Dental Caries Clinical Trial
Official title:
Reliability of Fluorescent Camera and Caries Detection Dye Versus the Visual Tactile Method in Determining Caries Excavation Endpoint Using Microbiological Assessment (Randomized Clinical Trial)
1. Three dentinal carious lesions will be chosen in this study and will be in the same
patient.
2. Using local anaesthesia and rubber dam, the operative field will disinfected with 1%
hypochlorite, and the dentine lesions should be exposed with a high-speed diamond bur
by removing covering enamel.
3. Before the excavation dentine samples are collected for baseline bacteriological
assessment .
4. Excavation will be carried out using new slow speed round burs and hand excavators.
5. The excavation end point of one cavity will be determined using visual tactile method.
The two other cavities will be inspected with fluorescent camera or caries detector dye
(CDD) methods to determine excavation endpoint respectively.
6. After excavation, dentine samples from the three cavities will be collected using a
sterile excavator for the bacteriological assessment.
- Number of visits & follow up period: all procedures will be done at the same visit
and there is no follow up period.
Direct benefit of the research to the human volunteer: to determine the excavation endpoint
to ensure complete caries removal and prevent it's recurrence in the future.
Scientific value and social benefits: to reach the best method to determine the excavation
endpoint.
Expected risk to the human subjects: the ordinary side effects associated with any
restorative treatment and no of the study variable has side effect on the patient and in
case of any side effect due to the restorative treatment, the participant will directly
contact the operator.
II.1. Study setting
This clinical study will be held in the Clinic of Conservative Dentistry Department, Faculty
of Oral and Dental Medicine, Cairo University, Egypt. The researcher will bear ultimate
responsibility for all activities associated with the conduct of a research project
including recruitment of patients , explaining and performing the procedures to them.
II.2. Variables of the study:
A total of 20 patients will participate in the study. Each patient will have 3 carious
teeth. Resulting in a total of 60 carious lesions.
II.3. Trial Description:
II.3.a excavation protocol:
Three dentinal carious lesions will be chosen in this study and will be in the same patient.
The lesions will be classified using the International Caries Detection and Assessment
System (ICDAS-II). after air-drying the teeth using a triplex syringe ICDAS-II scores of the
lesions will be obtained. The chosen sites will be recorded as: Code 4, non-cavitated Lesion
extending into dentine seen as an undermining shadow; code 5, small cavitated lesion with
visible dentine: less than 50 % of surface; code 6, large cavitated lesion with visible
dentine: more than 50 % of surface. In all cases, dentine lesions were soft and wet
indicating an active lesion.
Using local anaesthesia and rubber dam, the operative field will disinfected with 1%
hypochlorite,and the dentine lesions should be exposed with a high-speed diamond bur by
removing covering enamel.
Before the excavation dentine samples are collected for baseline bacteriological assessment
. Excavation will be carried out using new slow speed round burs and hand excavators.
Special consideration will be given to avoid pulpal exposures and over excavation. In order
to avoid this, hand excavators will be used for the final excavation stage.
II.3.b Clinical assessment:
The excavation end point of one cavity will be determined using visual tactile method. The
two other cavities will be inspected with fluorescent camera or caries detector dye (CDD)
methods to determine excavation endpoint respectively. After excavation, dentine samples
from the three cavities will be collected using a sterile excavator for the bacteriological
assessment.
II.3.c Assessment of Outcome:
Samples of carious and sound dentine will be collected with sterile excavators after caries
removal in the three groups. The dentine samples will be transferred to sterile box
containing a thioglycollate medium used as a carrier, then this sterile box will be kept in
an ice box and taken to the microbiology laboratory for processing, within an hour, by
another examiner who do not know the type of technique used for the inspection after the
caries excavation. Dentin sample weight will be calculated by measuring the difference
between the weight of the whole set (sterilized bottle, transporting medium, collected
dentine) and the previously determined weight of the set without dentin. The number of
bacteria obtained for a given amount of dentin will be used to estimate the number of
bacteria present in 1 mg dentin (CFU/mg).
II.4. Participant timeline:
All procedures will be carried out at the same visit.
II.5. Sample size calculation:
The aim of this study will be conducted to assess the reliability of the fluorescence camera
and caries detection dye versus visual tactile method in caries excavation using
bacteriological assessment method. Based on the previous paper by Stroll et al.,2015 ,area
under the curve for fluorescent camera using bacterial count as reference was 0.75. Using
power 80% and 5% significance level, 20 cavities is needed in each group the sample size was
calculated by PASS 2008.
