scholarly journals The salivary concentration of Streptococci mutans and Streptococci sanguis and their colonization of artificial tooth fissures in man

1977 ◽  
Vol 22 (7) ◽  
pp. 441-447 ◽  
Author(s):  
Mona Svanberg ◽  
W.J. Loesche
Keyword(s):  
Salivary Concentration ◽  
Artificial Tooth

scholarly journals Native α-Synuclein, 3-Nitrotyrosine Proteins, and Patterns of Nitro-α-Synuclein-Immunoreactive Inclusions in Saliva and Submandibulary Gland in Parkinson’s Disease

Antioxidants ◽  
2021 ◽  
Vol 10 (5) ◽  
pp. 715
Author(s):  
Emilio Fernández-Espejo ◽  
Fernando Rodríguez de Fonseca ◽  
Juan Suárez ◽  
Eduardo Tolosa ◽  
Dolores Vilas ◽  
...  
Keyword(s):  
Parkinson’S Disease ◽  
Parkinson's Disease ◽  
Nervous System ◽  
Clinical Features ◽  
Clinical Feature ◽  
Similar Concentration ◽  
Duct Cells ◽  
Nitrative Stress ◽  
Salivary Concentration

Background. Salivary α-synuclein (aSyn) and its nitrated form, or 3-nitrotyrosine-α-synuclein (3-NT-αSyn), hold promise as biomarkers for idiopathic Parkinson’s disease (IPD). Nitrative stress that is characterized by an excess of 3-nitrotyrosine proteins (3-NT-proteins) has been proposed as a pathogenic mechanism in IPD. The objective is to study the pathological role of native αSyn, 3-NT-αSyn, and 3-NT-proteins in the saliva and submandibulary glands of patients with IPD. Methods. The salivary and serum αSyn and 3-NT-proteins concentration is evaluated with ELISA in patients and controls. Correlations of αSyn and 3-NT-proteins content with clinical features of the disease are examined. Immunohistochemical 3-NT-αSyn expression in submandibulary gland sections is analyzed. Results. (a) Salivary concentration and saliva/serum ratios of native αSyn and 3-NT-proteins are similar in patients and controls; (b) salivary αSyn and 3-NT-proteins do not correlate with any clinical feature; and (c) three patterns of 3-NT-αSyn-positive inclusions are observed on histological sections: rounded “Lewy-type” aggregates of 10–25 µm in diameter, coarse deposits with varied morphology, and spheroid inclusions or bodies of 3–5 µm in diameter. “Lewy-type” and coarse inclusions are observed in the interlobular connective tissue of the gland, and small-sized bodies are located within the cytoplasm of duct cells. “Lewy-type” inclusions are only observed in patients, and the remaining patterns of inclusions are observed in both the patients and controls. Conclusions. The patients’ saliva presents a similar concentration of native αSyn and 3-nitrotyrosine-proteins than that of the controls, and no correlations with clinical features are found. These findings preclude the utility of native αSyn in the saliva as a biomarker, and they indicate the absence of nitrative stress in the saliva and serum of patients. As regards nitrated αSyn, “Lewy-type” inclusions expressing 3-NT-αSyn are observed in the patients, not the controls—a novel finding that suggests that a biopsy of the submandibulary gland, if proven safe, could be a useful technique for diagnosing IPD. Finally, to our knowledge, this is also the first description of 3-NT-αSyn-immunoreactive intracytoplasmic bodies in cells that are located outside the nervous system. These intracytoplasmic bodies are present in duct cells of submandibulary gland sections from all subjects regardless of their pathology, and they can represent an aging or involutional change. Further immunostaining studies with different antibodies and larger samples are needed to validate the data.

scholarly journals Removal of a Foreign Body (Artificial Tooth) from the Bronchial Tree: A New Method

2008 ◽  
Vol 47 (19) ◽  
pp. 1695-1698 ◽  
Author(s):  
Maki Bunno ◽  
Masanori Kawaguchi ◽  
Kunihiro Yamahara ◽  
Chieri Kanda
Keyword(s):  
Foreign Body ◽  
Bronchial Tree ◽  
New Method ◽  
Artificial Tooth

Adjunctive orthodontic management of a missing upper right central incisor in a 12-year-old male using a fixed orthodontic appliance

2021 ◽  
Vol 5 ◽  
pp. 31-34
Author(s):  
Monica Ndudi Adekoya
Keyword(s):  
Orthodontic Treatment ◽  
Self Esteem ◽  
Central Incisor ◽  
Midline Shift ◽  
Orthodontic Appliance ◽  
Vertical Relationships ◽  
Straight Wire ◽  
Fixed Orthodontic Appliance ◽  
Artificial Tooth

This article presents a successful orthodontic management of a 12-year-old male using a fixed orthodontic appliance (straight wire technique). His orthodontic treatment was hinged on creating enough space to accept an artificial tooth, correcting the horizontal and vertical relationships of the upper incisors to the lower and the midline shift. Ultimately, an esthetic smile was achieved; function and self-esteem were improved when the artificial tooth was finally fixed.

