenicus, S. mitis, S. sanguis II and V. parvula were increased after therapy. V. parvula showed the greatest increase to 8.2% of the microbiota. In the second phase of the study, subgingival plaque samples from 94 sites in the 33 treated subjects were analyzed by predominant cultivable techniques. As a result of therapy, 24 sites exhibited attachment loss greater than 2 mm, 23 sites exhibited "gain" greater than 2 mm and the remaining 47 sites were considered to be unchanging.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effect of repeated professional supragingival plaque removal on the composition of the supra- and subgingival microbiota

BACKGROUND, AIMS: The purpose of the present investigation was to determine the effect of weekly professionally administered supragingival plaque removal on the composition of the supra and subgingival microbiota. METHODS: 18 adult subjects with periodontitis who had been treated and were in a maintenance phase of therapy were clinically and microbiologically monitored at baseline, 3, 6 and 12 months. After the baseline visit, the subjects received scaling and root planing followed by professional supragingival plaque removal every week for 3 months. Clinical measures of plaque accumulation, bleeding on probing (BOP), gingival redness, suppuration, pocket depth and attachment level were made at 6 sites per tooth at each visit. Separate supra (N = 1804) and subgingival (N = 1804) plaque samples were taken from the mesial aspect of all teeth excluding third molars in each subject at each time point and evaluated for their content of 40 bacterial taxa using checkerboard DNA-DNA hybridization. Significance of changes in mean counts, prevalence and proportions of bacterial species over time in both supra and subgingival samples were determined using the Quade test and adjusted for multiple comparisons. RESULTS: Mean % of sites exhibiting plaque, gingival redness and BOP were significantly reduced during the course of the study. Significant decreases in mean counts were observed in both supra and subgingival samples. Mean total DNA probe counts (x10(5), +/-SEM) at baseline, 3, 6 and 12 months were: 133+/-19, 95+/-25, 66+/-6, 41+/-6 (p<0.001) for supragingival samples and 105+/-22, 40+/-10, 19+/-4, 13+/-3 (p<0.001) for subgingival samples. Mean counts of 22 of 40 and 34 of 40 species tested were significantly reduced in the supra and subgingival samples respectively over the monitoring period. For example, mean counts of Porphyromonas gingivalis x10(5) at baseline, 3, 6 and 12 months in the subgingival plaque samples were 2.0+/-0.4, 0.5+/-0.2, 0.6+/-0.3, 0.3+/-0.1 (p<0.001); Bacteroides forsythus 2.0+/-0.6, 0.4+/-0.1, 0.4+/-0.2, 0.1+/-0.2 (p<0.001); Treponema denticola 3.4+/-1.1, 0.8+/-0.3, 0.4+/-0.2, 0.3+/-0.3 (p<0.01). Similar reductions were seen in supragingival plaque samples. While counts were markedly reduced by professional plaque removal, the proportion and prevalence of the 40 test species were marginally affected. CONCLUSIONS: Weekly professional supragingival plaque removal profoundly diminished counts of both supra- and subgingival species creating a microbial profile comparable to that observed in periodontal health. This profile was maintained at the final monitoring visit, 9 months after completion of therapy.     

The effect of periodontal parameters on the subgingival microbiota around implants

The study aimed to examine the relationship between the subgingival flora around implants and their periodontal parameters. Plaque samples from 561 implants (297 patients) were analyzed by means of differential phase contrast microscopy and compared with the sample site's probing depth. bleeding tendency on probing, and plaque and gingivitis indices. If possible, one implant with deep and one with shallow pockets were selected within the same patient. The impact of the intraoral exposure time on the microbial composition around the implants was examined cross‐sectionally, with the same group of patients. Only tendencies can be detected by the latter, and no concrete conclusions can be drawn. From the clinical parameters, increased probing depth was found to detrimentally increase the proportion of spirochetes and motile organisms, whereas the other parameters were found to be of minor importance. For partially edentulous patients only, there was a tendency for increased proportions of spirochetes and motile organisms the longer the intraoral exposure time. These observations emphasize the importance of the periodontal health of the remaining teeth (as a reservoir of pathogenic micro organisms) in partial edentulous patients rehabilitated by means of implants and indicate the importance of shallow pockets around imnlants (flan trimming when aesthetics and phonetics allow).     

