Dynamics of initial subgingival colonization of ‘pristine’ peri-implant pockets
Marc Quirynen
Department of Periodontology, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Research Group for Microbial Adhesion, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorRoel Vogels
Department of Periodontology, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorWouter Peeters
Department of Periodontology, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorDaniel van Steenberghe
Department of Periodontology, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorIgnace Naert
Department of Prosthetic Dentistry, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorAnne Haffajee
Department of Periodontology, The Forsyth Institute, Boston, MA, USA
Search for more papers by this authorMarc Quirynen
Department of Periodontology, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Research Group for Microbial Adhesion, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorRoel Vogels
Department of Periodontology, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorWouter Peeters
Department of Periodontology, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorDaniel van Steenberghe
Department of Periodontology, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorIgnace Naert
Department of Prosthetic Dentistry, Faculty of Medicine, School of Dentistry, Oral Pathology & Maxillo-Facial Surgery, Catholic University Leuven, Leuven, Belgium
Search for more papers by this authorAnne Haffajee
Department of Periodontology, The Forsyth Institute, Boston, MA, USA
Search for more papers by this authorAbstract
Background: Periodontitis and peri-implantitis are linked to the presence of several key pathogens. The treatment of these infectious processes therefore involves the reduction/eradication of bacteria associated with periodontitis.
Methods: This prospective, split-mouth, single-blind study followed the colonization of ‘pristine’ sulci created in 42 partially edentulous patients during implant surgery (e.g. abutment connection). The hypothesis was that the composition of the maturing subgingival plaque in these ‘fresh’ peri-implant pockets would soon (within 2 weeks) be comparable to the subgingival microbiota of teeth with similar clinical parameters (reference sites), including the presence of bacteria associated with periodontitis. Per patient, four subgingival plaque samples were taken from shallow and medium pockets around implants (test sites), and teeth within the same quadrant (undisturbed microbiota as control sites), 1, 2, 4, 13, 26 and 78 weeks after abutment connection, respectively. The samples were analysed by either checkerboard DNA–DNA hybridization, or cultural techniques, or real-time polymerase chain reaction (PCR) for intra-subject comparisons (teeth vs. implant, for comparable probing depths).
Results: Checkerboard DNA–DNA hybridization and real-time PCR revealed a complex microbiota (including several pathogenic species) in the peri-implant pockets within 2 weeks after abutment connection. After 7 days, the detection frequency for most species (including the bacteria associated with periodontitis) was already nearly identical in samples from the fresh peri-implant pockets (5% and 20% of the microbiota belonging to red and orange complex, respectively) when compared with samples from the reference teeth. Afterwards (e.g. between weeks 2 and 13), the number of bacteria in peri-implant pockets only slightly increased (±0.1 log value), with minor changes in the relative proportions of bacteria associated with periodontitis (8% and 33% of the microbiota belonging to red and orange complex, respectively). Although small differences were seen between teeth and implants at week 2 with cultural techniques, a striking similarity in subgingival microbiota was found with this technique from month 3 on, with nearly identical detection frequencies for bacteria associated with periodontitis for both abutment types.
Conclusions: This study indicates that the initial colonization of peri-implant pockets with bacteria associated with periodontitis occurs within 2 weeks.
References
- Adell, R., Lekholm, U., Rockler, B., Brånemark, P.-I., Lindhe, J., Eriksson, B. & Sbordone, L. (1986) Marginal tissue reactions at osseointegrated titanium fixtures. (I). A 3-year longitudinal prospective study. International Journal of Oral and Maxillofacial Surgery 15: 39–52.
- Albrektsson, T. & Isidor, F. (1994) Consensus report of session IV. In: N.P. Lang & T. Karring, eds. Proceedings of the First European Workshop on Periodontology, 365–369. London: Quintessence.
- Alsina, M., Olle, E. & Frias, J. (2001) Improved, low-cost selective culture medium for Actinobacillus actinomycetemcomitans. Journal of Clinical Microbiology 39: 509–513.
