TY  - THES
A1  - Reich, Sebastian
T1  - Computergestütztes Auffinden obliterierter Wurzelkanäle mit Hilfe der Planungssoftware SicatEndo und CDX – eine In-vitro-Vergleichsstudie
T1  - Computer based access cavity preparation in teeth with pulp canal obliteration by using the software sicat endo and cdx - a comparative in vitro study
N2  - Ziel der Untersuchung:
Verglichen wurden die räumlichen Abweichungen der Bohrpfade nach virtueller Planung von Schablonen geführten Trepanationen mit Hilfe der Softwaresysteme SicatEndo (SE) und coDiagnostiX (CDX) und der benötigte Arbeitsaufwand.

Material und Methode:
Basierend auf µCT-Datensätzen von humanen obliterierten Frontzähnen wurden identische Kunststoffzähne und acht Zahnmodelle (4 Ober-, 4 Unterkiefer) hergestellt. Es wurde jeweils ein DVT und ein Oberflächenscan angefertigt. Diese Datensätze (DICOM; STL) wurden in die Softwaresysteme importiert und fusioniert. Anschließend wurden die Bohrpfade für je 16 Probenzähne pro Software geplant. Mit Hilfe der erstellten Schablonen wurden alle Trepanationen an den im Phantomkopf fixierten Modellen von einem Behandler durchgeführt. Nach Erschließung des apikalen Wurzelkanalanteils wurde ein DVT angefertigt und mit dem präoperativen DVT überlagert. Die räumliche drei-dimensionale (3D) Abweichung zwischen virtuell geplantem und tatsächlichem Bohrpfad  wurde über die Vektorlänge bestimmt und der Arbeitsaufwand anhand der Planungszeit und der Anzahl der Mausklicks pro Kiefer erfasst.

Ergebnisse:
Für die Trepanationen mit SE zeigten sich signifikant geringe Abweichungen an der Bohrerspitze vestibulär-oral [CDX 0,54mm ± 0,32mm; SE 0,12mm ± 0,11mm; p < 0.05], 3D [CDX 0,74mm ± 0,26 mm; SE 0,35mm ± 0,17mm; p < 0.05] und hinsichtlich des Winkels [CDX 1,57° ± 0,76°; SE 0,68° ± 0,41°; p < 0.05] als mit CDX. Für CDX war der Planungsaufwand signifikant geringer als für SE hinsichtlich Planungszeit [CDX Ø 10min 50sec; SE Ø 20min 28sec] und hinsichtlich der Anzahl der Klicks pro Kiefer [CDX Ø 107; SE Ø 341].

Zusammenfassung:
Beide Planungssysteme ermöglichen ausreichend präzise Schablonen geführte Bohrungen zur Erschließung apikaler Wurzelkanalanteile.
N2  - Aim: 
To compare the accuracy and effort of digital workflow
for guided endodontic access procedures using two
different software applications in 3D-printed teeth modeled
to simulate pulp canal obliteration in vitro.

Materials and methods: 
32 3D-printed incisors with simulated
PCO were fabricated and mounted, four each on maxillary
and mandibular study arches. Cone beam computed tomography
(CBCT) and 3D surface scans were matched and used to
virtually plan and prepare GEA by one operator using two
different methods: 1) coDiagnostiX (CDX) with
3D-printed templates, and 2) SicatEndo (SE) with subtractive
CAD/CAM-manufactured templates. Postoperative
CBCT and virtual planning data were superimposed for
analysis. Accuracy was assessed by measuring the discrepancies
between planned and prepared cavities at the tip of the
bur (three spatial dimensions, 3D vector, angle). Virtual planning
effort was defined as the time and number of computer
clicks. A 95% confidence interval (CI) was computed for each
sample
.
Results:
SE successfully located root canals for GEA in 16/16
cases (100%) and CDX in 15/16 cases (94%). SE resulted in less
mean deviation at the tip of the bur with regard to distance in
the labial-oral direction (0.12 mm), 3D vector (0.35 mm), and
angle (0.68 degrees) compared with CDX (0.54 mm, 0.74 mm,
1.57 degrees, respectively; P < 0.001). CDX required less mean
planning time and effort for each four-tooth arch (10 min 50 s,
107 clicks) than SE (20 min 28 s, 341 clicks; P < 0.05).

Conclusions:
 Both methods enabled rapid drill path planning,
a predictable GEA procedure, and the reliable location
of root canals in teeth with PCO without perforation.
KW  - Wurzelkanalbehandlung
KW  - 3D-Druck
KW  - Wurzelkanalobliteration
KW  - schablonengeführte Trepanation
KW  - 3D Druck
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-206875
ER  - 
TY  - JOUR
A1  - Krug, Ralf
A1  - Volland, Julian
A1  - Reich, Sebastian
A1  - Soliman, Sebastian
A1  - Connert, Thomas
A1  - Krastl, Gabriel
T1  - Guided endodontic treatment of multiple teeth with dentin dysplasia: a case report
JF  - Head & Face Medicine
N2  - Background 
To report the outcome of guided endodontic treatment (GET) of a case of dentin dysplasia with pulp canal calcification (PCC) and apical periodontitis based on the use of a 3D-printed template designed by merging cone-beam computed tomography (CBCT) and surface scan data. 

Case presentation 
A 12-year old female with radicular dentin dysplasia type I (DD-1) presented for endodontic treatment. Radiography revealed PCC in all teeth and apical radiolucency in seven teeth (12, 15, 26, 31, 32, 36 and 46). Tooth 36 had the most acute symptoms and was thus treated first by conventional access cavity preparation and root canal detection. Despite meticulous technique, the distal and mesiolingual canals were perforated. The perforations were immediately repaired with mineral trioxide aggregate, and the decision was made to switch to guided endodontic treatment for the remaining 6 teeth. CBCT and intraoral surface scans were acquired and matched using coDiagnostix planning software (Dental Wings Inc.), the respective drill positions for root canal location were determined, and templates were virtually designed and 3D-printed. The template was positioned on the respective tooth, and a customized drill was used to penetrate the calcified part of the root canal and perform minimally invasive access cavity preparation up to the apical region. All root canals were rapidly and successfully located with the templates. At 1-year follow-up, clear signs of apical healing were present in all treated teeth. 

Conclusions 
In patients with dentin dysplasia, conventional endodontic therapy is challenging. GET considerably facilitates the root canal treatment of teeth affected by dentin dysplasia.
KW  - guided endodontics
KW  - pulp canal calcification
KW  - dentin dysplasia
KW  - root canal treatment
KW  - template
KW  - access caity preparation
KW  - beam computed tomography
KW  - canal calcification
KW  - permanent
KW  - obliteration
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-230271
VL  - 16
ER  -