Surface treatment on artificial tooth/acrylic resin bond strength

2012 ◽  
Vol 28 ◽  
pp. e26-e27
Author(s):  
R.A. Lara ◽  
R.N. Tango ◽  
G.F.S.A. Saavedra
Keyword(s):  
Bond Strength ◽  
Surface Treatment ◽  
Acrylic Resin ◽  
Artificial Tooth

scholarly journals Influence of distolingual artificial tooth arrengement position upon abutments.

1991 ◽  
Vol 35 (1) ◽  
pp. 13-16
Author(s):  
Shuetsu Kuwashima ◽  
Sunao Ikeda
Keyword(s):  
Artificial Tooth

Oropharyngeal Bacterial Colonization after Chlorhexidine Mouthwash in Mechanically Ventilated Critically Ill Patients

2018 ◽  
Vol 129 (6) ◽  
pp. 1140-1148 ◽  
Author(s):  
Béatrice La Combe ◽  
Anne-Claire Mahérault ◽  
Jonathan Messika ◽  
Typhaine Billard-Pomares ◽  
Catherine Branger ◽  
...  
Keyword(s):  
Minimal Inhibitory Concentration ◽  
Critically Ill ◽  
Bacterial Growth ◽  
Critically Ill Patients ◽  
Inhibitory Concentration ◽  
Bacterial Colonization ◽  
Contamination Level ◽  
Ventilator Associated Pneumonia ◽  
Minimal Inhibitory Concentrations ◽  
Salivary Concentration

Abstract Editor’s Perspective What We Already Know about This Topic What This Article Tells Us That Is New Background Oropharyngeal care with chlorhexidine to prevent ventilator-associated pneumonia is currently questioned, and exhaustive microbiologic data assessing its efficacy are lacking. The authors therefore aimed to study the effect of chlorhexidine mouthwash on oropharyngeal bacterial growth, to determine chlorhexidine susceptibility of these bacteria, and to measure chlorhexidine salivary concentration after an oropharyngeal care. Methods This observational, prospective, single-center study enrolled 30 critically ill patients under mechanical ventilation for over 48 h. Oropharyngeal contamination was assessed by swabbing the gingivobuccal sulcus immediately before applying 0.12% chlorhexidine with soaked swabs, and subsequently at 15, 60, 120, 240, and 360 min after. Bacterial growth and identification were performed, and chlorhexidine minimal inhibitory concentration of recovered pathogens was determined. Saliva was collected in 10 patients, at every timepoint, with an additional timepoint after 30 min, to measure chlorhexidine concentration. Results Two hundred fifty bacterial samples were analyzed and identified 48 pathogens including Streptococci (27.1%) and Enterobacteriaceae (20.8%). Oropharyngeal contamination before chlorhexidine mouthwash ranged from 103 to 107 colony-forming units (CFU)/ml in the 30 patients (median contamination level: 2.5·106 CFU/ml), and remained between 8·105 (lowest) and 3·106 CFU/ml (highest count) after chlorhexidine exposure. These bacterial counts did not decrease overtime after chlorhexidine mouthwash (each minute increase in time resulted in a multiplication of bacterial count by a coefficient of 1.001, P = 0.83). Viridans group streptococci isolates had the lowest chlorhexidine minimal inhibitory concentration (4 [4 to 8] mg/l); Enterobacteriaceae isolates had the highest ones (32 [16 to 32] mg/l). Chlorhexidine salivary concentration rapidly decreased, reaching 7.6 [1.8 to 31] mg/l as early as 60 min after mouthwash. Conclusions Chlorhexidine oropharyngeal care does not seem to reduce bacterial oropharyngeal colonization in critically ill ventilated patients. Variable chlorhexidine minimal inhibitory concentrations along with low chlorhexidine salivary concentrations after mouthwash could explain this ineffectiveness, and thus question the use of chlorhexidine for ventilator-associated pneumonia prevention.

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