- Apse, P., Ellen, R.P., Overall, C.M. & Zarb, G.A. (1989) Microbiota and crevicular fluid collagenase activity in the osseointegrated dental implant sulcus: a comparison of sites in edentulous and partially edentulous patients. Journal of Periodontal Research 24: 96–105.
- Bain, C. & Moy, P. (1993) The association between the failure of dental implants and cigarette smoking. International Journal of Oral and Maxillofacial Implants 8: 609–615.
- Boutage, K., Van Winkelhoff, A.J., Vandenbroucke-Grauls, C.M. & Savekoul, P.H. (2003) Comparison of real-time PCR and culture for detection of Porphyromonas gingivalis in subgingival plaque samples. Journal of Clinical Microbiology 41: 4950–4954.
- Bower, R.C., Radny, N.R., Wall, C.D. & Henry, P.J. (1989) Clinical and microscopic findings in edentulous patients 3 years after incorporation of osseointegrated implant-supported bridgework. Journal of Clinical Periodontology 16: 580–587.
- Christersson, L.A., Slots, J., Zambon, J.J. & Genco, R.J. (1985) Transmission and colonization of Actinobacillus actinomycetemcomitans in localized juvenile periodontitis patients. Journal of Periodontology 56: 127–131.
- Danser, M.M., Timmerman, M.F., Van Winkelhoff, A.J. & Van der Velden, U. (1996) The effect of periodontal treatment on periodontal bacteria on the oral mucous membranes. Journal of Periodontology 67: 478–485.
- Danser, M.M., Van Winkelhoff, A.J., de Graaf, J., Loos, B.G. & Van der Velden, U. (1994) Short-term effect of full-mouth extraction on periodontal pathogens colonizing the oral mucous membranes. Journal of Clinical Periodontology 21: 484–489.
- Danser, M.M., Van Winkelhoff, A.J. & Van der Velden, U. (1997) Periodontal bacteria colonizing oral mucous membranes in edentulous patients wearing dental implants. Journal of Periodontology 68: 209–216.
- Esposito, M., Hirsch, J.-M., Lekholm, U. & Thomsen, P. (1998) Biological factors contributing to failures of osseointegrated oral implants (II). Etiopathogenesis. European Journal of Oral Sciences 106: 721–764.
- Esposito, M., Hirsch, J., Lekholm, U. & Thomsen, P. (1999) Differential diagnosis and treatment strategies for biologic complications and failing oral implants: a review of the literature. International Journal of Oral and Maxillofacial Implants 14: 473–490.
- Etter, T.H., Hakanson, I., Lang, N.P., Trejo, P.M. & Cafesse, R.G. (2002) Healing after standardized clinical probing of the periimplant soft tissue seal: a histomorphometric study in dogs. Clinical Oral Implants Research 13: 571–580.
- George, K., Zafiropoulos, G.G., Murat, Y., Spiekermann, H. & Nisengard, R.J. (1994) Clinical and microbiological status of osseointegrated implants. Journal of Periodontology 65: 766–770.
- Gouvoussis, J., Sindhusake, D. & Yeung, S. (1997) Cross-infection from periodontitis sites to failing implant sites in the same mouth. International Journal of Oral and Maxillofacial Implants 12: 666–673.
- Hammond, B.F. (1988) A selective/differential medium for Wolinella recta. Journal of Dental Research 67: 327.
- Hultin, M., Gustafsson, A., Hallstrom, H., Johansson, L.A., Ekfeldt, A. & Klinge, B. (2002) Microbiological findings and host response in patients with peri-implantitis. Clinical Oral Implants Research 13: 349–358.
- Hultin, M., Gustafsson, A. & Klinge, B. (2000) Long-term evaluation of osseointegrated dental implants in the treatment of partly edentulous patients. Journal of Clinical Periodontology 27: 128–133.
