Diffuse but unilateral gingival enlargement associated with von Recklinghausen neurofibromatosis: a case report.

BACKGROUND: An 8-year old girl was referred for diagnosis and treatment to the Department of Periodontology Oral Surgery of the University Hospital of Liège with an unusual clinical situation: a major, non-inflammatory, diffuse but unilateral enlargement of the interproximal, marginal and attached gingiva around all teeth of the right side of both the upper maxilla and mandible, whereas the alveolar process of the left side of upper and lower arches appeared strictly normal. METHOD: The clinical examination showed delayed eruption of some permanent teeth in the 1st and 4th quadrants. Except for its asymmetric occurrence, this gingival enlargement strongly resembled phenytoin-induced enlargement or gingival fibromatosis. This unilateral expression was evocative of a vascular or neurologic pathology. Several large "café-au-lait" spots were found disseminated on the body. Several selective surgical removals of thick gingival caps impairing the eruption of some permanent teeth were performed, and the removed tissues were histologically analyzed. RESULTS: Because of the presence of the large "café-au-lait" spots, a clinical diagnosis of Von Recklinghausen's disease was given and later confirmed several times by the histological analysis of the gingival biopsies. Now, 6 years later, this gingival enlargement due to the development of intra-gingival neurofibromas is stable and all permanent teeth have had a normal eruption, but alveolar bone growth has been partly impaired by the presence of the tumor. CONCLUSIONS: The present case of unilateral diffuse hyperplasia is a unique clinical expression of neurofibromatosis type I, a slowly evolving neurodermic dysplasia.

Human periodontal ligament fibroblast behavior on chemically conditioned dentine: an in vitro study.

BACKGROUND: Chemical root conditioning is widely used in an attempt to improve the outcome of regenerative periodontal surgery, but its effect on connective tissue cell proliferation and biosynthetic activity has been poorly studied. The goal of the present study was to test in vitro the consequences of conditioning human dentine by citric acid or minocycline on the behavior of attached human periodontal ligament (HPDL) cells in terms of proliferation, protein synthesis and morphological appearance. METHODS: HPDL cells were seeded on powdered human dentine, either untreated or conditioned for 3 minutes with 3% citric acid or 2.5% minocycline HCI. Scanning (SEM) and transmission (TEM) electron microscopic observations were performed, and 3H-thymidine and 3H-proline incorporation tests were used to evaluate the proliferative and the biosynthetic activities. RESULTS: Cell spreading was already evident and the penetration of cytoplasmic processes into dentinal tubules were frequently observed on all dentine types after 2 hours of attachment. After 24 hours of incubation, citric acid conditioning promoted an intense spreading of the cells, while minocycline HCI conditioning induced the formation of a dense feltwork of cellular processes. HPDL fibrolasts adherent to both types of surface-conditioned dentine exhibited a significantly higher rate of proliferation (P<0.01) as well as a significantly higher level of total protein and of collagen synthesis (P<0.01) than on untreated dentine. CONCLUSIONS: These data suggest that during periodontal surgery a conditioning of the root surface by citric acid or by minocycline HCI could promote the attachment, the proliferation, and the biosynthetic activity of HDPL, prerequisites to periodontal regeneration.

In vitro stimulation of human gingival epithelial cell attachment to dentin by surface conditioning.

BACKGROUND: Chemical root conditioning is widely used to improve the outcome of regenerative periodontal therapies by favoring the attachment of the regenerated periodontal structures. Although the effect of root conditioning on periodontal mesenchymal cells is well documented, very little is known about its potential effect on the re-formation of the junctional epithelium, a crucial event for the protection of the wound. The goal of the present study was to test in vitro the consequences of dentin conditioning with citric acid or minocycline on the attachment kinetics and morphology of human gingival keratinocytes (HGK). METHODS: The attachment kinetics of HGK to samples of powdered human dentin (particle size 44 to 76 microm) were examined by use of 3H-labeled cells. The morphology of attached epithelial cells was then determined by scanning electron microscopy (SEM). RESULTS: When the initial adhesion kinetics of cells on untreated dentin were tested, the percentage of attached HGK proved to be dependent on the number of plated cells and the time of incubation (from 0 to 12 hours). Conditioning the dentin by 3% citric acid or by minocycline-HCl (at 0.01, 0.1, or 2.5%) significantly increased (P <0.005) keratinocyte attachment beyond 6 hours, without notable differences between the 2 substances at any concentration. The attachment kinetics of HGK preincubated for 24 hours by 10 microg/ml minocyline-HCl on untreated dentin was found to be similar to that observed for non-preincubated cells. These results are in agreement with the SEM observations: indeed, the surface conditioning of dentin significantly modified the morphology of attached HGK, whereas the preincubation of these cells with minocyline-HCl did not. CONCLUSIONS: These results suggest that minocycline-HCl does not exert a direct effect on human gingival epithelial cells. In contrast, conditioning the dentin by citric acid or by minocycline stimulates the attachment of HGK, which could lead to a rapid periodontal healing by favoring the re-formation of a junctional epithelium.

