Mauro Donati scite author profile

Aim: To compare histopathological characteristics of peri-implantitis and periodontitis lesions. Methods: A search was conducted on publications up to July 2010. Studies carried out on human biopsy material and animal experiments were considered. Results: While comprehensive information exists regarding histopathological characteristics of human periodontitis lesions, few studies evaluated peri-implantitis lesions in human biopsy material. Experimental peri-implantitis lesions were evaluated in 10 studies and three of the studies included comparisons to experimental periodontitis. Human biopsy material: the apical extension of the inflammatory cell infiltrate (ICT) was more pronounced in peri-implantitis than in periodontitis and was in most cases located apical of the pocket epithelium. Plasma cells and lymphocytes dominated among cells in both types of lesions, whereas neutrophil granulocytes and macrophages occurred in larger proportions in peri-implantitis. Experimental studies: placement of ligatures together with plaque formation resulted in loss of supporting tissues and large ICTs around implants and teeth. Following ligature removal, a ''selflimiting'' process occurred in the tissues around teeth with a connective tissue capsule that separated the ICT from bone, while in peri-implant tissues the ICT extended to the bone crest. Conclusion: Despite similarities regarding clinical features and aetiology of peri-implantitis and periodontitis, critical histopathological differences exist between the two lesions.

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Aspects of adaptive host response in periodontitis

Berglundh

Donati

2005

J Clinic Periodontology

161

154

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In periodontitis lesions, plasma cells are the most common cell type and represent about 50% of all cells, while B cells comprise about 18%. The proportion of B cells is larger than that of T cells and Th cells occur in larger numbers than T cytotoxic cells. Polymorphonuclear cells and macrophages are found in fractions of less than 5% of all cells. Lesions in aggressive and chronic forms of periodontitis exhibit similar cellular composition. Differences in disease severity, however, may reflect increases in plasma cell and B cell densities. B cells serve as important antigen-presenting cells in periodontitis. The periodontitis lesion expresses a unique TCR gene repertoire that is different from that in blood. The role of superantigens in periodontitis is unclear. There are few studies using comparative designs and unbiased quantitative methods regarding Th-1 and Th-2 cells in periodontitis. The relative dominance of B cells and plasma cells in periodontitis lesions cannot entirely be explained by enhanced Th-2 functions but maybe because of an imbalance between Th-1 and Th-2. Autoimmune reactions are evident in periodontitis lesions. The role of auto-antibodies in the regulation of host response in periodontitis, however, needs to be clarified. Auto-reactive B cells occur in larger proportions in subjects with periodontitis than in healthy controls.

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Ridge preservation with the use of deproteinized bovine bone mineral

Lindhe

Cecchinato²,

Donati

et al. 2013

Clinical Oral Implants Res

107

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Immediate functional loading of implants in single tooth replacement: a prospective clinical multicenter study

Donati

Scala

Billi³

et al. 2008

Clinical Oral Implants Res

104

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Association of the−1087 IL 10 gene polymorphism with severe chronic periodontitis in Swedish Caucasians

Berglundh¹,

Donati²,

Hahn-Zoric

et al. 2003

J Clinic Periodontology

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Mauro Donati

Are peri‐implantitis lesions different from periodontitis lesions?

Aspects of adaptive host response in periodontitis

Ridge preservation with the use of deproteinized bovine bone mineral

Immediate functional loading of implants in single tooth replacement: a prospective clinical multicenter study

Association of the−1087 IL 10 gene polymorphism with severe chronic periodontitis in Swedish Caucasians

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