- Hutton, J., Heath, M., Chai, J., Harnett, J., Jemt, T., Johns, R., McKenna, S., McNamara, D. & van Steenberghe, D. (1995) Factors related to the success and failure rates at 3-year follow-up in a multicenter study of overdentures supported by Brånemark implants. International Journal of Oral and Maxillofacial Implants 10: 33–42.
- Jaffin, R. & Berman, C. (1991) The excessive loss of Brånemark implants in type IV bone. A five year analysis. Journal of Periodontology 62: 2–4.
- Jervoe-Storm, P.M., Koltzscher, M., Falk, W., Dorfler, A. & Jepsen, S. (2005) Comparison of culture and Real-Time PCR for detection and quantification of five putative periodontopathogenic bacteria in subgingival plaque samples. Journal of Clinical Periodontology 32: 778–783.
- Kohavi, D., Greenberg, R., Raviv, E. & Sela, M.N. (1994) Subgingival and supragingival microbial flora around healthy osseointegrated implants in partially edentulous patients. International Journal of Oral and Maxillofacial Implants 9: 673–678.
- Koka, S., Razzoog, M.E., Bloem, T.J. & Syed, S. (1993) Microbial colonization of dental implants in partially edentulous subjects. Journal of Prosthetic Dentistry 70: 141–144.
- Lee, K.H., Maiden, M.F.J., Tanner, A.C.R. & Weber, H.P. (1999a) Microbiota of successful osseointegrated dental implants. Journal of Periodontology 70: 131–138.
- Lee, K.H., Tanner, A.C.R., Maiden, M.F.J. & Weber, H.P. (1999b) Pre- and post-implantation microbiota of the tongue, teeth, and newly-placed implants. Journal of Clinical Periodontology 26: 822–832.
- Lekholm, U., Adell, R., Lindhe, J., Brånemark, P.-I., Eriksson, B., Rockler, B., Lindvall, A.-M. & Yoneyama, T. (1986) Marginal tissue reactions at osseointegrated titanium fixtures. (II). A cross-sectional retrospective study. International Journal of Oral and Maxillofacial Surgery 15: 53–61.
- Lekholm, U., Ericsson, I., Adell, R. & Slots, J. (1986) The condition of the soft tissues at tooth and fixture abutments supporting fixed bridges. Journal of Clinical Periodontology 13: 558–562.
- Leonhardt, A., Adolfsson, B., Lekholm, U., Wikström, M. & Dahlén, G. (1993) A longitudinal microbiological study on osseointegrated titanium implants in partially edentulous patients. Clinical Oral Implants Research 4: 113–120.
- Leonhardt, A., Bergstrom, C. & Lekholm, U. (2003) Microbiologic diagnostics at titanium implants. Clinical Implant Dentistry and Related Research 5: 226–232.
- Leonhardt, A., Grondahl, K., Bergstrom, C. & Lekholm, U. (2002) Long-term follow-up of osseointegrated titanium implants using clinical, radiographic and microbiological parameters. Clinical Oral Implants Research 13: 127–132.
- Mengel, R., Stelzel, M., Hasse, C. & Flores-de-Jacoby, L. (1996) Osseointegrated implants in patients treated for generalized severe adult periodontitis. An interim report. Journal of Periodontology 67: 782–787.
- Mombelli, A. (1999) Prevention and therapy of peri-implant infections. In: N.P. Lang, T. Karring & J. Lindhe, eds. Proceedings of the 3rd European Workshop on Periodontology, 281–303. Berlin: Quintessence Books.
- Mombelli, A., Buser, D. & Lang, N.P. (1988) Colonization of osseointegrated titanium implants in edentulous patients. Early results. Oral Microbiology and Immunology 3: 113–120.
- Mombelli, A. & Lang, N.P. (1998) The diagnosis and treatment of peri-implantitis. Periodontology 2000 17: 63–76.
