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ABSTRACT: The effects of various antimicrobial peptides (AMPs) on disrupting the hemagglutinating ability of cellular components of the putative oral pathogen Porphyromonas gingivalis were examined. AMP inhibition of P. gingivalis 381-induced hemagglutination using vesicles (VES) or outer membrane (OM) preparations was determined within standardized hemagglutination assays using various mammalian erythrocytes. A synthetic decapeptide (KSL-W) and its truncated peptide analogs were evaluated and compared with selected classes of AMPs derived from naturally occurring innate defense peptides. All tested AMPs were effective in disrupting P. gingivalis-induced hemagglutination among tested erythrocytes, with the exception of magainin I and the truncated KSL-W analogs. LL-37 was generally the most potent followed by histatin 5. The synthetic decapeptide (KSL-W) was found to be similar to the histatin 8 peptide in terms of inhibitory effect. In addition, co-application assays (with selected oral-related AMPs+/-KSL-W) were employed to determine if co-application procedures would improve hemagglutination abrogation above that of oral-related AMPs alone. These experiments revealed that the KSL-W peptide improved hemagglutination inhibition above that of each of the oral-related peptides (histatin 5 and 8, LL-37) alone. Among mammalian erythrocytes, significant peptide-induced hemagglutination was observed for the cathelicidin class AMPs, LL-37 and indolicidin (>or=25 and >or=100 microM respectively). In contrast, KSL-W did not induce erythrocyte agglutination throughout any concentration range tested (0.1-1000 microM). Our results suggest that several AMPs are effective in disrupting P. gingivalis 381-induced hemagglutination and that the co-application of a small, synthetically derived peptide may serve to augment the role of local host AMPs engaged in innate defense.
Peptides 09/2009; 30(12):2161-7. · 2.43 Impact Factor
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ABSTRACT: The objective of this study was to determine the contribution of commensal bacteria to the innate defense status of gingival tissue by examining the expression of innate host defense mediators in germ-free and conventionally reared groups in both BALBc/ByJ and SCID C.B17 mice.
Semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) was utilized to determine the constitutive levels within each gingival tissue set (N = 5) for: E-selectin, P-selectin, interleukin-(IL)-8 homologue, tumor necrosis factor-alpha, IL-1beta, intercellular adhesion molecule-(ICAM)-1, ICAM-2, and vascular adhesion molecule-(VCAM)-1. In addition, IL-1beta protein content was determined by enzyme-linked immunosorbent assay (ELISA).
Gingival samples revealed that only IL-1beta mRNA expression among all mediators examined was significantly reduced in conventionally reared mice (P<0.01) compared to germ-free mice. In contrast, IL-1beta protein levels were significantly (P <0.001) higher in conventionally reared mice compared to germ-free animals. Conventionally reared and germ-free SCID C.B17 mice revealed a similar pattern in regard to reduced IL-1beta mRNA and significantly increased IL-1beta protein (P<0.0001).
Commensal microbial colonization influences innate host defense mediator expression of IL-1beta at both the mRNA and protein levels in healthy periodontal tissue in mice.
Journal of Periodontology 11/2004; 75(11):1486-92. · 2.60 Impact Factor
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Periodontology 2000 02/2004; 35:53-74. · 3.96 Impact Factor
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ABSTRACT: Placement of endosseous dental implants in edentulous areas of the anterior maxilla poses a unique challenge due to variations in the amount of residual alveolar bone. Implant position becomes crucial in cases demanding high esthetic results but possessing minimal ridge width or in cases requiring augmentation. Recent advances in spiral tomography have allowed for more precise planning and placement of endosseous implants in these challenging areas.
The purpose of this report is to describe a series of clinical cases in which spiral tomography was utilized in the planning and placement of endosseous dental implants. Two cases will be described utilizing initial spiral tomographic radiographs for implant planning and surgical guide fabrication, followed by post-insertion tomography to evaluate the results of implant position and inclination.
Preimplant spiral tomograms revealed that the initial prosthetic trajectory through the proposed incisal edge of each tooth replacement would result in a final osteotomy site that would compromise the overall thickness of the facial cortical plate. After adjusting for magnification and distortion factors, new prosthetic/surgical trajectories were fabricated into the surgical guide, and this information was utilized to prepare the final implant osteotomy site. This adjustment resulted in 2 mm of residual crestal facial bone postimplant insertion, which became wider at more apical measurements. These findings were verified in the postimplant serial tomograms.
Spiral tomography was a valuable adjunct in the treatment planning phases of endosseous dental implant placement especially in cases with minimal crestal width, high esthetic demands, or where exact implant placement is critical for successful treatment outcomes.
Journal of Periodontology 11/2002; 73(10):1202-9. · 2.60 Impact Factor
