Your search keyword '"Zehnder M"' showing total 10 results

1. Effect of dentine cutting efficiency on the lateral force created by torque‐controlled rotary instruments.

Author

Deari, S., Zehnder, M., and Al‐Jadaa, A.

Subjects

*DENTIN, *LATERAL loads, *TORQUE, *MARTENSITE, *BICUSPIDS, *SIMULATION methods & models

Abstract

Aim: To study the impact of dentine cutting efficiency of rotary instruments on the lateral force they create when instrumenting simulated root canals in bovine dentine. Methodology: Lateral cutting efficiency of austenitic files (ProTaper Universal) was compared to that of counterparts of a reported identical geometrical design with a martensite phase component (ProTaper Gold) in bovine dentine disks (n = 6). Instrument shapes were studied using digital microscopy. The intracanal lateral force exerted by the two systems in simulated premolars (n = 9) made from bovine incisor roots containing a standardized narrow root canal of 16 mm length was monitored using a testing apparatus equipped with a torque‐controlled endodontic motor/handpiece. Data were compared using parametric statistics, alpha error = 0.05. Results: The geometrical design of the two systems under investigation was found to be identical. The martensitic nickel‐titanium rotary files had a significantly (t‐test, P < 0.05) higher lateral cutting efficiency than austenitic counterparts. This difference, however, did not impact the lateral force that was created when instrumenting simulated premolar root canals. Furthermore, lateral force peaks were generated with the progressively tapered instruments under investigation towards the full working length. Even though a glide path was prepared, the first instrument in the full‐length sequence (S1) created the highest lateral force (anova/Tukey's HSD, P < 0.05). Conclusions: The current experimental set‐up allows the study of the lateral force generated during root canal instrumentation. This force was not influenced by the dentine cutting efficiency of the instruments under investigation, but rather by their geometrical design. [ABSTRACT FROM AUTHOR]

Published

2020

2. Short‐term storage stability of NaOCl solutions when combined with Dual Rinse HEDP.

Author

Zollinger, A., Mohn, D., Zeltner, M., and Zehnder, M.

Subjects

SODIUM hypochlorite, ETIDRONATE, DENTAL chemistry, CHEMICAL stability, CHLORINE

Abstract

Abstract: Aim: To assess the stability of NaOCl solutions when combined with a novel product for clinical use, Dual Rinse HEDP, which contains etidronate (1‐hydroxyethane 1,1‐diphosphonate). Methodology: Mixtures of NaOCl solutions with Dual Rinse HEDP were prepared so that they initially contained 5.0%, 2.5% or 1.0% NaOCl and always 9.0% of dissolved Dual Rinse HEDP powder per total weight. NaOCl solutions alone were used as controls. The stability of these solutions over 8 h was assessed in transparent borosilicate glass bottles at ambient temperature (23 °C). Subsequently, the effects of heating (60 °C) or storing the solutions at 5 °C were studied in polypropylene syringes. NaOCl concentrations were measured by iodometric titration, that is free available chlorine contents. Experiments were performed in triplicate. Results: In the glass bottles at 23 °C, the 5.0% NaOCl/9.0% Dual Rinse HEDP solution lost 20% of the available chlorine after 1 h, whilst the corresponding 2.5% NaOCl and 1.0% NaOCl solutions retained this relative amount of available chlorine for 2 and 4 h, respectively. Results obtained in the glass bottles were similar to those achieved in the syringes. Heating of the NaOCl/Dual Rinse HEDP mixtures had a detrimental effect on available chlorine, with a complete loss after 1 h. In contrast, storing the NaOCl/Dual Rinse HEDP mixtures in a refrigerator at 5 °C kept the available chlorine high for 7 h, with the expected loss after a further hour of storage at 23 °C. Conclusions: Initial NaOCl concentration and temperature both affected short‐term storage stability of combined solutions containing Dual Rinse HEDP. [ABSTRACT FROM AUTHOR]

Published

2018

3. FISHing for gutta-percha-adhered biofilms in purulent post-treatment apical periodontitis.

Author

Zehnder, M., Rechenberg, D.‐K., Thurnheer, T., Lüthi‐Schaller, H., and Belibasakis, G.N.