- Mombelli, A., Marxer, M., Gaberthüel, T., Grunder, U. & Lang, N.P. (1995) The microbiota of osseointegrated implants in patients with a history of periodontal disease. Journal of Clinical Periodontology 22: 124–130.
- Mombelli, A. & Mericske-Stern, R. (1990) Microbiological features of stable osseointegrated implants used as abutments for overdentures. Clinical Oral Implants Research 1: 1–7.
- Mühlemann, H.R. & Son, S. (1971) Gingival sulcus bleeding, a leading symptom in initial gingivitis. Helvetica Odontologica Acta 15: 107–113.
- Ong, E.S.-M., Newman, H.N., Wilson, M. & Bulman, J.S. (1992) The occurrence of periodontitis-related microorganisms in relation to titanium implants. Journal of Periodontology 63: 200–205.
- Papaioannou, W., Quirynen, M., Nys, M. & van Steenberghe, D. (1995) The effect of periodontal parameters on the subgingival microbiota around implants. Clinical Oral Implants Research 6: 197–204.
- Papaioannou, W., Quirynen, M. & van Steenberghe, D. (1996) The influence of periodontitis on the subgingival flora around implants in partially edentulous patients. Clinical Oral Implants Research 7: 405–409.
- Papapanou, P.N., Madianos, P.N., Dahlen, G. & Sandros, J. (1997) ‘Checkerboard’ versus culture: a comparison between two methods for identification of subgingival microbiota. European Journal of Oral Sciences 105: 389–396.
- Petit, M.D.A., Van Steenbergen, T.J.M., Timmerman, M.F., De Graaff, J. & Van der Velden, U. (1994) Prevalence of periodontitis and suspected periodontal pathogens in families of adult periodontitis patients. Journal of Clinical Periodontology 21: 76–85.
- Quirynen, M., Alsaadi, G., Pauwels, M., Haffajee, A., van Steenberghe, D. & Naert, I. (2005) Microbiological and clinical outcomes and patient satisfaction for 2 treatment options in the edentulous lower jaw after 10 years of function. Clinical Oral Implants Research 16: 277–287.
- Quirynen, M., De Soete, M., Dierickx, K. & van Steenberghe, D. (2001) The intra-oral translocation of periodontopathogens jeopardises the outcome of periodontal therapy. A review of the literature. Journal of Clinical Periodontology 28: 499–507.
- Quirynen, M., De Soete, M. & van Steenberghe, D. (2002) Infectious risks for oral implants: a review of the literature. Clinical Oral Implants Research 13: 1–19.
- Quirynen, M., Gijbels, F. & Jacobs, R. (2003) An infected jawbone site compromising successful osseointegration. Periodontology 2000 33: 129–144.
- Quirynen, M. & Listgarten, M.A. (1990) The distribution of bacterial morphotypes around natural teeth and titanium implants ad modum Brånemark. Clinical Oral Implants Research 4: 8–12.
- Quirynen, M., Mongardini, C., Pauwels, M., Bollen, C.M.L., Van Eldere, J. & van Steenberghe, D. (1999) One stage full- versus partial-mouth disinfection in the treatment of chronic adult or generalized early-onset periodontitis. II. Long-term impact on microbial load. Journal of Periodontology 70: 646–656.
- Quirynen, M. & Teughels, W. (2003) Microbiologically compromised patients and impact on oral implants. Periodontology 2000 33: 119–128.
- Quirynen, M., van Steenberghe, D., Jacobs, R., Schotte, A. & Darius, P. (1991) The reliability of pocket probing around screw-type implants. Clinical Oral Implants Research 2: 186–192.
- Riggio, M.P., Macfarlane, T.W., Mackenzie, D., Lennon, A., Smith, A.J. & Kinane, D. (1996) Comparison of polymerase chain reaction and culture methods for detection of Actinobacillus actinomycetemcomitans and Porphyromonas gingivalis in subgingival plaque samples. Journal of Periodontal Research 31: 496–501.
