Clinical Trial Details
— Status: Not yet recruiting
Administrative data
NCT number |
NCT04555070 |
Other study ID # |
ORAD7:1:1 |
Secondary ID |
|
Status |
Not yet recruiting |
Phase |
|
First received |
|
Last updated |
|
Start date |
December 2020 |
Est. completion date |
October 2021 |
Study information
Verified date |
September 2020 |
Source |
Cairo University |
Contact |
n/a |
Is FDA regulated |
No |
Health authority |
|
Study type |
Observational
|
Clinical Trial Summary
A cross-sectional study to assess variations in root canal curvatures of the Permanent
Mandibular First and Second Molars in a Sample of Egyptian Population using cone beam
computed tomography through retrospective data analysis
Description:
A) Study design and setting
- Study Design: An observational Cross-sectional Study
- Setting and Location: Being a retrospective study, CBCT scans of Egyptian patients who
have already been subjected to CBCT examination as part of their dental diagnosis and/or
treatment planning will be included. The CBCT scans will be obtained from the data base
available at the department of Oral and Maxillo-facial Radiology, Faculty of Dentistry,
Cairo University, and a private Oral Radiology center, Cairo, Egypt.
B) Participants:
Based on sample size calculation, a sample of 272 canals of mandibular first and second
permanent molars belonging to Egyptian individuals will be examined. The selection of the
scans to be included will be based on the following eligibility criteria.
C) Variables:
- Details about variable
1. Mesio-distal direction of root canal curvatures in the sagittal cuts.
2. Bucco-lingual direction of root canal curvatures in the coronal cuts.
3. Schneider's angle of root canals curvatures present in both coronal and sagittal
cuts.
D) Data Sources / Measurements:
- Retrospective Data Analysis will be performed after the CBCT images are pooled
from the computer database.
- Exposure parameters of the scans were varied depending on the individual
patient's sizes.
- CBCT scans showing mandibular first and second permanent molars with maximum
0.2 voxel sizes will be reviewed.
- CBCT images will be analysed using Planmeca Romexis Viewer software, CBCT
images will be analyzed in 2 planes; the root canal curvatures in the
mesio-distal dimension from the sagittal section and the curvatures in the
bucco-lingual dimension from the coronal sections, determining the direction
of root canal curvatures.
- For each image of canal trajectory, the number of curvatures and their angle
will be recorded using Schneider's criteria (Schneider 1971) as follows; (5
degrees or less); as straight canal (10 to 20 degrees); as moderate curvature
(25 to 70 degrees); as severe curvature
- If the trajectory of the canal contained more than one curve, the additional
curvatures were measured as described by Cunningham & Senia (1992) who
measured Schneider's angle for each curve.
- All CBCT scans will be interpreted by the main investigator, and 30% of the
scans will be re-viewed by the same radiologist to assess intra-observer
reliability with at least 2 weeks interval and by another experienced
radiologist (co-supervisor) to assess inter-observer reliability.
E) Addressing potential sources of bias:
No source of bias. CBCT scans will be coded and interpreted by two oral and
maxillofacial radiologists blinded from demographic data of the patients and from
the results of each other.
F) Study Size:
This power analysis used percentage of curved canals at the cervical third in
sagittal plane as the primary outcome. Based upon the results of Estrela C et al
(2015), the percentage was 77%. Using alpha (α) level of (5%), acceptable margin of
error = 5%; the minimum estimated sample size was 272 canals. Sample size
calculation was performed using Epi Info 7.2.2.2.
G) Sampling strategy: The sample will be collected by simple random sampling. H)
Quantitative variables
- Handling of quantitative variables in analyses The number of root canals of permanent
mandibular first and second molars of Egyptian individuals with root canal curvatures
will be counted to estimate the variations in the Egyptian population.
Severity of curvatures will be estimated using Schneider's method. The direction of
curvatures will be detected from sagittal and coronal cuts.
I) Statistical methods:
*Statistical methods. Data will be analyzed using IBM SPSS advanced statistics (Statistical
Package for Social Scienceaszxs), version 21 (SPSS Inc., Chicago, IL). Numerical data will be
described as mean and standard deviation or median and range. Categorical data will be
described as numbers and percentages. A p-value less than or equal to 0.05 will be considered
statistically significant. All tests will be two tailed.