Oral Health and Preventive Dentistry, 4/2017
DOI: 10.3290/j.ohpd.a38746, PubMed-ID: 28831460Seiten: 371-378, Sprache: EnglischRamachandra, Srinivas Sulugodu / Dopico, José / Donos, Nikos / Nibali, Luigi
Major advances in the knowledge about the aetiopathogenesis of aggressive periodontitis (AgP) have been achieved. An ever increasing number of scientific articles related to AgP are published every year contributing significantly to the knowledge of this unique and complex disease. AgP has been classified into localised and generalised forms based on their extent and disease progression with distinct clinical and radiological features. A classification of AgP based on severity (mild, moderate and severe) exists; however, it is not easily applicable. Therefore, studies on AgP do not categorise the disease based on severity. A disease staging index for AgP is proposed based on clinical and radiological features, as well as risk factors. Based on the presence or absence of risk factors confirmed by longitudinal studies, cases of AgP can be divided into low risk, medium risk and high risk profiles for disease progression. Clinicians can devise a broad treatment plan for their AgP cases based on this staging. More frequent recall intervals are proposed for patients at medium and high risk for disease progression. Ten cases of AgP with 10-year follow-up were used to validate the staging index by retrospectively assigning prognosis and associating it with tooth loss. The use of this staging by researchers would increase external validity of research on AgP. Long-term analysis of AgP cases are needed to validate this staging index longitudinally.
Schlagwörter: aggressive periodontitis, disease staging, index, prognosis, risk factors, severity, treatment
Quintessence International, 6/2012
PubMed-ID: 22532955Seiten: 483-489, Sprache: EnglischNibali, Luigi / Brett, Peter M. / Donos, Nikos / Griffiths, Gareth S.
Hereditary gingival fibromatosis (HGF) and amelogenesis imperfecta (AI) are two rare oral conditions with genetic etiologies. The case of a 17-year-old boy affected by HGF, AI, anterior open bite, and pyramidal impaction of the maxillary molars is reported. Internal bevel gingivectomies were carried out to reduce gingival overgrowth. Clinical examination of the family revealed the presence of HGF and AI in his 12-year-old sister (both in milder forms) and of HGF in his older half brother. Genetic sequencing analyses were performed to detect any of the known mutations leading to HGF and AI. Histologic analysis revealed the presence of fibroepithelial hyperplasia, consistent with a diagnosis of GF. Sequencing genetic analysis failed to identify any of the common mutations leading to HGF (SOS-1) or AI (enamelin and amelogenin genes). This phenotype, similar to what has been described in other families, may represent a new syndrome caused by an as-yet unknown genotype.
Schlagwörter: amelogenesis, fibromatosis, genetic, gingival, mutation, syndrome
Quintessence International, 3/2012
PubMed-ID: 22299125Seiten: 247-254, Sprache: EnglischNibali, Luigi / D'Aiuto, Francesco / Ready, Derren / Parkar, Mohamed / Yahaya, Rusmizan / Donos, Nikos
Objectives: Only a few studies have attempted to detect differences in microbiologic profiles of patients with chronic periodontitis (CP) and aggressive periodontitis (AgP). The aim of this analysis was to assess if clinical diagnosis or other subject factors showed association with the presence of Actinobacillus actinomycetemcomitans and Porphyromonas gingivalis in a cohort of periodontitis patients.
Method and Materials: Statistical analysis for association between bacterial detection and clinical diagnosis was performed on a total of 267 consecutive periodontitis cases diagnosed with either CP (n = 183) or AgP (n = 84). All subjects had microbiologic samples collected from the four deepest pockets and analyzed by nested polymerase chain reaction.
Results: A actinomycetemcomitans was detected in 54% and 48% of CP and AgP subjects, respectively. A slightly higher detection of P gingivalis was found in CP (67%) compared with AgP (52%) cases. The detection of P gingivalis was associated with older age (P = .002), less disease severity (P = .015), and IL6-1480 genotypes (P = .026), while A actinomycetemcomitans was associated with IL6-1480 genotypes (P = .001).
Conclusion: Detection of known periodontopathogenic bacteria is not able to discriminate different forms of periodontitis.
Schlagwörter: aggressive, bacteria, chronic, genetics, periodontitis
Quintessence International, 5/2011
PubMed-ID: 21519558Seiten: 393-397, Sprache: EnglischNibali, Luigi / Donos, Nikos
It is reported that peri-implantitis does not heal favorably following nonsurgical therapy. In this case study, three consecutive peri-implantitis patients with concomitant history of periodontitis were treated with nonsurgical therapy and reassessed up to 12 months following treatment. All treated peri-implantitis sites showed a considerable reduction in probing pocket depth, attachment loss, and bleeding on probing. This was also associated with bone fill of the vertical bony defects around the previously exposed implant threads. This case report shows that a degree of clinical resolution and radiographic bone fill can occur without the use of adjunctive antibiotics in peri-implantitis lesions of patients with periodontitis.
Schlagwörter: nonsurgical treatment, peri-implantitis, periodontitis, radiographic bone fill