The influence of cortical perforations and of space filling with peripheral blood on the kinetics of guided bone generation. A comparative histometric study in the rat.

The aim of the present study was to evaluate the influence of cortical perforations and of peripheral blood addition in guided bone generation beyond the skeletal envelope in rats. A total of 30 isogenic adult rats were divided into 3 equal groups. In each rat, two hollow parallelipipedic titanium chambers were placed bilaterally on the calvaria after a periosteal skin flap was raised. While on the right sides (controls) the osseous surface was left intact and the chambers were empty, the cortical bone under the left-side chambers (test sites) was perforated with nine 0.8 mm-diameter holes (group I), or left intact but with the chambers filled with a clot of peripheral blood (group II). In group III, both procedures were combined in the test sites. The healing was assessed at 4, 8 and 16 weeks after surgery by histologic and computer-assisted histometric analysis. The results demonstrated a substantial augmentation of on average 141% (SD 18) of the skull's thickness after 16 weeks in the controls, indicating that a predictable bone formation can be achieved beneath completely occlusive barriers over a non-injured cortical layer. In all test groups, a significantly larger bone augmentation was observed after 16 weeks compared to the control sites 172.8% (SD 41.7) in group I (P < 0.05), 172.0% (SD 18.4) in group II (P < 0.05) and 221.5% (SD 42.3) in group III (P < 0.001), demonstrating that stimulating blood supply and bone forming cells access by cortical perforations and/or blood clot addition enhances de novo bone formation in this experimental model.

[Halitosis: a multidisciplinary problem]. / La mauvaise haleine: un problème multidisciplinaire.

Bad breath, or halitosis, affects between 50 and 65% of the population. Despite its frequency, this problem is often unaccepted and declared taboo. In about 8% of the cases, bad breath is related to an ENT pathology (sinusitis, tonsillitis, ...). More rarely it is caused by a metabolic (diabetes, trimethylaminuremia, ...) or gastric dysfunction. Ninety percent of the cases however, are associated to an oral disease: either gingivitis due to an inadequate removal of dental plaque, especially from interdental spaces, or periodontitis (alveolar bone destruction), or bacterial accumulation on the dorsum of the tongue. In most cases, an intensive disinfection of the mouth by scaling and root planing and/or instruction of a perfect oral hygiene will be sufficient to solve the problem. Perfumed mouthwashes or toothpastes will only give a short-term masking effect. An effective collaboration between a dentist or a periodontist and an ENT specialist is of great importance to dealt with bad breath.

Kinetic aspects of gingival and periodontal ligament fibroblast attachment to surface-conditioned dentin.

An in vitro model has been developed for measurement of initial attachment of 3H-labeled human gingival fibroblasts (HGF) and periodontal ligament cells (HPDL cells) to sieved dentin powder. Reproducible attachment was obtained and was closely related to the number of plated cells, the amount of dentin powder, the temperature, and the time (from 0 to 6 h) of incubation. HGF and HPDL cells had a high affinity for untreated dentin. Heat-denatured BSA coating of the dentin fully inhibited cell attachment, while a fibronectin coating had no significant effect. A surface conditioning of the dentin grains by 3% citric acid or by 2.5% minocycline-HCl increased the initial attachment of HPDL cells significantly (p < 0.05). Minocycline-HCl was more efficient than citric acid in that respect. In addition, HGF attachment to untreated dentin was highly significantly improved (p < 0.005) by a pre-incubation of the cells with 50 micrograms/mL of minocycline, and there was also indication (p = 0.067) of improvement by the presence of minocycline in the attachment medium, with a maximum of efficacy at 110 micrograms/mL. These results suggest that minocycline-HCl directly influenced the attachment properties of fibroblastic cells and that citric acid and minocycline-HCl could act by different mechanisms. HGF and HPDL cells originating from the same patient displayed no significant difference in their attachment to dentin in this model.