Effects of oral hygiene on periodontal tissues in a town in Yugoslavia

Abstract We examined 1316 pupils, average age 16.6 years, in a small town in Serbia. The purpose of this study was to find out the effects of the oral hygiene on the condition of the periodontal tissues and the frequency of gingivitis and periodontal disease and their severity in this age group. The presence and quantity of dental plaque were registered according to the Silness & Löe Plaque Index. The amount of dental calculus was determined according to the Greene & Vermillion method. The condition of periodontal tissues was evaluated by Ramfjord's method. It was found that only 5.3% of the examined pupils had a clinically healthy periodontium. Gingivitis was discovered in 60.6%, and periodontal disease (with periodontal pockets) in 34.1% of the examined pupils. The average PDI was 1.8. We revealed great quantities of soil and hard deposits on the teeth of examined pupils. The average Plaque Index was very high (1.9).     

Putative periodontopathogens in "diseased" and "non-diseased" persons exhibiting poor oral hygiene.

The aim of the study was to assess the occurrence of some putative periodonto-pathogens in "test" and "control" sites in "diseased" and "non-diseased" persons, respectively, from an adult rural Kenyan population exhibiting poor oral hygiene and widespread loss of attachment (LA). 14 persons (less than 35 years) were assigned to a "diseased" category on the basis of at least 4 sites with LA greater than or equal to 4 mm; at least 5 mm LA and a pocket greater than or equal to 4 mm interproximally in a lower incisor ("test" site): and less than 2 mm LA and no pocket greater than or equal to 4 mm distal to a lower canine or mesial to a lower first premolar ("control" site). Age-matched "non-diseased" persons were identified on the basis of no sites with LA greater than 2 mm and no pockets greater than or equal to 4 mm associated with LA. Paperpoint samples from test and control sites as well as a scraping sample from the dorsum of tongue were examined for presence of Actinobacillus actinomycetemcomitans, Porphyromonas gingivalis, Bacteroides intermedius, B. melaninogenicus group, Capnocytophaga, Selenomonas spp., and Wolinella recta. P. gingivalis was found in 79% of test sites and 36% of control sites in "diseased" persons, and in 18% and 35% of test and control sites, respectively, in "non-diseased" persons. "No other bacterial group discriminated significantly between test and control sites or between diseased and non-diseased subjects. The surprisingly high occurrence of P. gingivalis in non-diseased subjects, both subgingivally and on tongue, indicates that deep periodontal pockets are not prerequisite ecological environments for P. gingivalis establishment.     

古菌与牙周病的关系

三域分类系统将古菌区别于真核生物和细菌。古菌可生存于极端的生态环境中,如高温、高盐度、高低酸碱度、低氧等环境,也可在普通环境下生长。古菌的细胞结构和分子代谢以及基因转录既不同于原核细胞也不同于真核细胞。用16SrRNA序列研究检测的方法可以检测出人体菌群中无法培养的古菌。牙周病患者口腔中检测出的产甲烷类古菌能加剧牙周组织的破坏,但至今尚未发现致病性的古菌。下面就古菌与牙周病关系的研究进展作一综述。     

Comparison of the microbiota of supra- and subgingival plaque in health and periodontitis

BACKGROUND, AIMS: The purpose of the present investigation was to compare the microbial composition of supra and subgingival plaque in 22 periodontally healthy (mean age 32+/-16 years) and 23 adult periodontitis subjects (mean age 51+/-14 years). METHODS: A total of 2358 supra and separately subgingival plaque samples were collected from the mesial aspect of all teeth excluding 3rd molars in each subject. Samples were examined for the presence and levels of 40 bacterial taxa using whole genomic DNA probes and checkerboard DNA-DNA hybridization. Clinical assessments including dichotomous measures of gingival redness, bleeding on probing, plaque accumulation and suppuration, as well as duplicate measures of pocket depth and attachment level, were made at 6 sites per tooth. Mean counts (x10(5), % DNA probe count and % sites colonized for each species were determined separately for supra and subgingival samples in each subject and then averaged across subjects in the 2 clinical groups. Significance of differences between healthy and periodontitis subjects was determined using the Mann-Whitney test and adjusted for multiple comparisons. RESULTS: Mean total DNA probe counts (x10(5), +/-SEM) for healthy and periodontitis subjects in supragingival plaque were 72.1+/-11 and 132+/-17.5, respectively (p<0.01), and in subgingival plaque 22.1+/-6.6 and 100.3+/-18.4, (p<0.001). Porphyromonas gingivalis, Bacteroides forsythus and Treponema denticola could be detected in supragingival plaque samples of both healthy and periodontitis subjects. Actinomyces species were the dominant taxa in both supra- and subgingival plaque from healthy and periodontitis subjects. 4 Actinomyces species accounted for 63.2%, of supragingival and 47.2% of subgingival plaque in healthy subjects and 48.% and 37.8% in periodontitis subjects respectively. Increased proportions of P. gingivalis, B. forsythus, and species of Prevotella, Fusobacterium, Campylobacter and Treponema were detected subgingivally in the periodontitis subjects. P. gingivalis, B. forsythus and T. denticola were significantly more prevalent in both supra- and subgingival plaque samples from periodontitis subjects. CONCLUSIONS: The main differences between supra and subgingival plaque as well as between health and disease were in the proportions and to some extent levels of Actinomyces, "orange" and "red" complex species.     