Subjects

*BIOFILMS, *PERIODONTITIS, *FLUORESCENCE in situ hybridization, *FUSOBACTERIUM, *BACTEROIDETES, *PREVOTELLACEAE, *BACTERIA, *DENTAL materials, *DENTAL pulp cavities, *ENTEROCOCCUS, *GRAM-negative bacteria, *MICROSCOPY, *PERIAPICAL diseases, *STAPHYLOCOCCUS, *GRAM-negative anaerobic bacteria, *THERAPEUTICS

Abstract

This study investigated the possibility of depicting individual taxa in clinically relevant biofilms using fluorescent in situ hybridization (FISH). Gutta-percha samples were collected from the apical aspect of root canals associated with a chronic apical abscess (test samples, n = 8). Corresponding control samples were obtained from previously filled root canals with apparently normal periapical tissues (n = 3). The transport medium was investigated for detached biofilm fragments using FISH staining and conventional epifluorescence microscopy. Gutta-percha samples were stained by multiplex FISH, and inspected using confocal laser scanning microscopy. FISH of the transport medium confirmed the presence of the main species formerly identified by conventional methods in post-treatment purulent endodontic infections, most prominently Fusobacterium spp., Bacteroidetes and Prevotellaceae. Treponemes were identified in five of eight cases associated with purulent infections, but Enterococcus faecalis and Staphylococcus spp. were not identified. The biofilms on gutta-percha from root canals associated with apical periodontitis showed dense aggregates of variable composition. Control samples contained few, if any, bacteria in the transport medium, and featured no biofilms on the respective gutta-percha specimens. The current study revealed some direct, visual in situ information on the nature of biofilms associated with purulent periapical infections in man. [ABSTRACT FROM AUTHOR]

Published

2017

4. Available chlorine consumption from NaOCl solutions passively placed in instrumented human root canals.

Author

Ragnarsson, K. T., Rechenberg, D. K., Attin, T., and Zehnder, M.

Subjects

HYPOCHLORITES, DENTAL pulp cavities, POTASSIUM iodide, IRRIGATION (Medicine), ROOT canal treatment

Abstract

Aim To monitor chlorine consumption from nonagitated aqueous sodium hypochlorite (NaOCl) solutions in human root canals using a recently developed assay, which can determine the order of magnitude of available chlorine in small volumes of liquid. Methodology The root canals of 80 extracted single-rooted human teeth were instrumented to ProTa-per Universal F4 and irrigated using 1% NaOCl. Subsequently, canals were irrigated with copious amounts of deionized water to rinse out the residual chlorine. Subsequently, the teeth were sealed externally and placed in a water bath of 37 °C. Root canals were filled with NaOCl of 1%, 2.75%, 5.5%, or distilled water for 1, 10, 100 or 1000 min (n = 5 teeth per solution and time). Consumption of chlorine was measured using paper points pre-impregnated with 15% potassium iodide. Colour change of the paper points was determined photo-electronically, assessing their red value after absorbing solutions from root canals. Measurements were compared to a standard series of NaOCl down to 0.001% (n = 5 paper points per concentration). Results Red values of the paper points inserted into the root canal were affected by initial NaOCl concentration and time (two-way ANOVA, P < 0.05). If NaOCl concentrations above 0.1% are considered to be clinically relevant, then 5.5% NaOCl retained its activity in the root canal for more than 100 min, whereas 1% NaOCl lost its activity between 10 and 100 min. Conclusions Nonagitated NaOCl solutions can remain biologically active in human root canals for extended time periods. [ABSTRACT FROM AUTHOR]

Published

2015

5. Potential systematic error in laboratory experiments on microbial leakage through filled root canals: an experimental study.

Author

Rechenberg, D.‐K., Thurnheer, T., and Zehnder, M.

Subjects

MEASUREMENT errors, DENTAL pulp cavities, DENTAL fillings, BICUSPIDS, ENTEROCOCCUS faecalis, FLUORESCENCE in situ hybridization, HISTOLOGY

Abstract

Rechenberg D-K, Thurnheer T, Zehnder M. Potential systematic error in laboratory experiments on microbial leakage through filled root canals: an experimental study. International Endodontic Journal, 44, 827-835, 2011. Abstract Aim To assess the routes of bacterial leakage in a commonly used two-chamber model designed to evaluate root fillings. Methodology Fifty-one intact human mandibular premolars with fully developed roots were used. They were left completely intact ( n = 23), or were accessed, instrumented and either left open ( n = 5) or root filled with gutta-percha and AH Plus ( n = 23). All teeth were sealed between two chambers using sticky wax. The apical root aspects were left uncovered. The upper chamber was seeded with Enterococcus faecalis. An enterococci-selective broth was used in the lower chamber. Leakage was assessed for 120 days and compared using survival statistics (α < 0.05). Subsequently, roots were trans-sected, stained using a 'live' DNA stain (Syto59) and inspected using confocal laser scanning microscopy. An E. faecalis-specific RNA probe was used for fluorescence in situ hybridization (FISH). Results Leakage started to occur from day 56, with further occurrence essentially identical between root filled teeth and intact counterparts ( P = 0.71). All the trans-sections showed fluorescence related to Syto59 between the cementum layer and the sticky wax. Fluorescence was also observed between the root filling and the tubular dentine, whilst it was absent at the interface between root filling and sclerotic dentine. Secondary dentinal tubules, i.e. lateral branches connecting the main counterparts, contained fluorescent material. FISH revealed that Syto59 exclusively stained E. faecalis. Conclusions The current experimental method proved to be unsuitable to compare root fillings. Histology revealed interesting observations regarding the relationship of dentine structure and bacterial leakage, which warrant further investigation. [ABSTRACT FROM AUTHOR]

