NR AXDI
AU Sonntag,D.; Peters,O.A.
TI Effect of prion decontamination protocols on nickel-titanium rotary surfaces
QU Journal of Endodontics 2007 Apr; 33(4): 442-6
PT comparative study; journal article
AB Decontamination of instruments is a prerequisite for their potential reuse but may affect surface integrity. Hence, the effect of prion removal protocols on 7 brands of nickel-titanium files was investigated. Baseline debris scores were determined under magnification after staining with van Gieson's solution. After shaping root canals in vitro, rotaries were mechanically and ultrasonically cleaned followed by immersion for 24 hours in 2 M sodium hydroxide (NaOH), 6 M CH(5)N(3), or 3% sodium hypochlorite (NaOCl); control files were stored dry. After sterilization, files were again stained and evaluated. Two of seven file brands demonstrated significantly higher baseline debris scores compared to final scores. Uniformly, debris could not be completely removed; there were no significant differences among groups. After immersion in NaOCl, 27.8% of instruments showed corrosion; however, no deterioration after immersion in the other solutions was found in the other groups. Regarding corrosion, no significant difference was found between brands. Based on these findings, single use of nickel-titanium rotaries appears beneficial.
MH Coloring Agents/diagnostic use; Corrosion; Decontamination/*methods; *Dental Alloys; Disinfectants/therapeutic use; Equipment Contamination/prevention & control; Equipment Design; Guanidines/therapeutic use; Humans; Indicators and Reagents; *Nickel; Picrates/diagnostic use; *Prions; Root Canal Preparation/*instrumentation; Rosaniline Dyes/diagnostic use; Sodium Hydroxide/therapeutic use; Sodium Hypochlorite/therapeutic use; Sterilization/methods; Surface Properties; Thiocyanates/therapeutic use; *Titanium; Ultrasonics
AD Department of Operative Dentistry, Philipps-Universität Marburg, Georg-Voigt-Strasse 3, 35033 Marburg, Germany. sonntag@staff.uni-marburg.de
SP englisch
PO USA