Effects of oral hygiene measures on clinical and microbiological parameters of periodontal disease

The effects of a 12-week period of oral hygiene alone on gingival conditions and subgingival microflora in 15 patients with severe periodontitis were investigated. Clinical measurements and plaque samples from selected sites were taken at week 0 (baseline), week 6, and week 12. Plaque samples were also taken at week 13, that is, 1 week following debridement. At week 0, the patients were instructed in supragingival plaque control and at week 6, the hygiene regimen was supplemented with the subgingival use of a toothpick device. At week 12, the patients received a full mouth supra- and subgingival debridement under local anesthesia. In those patients who complied with oral hygiene instructions (subgroup A), the gingival condition improved moderately while no improvement was found in less compliant patients (subgroup B). No significant changes were noted in the subgingival microflora in either subgroups A or B throughout the 12-week period of oral hygiene alone. However, significant reductions for all microbial parameters were found 1 week after debridement. Therefore, while moderate clinical improvements followed oral hygiene alone, no measurable changes in the subgingival microflora were observed concomitantly.     

The predominant cultivable microbiota of active and inactive lesions of destructive periodontal diseases

Subgingival plaque samples were taken from active and inactive lesions in 33 subjects exhibiting active destructive periodontal diseases. Active diseased sites were those which showed a significant loss of attachment within a 2-month interval as computed by the "tolerance method". The predominant cultivable species from 100 active sites were compared with those found in 150 inactive sites of comparable pocket depth and attachment level loss. Among the 33 subjects, W. recta, B. intermedius, F. nucleatum, B. gingivalis and B. forsythus were elevated more often in active sites; whereas, S. mitis, C. ochracea, S. sanguis II, V. parvula and an unnamed Actinomyces sp. were elevated in inactive sites. The likelihood of a site being active was increased if B. forsythus, B. gingivalis, P. micros, A. actinomycetemcomitans, W. recta, or B. intermedius were detected in that site, and decreased if S. sanguis II, the Actinomyces sp., or C. ochracea were detected.     

Systemic doxycycline administration in the treatment of periodontal infections (I). Effect on the subgingival microbiota

Systemic doxycycline is one of the more common antimicrobial agents used in the treatment of periodontal infections and yet little is known of its effect on subgingival plaque composition during and after its administration. The purpose of the present investigation was to evaluate changes in subgingival plaque composition during and after 14 days of doxycycline administration. 20 subjects with adult periodontitis were randomly assigned to test (n = 10) and control (n = 10) groups. The subjects received full mouth clinical assessment of pocket depth, attachment level, BOP, gingival redness, suppuration and plaque accumulation at baseline and 90 days. All subjects received full mouth SRP at baseline and, additionally, the test group received 100 mg doxycycline daily for 14 days. Subgingival plaque samples were taken from the mesial surface of up to 28 teeth in each subject at baseline and 90 days. In addition, plaque samples were taken from 2 randomly selected teeth at 3, 7 and 14 days during and after antibiotic administration. Control subjects were sampled at the same time points. Counts of 40 subgingival species were determined using checkerboard DNA-DNA hybridization and fluorescent detection. Significance of differences between test and control groups was determined at each time point using the Mann Whitney test. Significance of changes over time within test and control groups was determined using the Quade test. A modest but significant reduction in mean pocket depth from baseline to 90 days occurred in both test and control groups. A significant decrease in the % of sites with gingival redness occurred in the test group. There were no significant differences in proportions between test and control groups for 33 of the test species at any time point. Test subjects exhibited lower proportions of 4 Actinomyces species and an increase in 3 Streptococcus species during antibiotic administration. After cessation of doxycycline, Actinomyces sp. increased while Streptococcus sp. returned to baseline proportions. The relationship between these 2 genera appeared to be reciprocal; an increase in one was accompanied by a decrease in the other. Periodontal pathogens including B. forsythus, P. gingivalis, T. denticola and A. actinomycetemcomitans were not significantly altered by oral administration of doxycycline using conventional therapeutic dosage.     