Published

2011

6. Potential systematic error in laboratory experiments on microbial leakage through filled root canals: review of published articles.

Author

Rechenberg, D.‐K., De‐Deus, G., and Zehnder, M.

Subjects

DENTAL pulp cavities, TEETH abnormalities, SEALING (Technology), EXPERIMENTAL groups, MEDLINE, BACTERIA

Abstract

Aim To systematically evaluate whether published studies on microbial leakage through filled root canals in human teeth embedded in a two-chamber system were properly controlled. Specifically, the control for the assumption that leakage should occur through the root canal rather than other routes was investigated. Methodology A systematic search was conducted using Medline, Biosis, Cochrane, Embase, and Web of Science databases. In addition, the reference lists of review articles pertaining to the topic were searched. No language restriction was applied. Two independent reviewers screened titles and abstracts. All articles deemed appropriate by either reviewer were included in the full-text evaluation. In case of disagreement, a referee arbitrated between the reviewers. Results With 93.8% agreement prior to discussion and arbitration, 67 articles were included. On average, the size of the negative control group was 30% (mean) of the n in the experimental groups (minimum = 0.0%, maximum = 100%, SD = 27%). The majority of studies (57 of 67) used inadequate negative controls. The whole root was covered with the sealing material in these specimens, whilst the root tip was left uncovered in the experimental groups. Consequently, leakage between outer root surface and sealing material was not controlled for. The authors of the remaining 10 communications did not state clearly how negative control assessments were performed. Conclusions Experimental investigations should be performed to assess the routes of microbial leakage in two-chamber models. [ABSTRACT FROM AUTHOR]

Published

2011

7. Composites made of flame-sprayed bioactive glass 45S5 and polymers: bioactivity and immediate sealing properties.

Author

Mohn, D., Bruhin, C., Luechinger, N. A., Stark, W. J., Imfeld, T., and Zehnder, M.

Subjects

GUTTA-percha, NANOPARTICLES, DENTAL pulp cavities, SURFACE sealers, SCANNING electron microscopy, X-ray spectroscopy, X-ray diffraction

Abstract

Mohn D, Bruhin C, Luechinger NA, Stark WJ, Imfeld T, Zehnder M. Composites made of flame-sprayed bioactive glass 45S5 and polymers: bioactivity and immediate sealing properties. International Endodontic Journal, 43, 1037-1046, 2010. Aim To engineer systems using polyisoprene (PI) or polycaprolactone (PCL) and nanometric bioactive glass 45S5 (BG) that could create a hydroxyapatite interface and thus ultimately make the use of an endodontic sealer unnecessary. Methodology Different composites using PI or PCL as matrix material were prepared with BG contents of up to 30 wt%. Unfilled PI and PCL, commercially available filled PI (Obtura gutta-percha) and PCL pellets (Resilon) served as control materials. Bioactivity ( in vitro precipitate formation in simulated body fluid) was investigated using scanning electron microscopy and X-ray diffraction analysis. To test immediate sealing ability, simulated root canals were filled with heated materials, and dye leakage was assessed. Leakage was statistically compared between groups using Kruskal-Wallis analysis of variance followed by Mann-Whitney U tests and Bonferroni correction. The alpha-type error was set at 0.05. Results Both composite systems revealed hydroxyapatite formation on their surface. This was not observed on control materials. Incorporating 30 wt% BG into PI and PCL significantly ( P < 0.05) improved their immediate sealing ability compared to that of unfilled polymers, so that dye leakage in simulated root canals was prevented completely. Conclusion Polyisoprene and PCL composites with BG showed promising results as single root canal filling materials. Incorporation of BG fillers into the polymers under investigation made the resulting composite materials bioactive and improved their immediate sealing ability. [ABSTRACT FROM AUTHOR]

Published

2010

8. The mysterious appearance of enterococci in filled root canals.

Author

Zehnder, M. and Guggenheim, B.