- Sbordone, L., Barone, A., Ciaglia, R.N., Ramaglia, L. & Iancono, V.J. (1999) Longitudinal study of dental implants in a periodontally compromised population. Journal of Periodontology 70: 1322–1329.
- Silness, J. & Löe, H. (1964) Periodontal disease in pregnancy. II Correlation between oral hygiene and periodontal condition. Acta Odontologica Scandinavia 22: 121–135.
- Siqueira, J.F., Rocas, I.N., De Uzeda, M., Colombo, A.P. & Santos, K.R. (2002) Comparison of 16S rDNA-based PCR and checkerboard DNA–DNA hybridisation for detection of selected endodontic pathogens. Journal of Medical Microbiology 51: 1090–1096.
- Siqueira, J.F. Jr., Rocas, I.N., Souto, R., Uzeda, M. & Colombo, A.P. (2001) Microbiological evaluation of acute periradicular abscesses by DNA–DNA hybridization. Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology and Endodontics 92: 451–457.
- Socransky, S.S., Haffajee, A.D., Cugini, M.A., Smith, C. & Kent, R.L. Jr. (1998) Microbial complexes in subgingival plaque. Journal of Clinical Periodontology 25: 134–144.
- Socransky, S.S., Haffajee, A.D., Smith, C. & Dibart, S. (1991) Relation of counts of microbial species to clinical status at the sampled site. Journal of Clinical Periodontology 18: 766–775.
- Socransky, S.S., Haffajee, A.D., Smith, C., Martin, L., Haffajee, J.A., Uzel, N.G. & Goodson, J.M. (2004) Use of checkerboard DNA–DNA hybridization to study complex microbial ecosystems. Oral Microbiology and Immunology 19: 352–362.
- Socransky, S.S., Smith, C., Martin, L., Paster, B.J., Dewhirst, F.E. & Levin, A.E. (1994) Checkerboard DNA–DNA hybridization. Biotechniques 17: 788–792.
- Sumida, S., Ishihara, K., Kishi, M. & Okuda, K. (2002) Transmission of periodontal disease-associated bacteria from teeth to osseointegrated implant regions. International Journal of Oral and Maxillofacial Implants 17: 696–702.
- Sunde, P.T., Tronstad, L., Eribe, E.R., Lind, P.O. & Olsen, I. (2000) Assessment of periradicular microbiota by DNA–DNA hybridization. Endodontics and Dental Traumatology 16: 191–196.
- Syed, S.A. & Loesche, W.J. (1973) Efficiency of various growth media in recovering oral bacterial flora from human dental plaque. Applied Microbiololgy 26: 459–465.
- Tonetti, M. (1998) Risk factors for osseodisintegration. Periodontology 2000 17: 55–62.
- van Steenberghe, D., Jacobs, R., Desnyder, M., Maffei, G. & Quirynen, M. (2002) The relative impact of local and endogenous patient-related factors on implant failure up to the abutment stage. Clinical Oral Implants Research 13: 617–622.
- van Winkelhoff, A.J., Goene, R.J., Benschop, C. & Folmer, T. (2000) Early colonization of dental implants by putative periodontal pathogens in partially edentulous patients. Clinical Oral Implants Research 11: 511–520.
- Walker, C.B., Ratliff, D., Muller, D., Mandell, R. & Socransky, S.S. (1979) Medium for selective isolation of Fusobacterium nucleatum from human periodontal pockets. Journal of Clinical Microbiology 10: 844–849.
- Watson, P.S., Sissons, C.H., Devine, D.A., Shore, R.C., Kirkham, J., Nattress, B.R., Marsh, P.D. & Robinson, C. (2004) Minimizing prion risk without compromising the microbial composition of biofilms grown in vivo in a human plaque model. Letters in Applied Microbiology 38: 211–216.
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