The effect of mouthririses on parameters characterizing human periodontal disease

Abstract The objective of the present clinical trial was to assess the efficacy of mouthwashes containing antiseptic agents on established and developing plaque and periodontal disease in adult subjects using a newly described clinical research model. The study was carried out in 21 patients with periodontal disease. At the baseline examination, all tooth surfaces-sites were studied with regard to dental plaque, gingivitis, bleeding on probing to the base of the pocket and probing pocket depths. The patients were subsequently randomly assigned to 1 of 3 groups, each consisting of 7 individuals. Group A rinsed with a 0.01% solution of Sanguinarine, group B rinsed with a 0.2% solution of chlorhexidine and group C rinsed with a placebo solution. No instructions regarding mechanical plaque control measures or information regarding the etiology and pathogenesis of periodontal disease were given to any of the patients during the course of the 6-weeks of trial. The clinical examination was repeated after 2 weeks use of the mouthwash preparations. Following the re-examination, all patients were subjected to scaling and root planing in 2 jaw quadrants chosen at random. After another 2 weeks, the 2nd re-examination was performed and the teeth in the 2 remaining jaw quadrants were thoroughly scaled. The final examination was performed 2 weeks later. During the 4 weeks of rinsing, without adjunctive professional mechanical debridement, the frequency distribution of plaque Index scores 2 + 3 did not change in the group of patients using the placebo solution, but was significantly reduced in both the chlorhexidine and the Sanguinarine groups. The gingival index scores and the probing depths were not, however, significantly affected by the 4 weeks use of any of the 3 mouthrinse preparations tested. Professional debridement made the tooth surfaces free from plaque accumulations. In the placebo group, about 32% and 29% of the tooth surfaces received a PII score of 2 + 3 at the 2 and 4 week examinations, respectively. The corresponding figures for the chlorhexidine group were 2.4% and 2.8% and for the Sanguinarine group 9.6% and 8.1%. The professional debridement markedly reduced signs of gingivitis. Compared to the baseline data, the frequency of gingival index scores 2 + 3 was after 4 weeks reduced by 55% in the Sanguinarine group and by 63% in the chlorhexidine group. The corresponding figure for the placebo group was 35%. For all 3 groups of patients, scaling and root planing resulted in the establishment of a larger number of shallow pockets and a lower number of deep pockets.     

Clinical and microbiological benefits of strict supragingival plaque control as part of the active phase of periodontal therapy

Aim: To compare the clinical and microbiological effects of scaling and root planing (SRP) alone or combined with mechanical [professional plaque control (PPC)] or chemical [chlorhexidine rinsing (CHX)] control of supragingival plaque in the treatment of chronic periodontitis.
Material and Methods: Sixty subjects were randomly assigned to receive SRP alone or combined with PPC (twice a week) or with CHX rinsing (twice a day). The adjunctive treatments began with SRP and were continued for 42 days. Clinical and microbiological examinations were performed at baseline, 2 and 6 months post-therapy. Subgingival plaque samples were analysed for 38 bacterial species by checkerboard DNA–DNA hybridization.
Results: The two test treatments were more effective in improving probing depth and clinical attachment level (CAL) than SRP alone, even in intermediate and deep sites. CAL gain was better maintained in the CHX group. The most beneficial microbiological changes were observed in CHX-treated subjects, who showed a significant reduction in the proportions of red and orange complexes, as well as an increase in the proportions of the host-compatible bacterial species.
Conclusion: Strict plaque control performed during and after SRP improves periodontal treatment outcomes. The greatest microbiological and clinical benefits were observed with the use of CHX rinsing.     

The effect of supragingival plaque control on the composition of the subgingival flora in periodontal pockets

The effect of mechanical supragingival plaque control on the composition of the subgingival microflora in untreated 4-6 mm deep periodontal pockets was investigated. 13 subjects with chronic periodontitis were recruited for the study. Periodontally-diseased sites were subjected to professional plaque control 3 x weekly for a period of 3 weeks. Contralateral sites received no prophylaxis and served as controls. No instructions in oral hygiene procedures were given to the patients who maintained their habitual oral hygiene regime during the observation period. Clinical examination and darkfield microscopic analysis of bacterial samples were performed every week. The PlI scores for the experimental sites were reduced markedly, while those for the control sites remained stable throughout the observation period. No changes in the other clinical parameters were detected during the study. The composition of the subgingival microflora at the control sites did not change during the experimental period. In contrast, at the test sites, the proportion of spirochetes+motile rods decreased continuously. This decrease reached statistical significance at the end of the experiment. The results indicate that at periodontally diseased sites with an established subgingival ecosystem, supragingival plaque removal may influence the composition of the subgingival microflora.