Subjects

*DENTAL caries research, *DENTAL pulp cavities, *ENTEROCOCCAL infections, *PREVENTIVE dentistry, *ENTEROCOCCUS, *DISEASES

Abstract

In this narrative review, the potential reasons for the high occurrence of enterococci in filled root canals are explored. The pulpless root canal appears to be a habitat for these bacteria, particularly for Enterococcus faecalis. However, re-surveying the literature in caries research, it can be concluded that, contrary to earlier belief, enterococci are rare if ever found at the advancing front of dentinal lesions. The same is the case for true primary endodontic infections, but some uncertainty remains, because the coronal seal and the history of teeth harbouring enterococci have rarely been accurately investigated. Furthermore, from longitudinal studies with a known infection at the initiation of treatment, which was carried out under controlled asepsis, it is questionable whether enterococci are as difficult to eliminate from the canal system as is commonly held. A more likely explanation for the high occurrence of enteroccci in filled root canals is that they enter after treatment, but from which source? The intriguing finding in this context is that enterococci do not appear to be colonizers of the oral cavity. They are merely transient oral bacteria, unless there is a predilection site such as the unsealed necrotic or filled root canal. The origin of this infection is most likely food. Using the example of enterococci in filled root canals, this paper highlights the possible importance of transient microorganisms in the oral cavity and changes in a microenvironment that can create favourable conditions for infection. [ABSTRACT FROM AUTHOR]

Published

2009

9. Fine-tuning of Bioactive Glass for Root Canal Disinfection.

Author

Waltimo, T., Mohn, D., Paqué, F., Brunner, T. J., Stark, W. J., Imfeld, T., Schätzle, M., and Zehnder, M.

Subjects

BIOACTIVE compounds, DENTAL pulp cavities, SLURRY, VOLUMETRIC analysis, HYDROCHLORIC acid, NANOTECHNOLOGY, ENTEROCOCCUS, THERAPEUTICS

Abstract

An ideal preparation of 45S5 bioactive glass suspensions/slurries for root canal disinfection should combine high pH induction with capacity for continuing release of alkaline species. The hypothesis of this study was that more material per volume of bioactive glass slurry is obtained with a micrometric material (< 5 µm particle size) or a micrometric/nanometric hybrid, rather than a solely nanometric counterpart. This should correlate with alkaline capacity and antimicrobial effectiveness. Slurries at the plastic limit were prepared with test and reference materials in physiological saline. Total mass and specific surface area of glass material per volume were determined. Continuous titration with hydrochloric acid was performed, and antimicrobial effectiveness was tested in extracted human premolars mono-infected with E. faecalis ATTC 29212 (N = 12 per material). While the nanometric slurry had a 12-fold higher specific surface area than the micrometric counterpart, the latter had a considerably higher alkaline capacity and disinfected significantly better (Fisher's exact test, P < 0.05). The hybrid slurry behaved similarly to the micrometric preparation. [ABSTRACT FROM AUTHOR]

Published

2009

10. Effect of dentine cutting efficiency on the lateral force created by torque‐controlled rotary instruments

Author

Shengjile Deari, Matthias Zehnder, Anas Al-Jadaa, University of Zurich, and Zehnder, M

Subjects

Dental Instruments, Materials science, Root canal, 0206 medical engineering, 610 Medicine & health, 02 engineering and technology, Bovine dentine, Root canal instrumentation, 03 medical and health sciences, 0302 clinical medicine, 10066 Clinic of Conservative and Preventive Dentistry, Premolar, medicine, Animals, Torque, General Dentistry, Mechanical Phenomena, Titanium, Equipment Design, 030206 dentistry, 3500 General Dentistry, 020601 biomedical engineering, medicine.anatomical_structure, Dentin, Cattle, Dental Pulp Cavity, Root Canal Preparation, Dental Alloys, Digital microscopy, Biomedical engineering

Abstract

AIM To study the impact of dentine cutting efficiency of rotary instruments on the lateral force they create when instrumenting simulated root canals in bovine dentine. METHODOLOGY Lateral cutting efficiency of austenitic files (ProTaper Universal) was compared to that of counterparts of a reported identical geometrical design with a martensite phase component (ProTaper Gold) in bovine dentine disks (n = 6). Instrument shapes were studied using digital microscopy. The intracanal lateral force exerted by the two systems in simulated premolars (n = 9) made from bovine incisor roots containing a standardized narrow root canal of 16 mm length was monitored using a testing apparatus equipped with a torque-controlled endodontic motor/handpiece. Data were compared using parametric statistics, alpha error = 0.05. RESULTS The geometrical design of the two systems under investigation was found to be identical. The martensitic nickel-titanium rotary files had a significantly (t-test, P

Published

2020