II.6. Recruitment:
Patients will be recruited from outpatient clinic of Conservative Dentistry Department in
Faculty of Oral and Dental Medicine, Cairo University; from which eligible patients will be
recruited to fulfil the eligibility criteria according to participant timeline.
II.6.a. Recruitment Strategy:
The patients will be subjected to full examination and diagnosis using dental charts. Once
the patients that are potentially eligible for this study are identified, they will be
contacted by the researcher who will explain the study and ascertains the patient's
interest. If interested, more detailed evaluations and preparations are made.
II.7. Randomization and assignment of interventions:
II.7.a. Allocation sequence generation:
The allocation sequence will be generated using (www.randomization.com).
II.7.b. Allocation concealment mechanism:
Each recruited patient will be given a number according to order of recruitment following
the sequence of the randomly generated numbers, then the operator will start the first tooth
to be excavated, then will choose between three opaque sealed envelopes (two envelope for
the intervention and the other is for the control). envelopes will be allocated by a
participant who will not be involved in any of the phases of the clinical trial. The tooth
to which interventions or control is assigned to will be recorded and all records of all
patients will be kept with the main supervisor
II.7.c. Implementation:
A participant will generate the random allocation sequence. The researcher will enroll the
patients but an unbiased participant will assign the intervention/Control to respective
teeth.
II.8. Data collection methods:
*Baseline data collection:
For every patient medical history, dental history and examination charts will be filled by
the operator.
*Outcome data collection:
The results were converted table to facilitate the description of the results. The
microbiological analysis was performed blindly in relation to the caries removal method.
II.9.Data management:
the data will be entered and stored on a personal computer. Double data entry will be saved
on an external hard disc to prevent loss of data.
II.10. Statistical methods
Data will be analyzed using IBM SPSS advanced statistics (Statistical Package for Social
Sciences). Numerical data will be described as mean and standard deviation or median and
range. Data will be explored for normality using kolmogorov-smirnov test and Shapiro-Wilk
test. Comparisons between 3 groups for normally distributed numeric variables will be done
using the ANOVA while for non normally distributed numeric variables will be done by Kruskal
Wallis test. A p-value less than or equal to 0.05 will be considered statistically
significant. All tests will be two tailed.
II.11. Monitoring:
II.11.a. Data monitoring:
The main supervisor will monitor this study. His role is to monitor any risk of bias could
be done from participants, operator or assessors. Also to monitor blinding of the assessors
and patient safety, outstanding benefits or harms.
II.11.b. Harms:
The main supervisor should inform participants about the possible harms, if present.
Participants are allowed to contact the operator at moment through telephone. In case of
accidental pulp exposure during excavation , emergency access cavity and pulp extirpation
will be done by the operator and then the patient will be referred to Endodontic Department
clinic to complete the root canal treatment.
II.11.c. Auditing:
In the present trial, auditing will be done by the main and co-supervisors to assure quality
of the research frequency procedures.
II.14. Ethics and dissemination
II.14.a. Research ethics approval:
Application forms for carrying out the clinical trial, checklist and informed consent of
Research Ethics Committee (REC) Faculty of Oral and Dental Medicine, Cairo University will
be retrieved and filled, then will be delivered for (REC) committee for approval.This is
done to prevent any ethical problems during the study or any harm for any of the
participants.
II.12.b. Protocol amendments:
If a new protocol will be used a protocol amendment will be submitted; containing a new copy
of the new protocol and brief explanation about the differences between it and the previous
protocols. If there is a change in the existing protocol that affect safety of subjects,
investigation scope or scientific quality of the trial, an amendment containing a brief
explanation about the change will be submitted. If a new author will be added to accomplish
the study, an amendment including the investigator's data and qualifications to conduct the
investigation will be submitted to prevent ghost authorship.
II.12.c. Consent:
The operator is responsible for admitting and signing the written consents during the
enrolment day.
II.13. Confidentiality:
Name, personal data and pictures of the participants will not appear on the protocol form
and will be maintained secured for 10 years after the trial. This is done for protection of
participants' privacy and civil rights.
II.16. Declaration of interests:
There is no conflict of interest, no funding or material supplying from any parties.
II.14. Access to data:
Access to final data will be allowed to the operator ,the main and co-supervisors of the
study who are not involved in assessment of the outcome.
II.15. Ancillary and post-trial care:
Patients will be followed up after the application after 3, 6 months.
II.16. Dissemination policy:
Full protocol will be published online in www.clinicaltrials.gov to avoid repetition and to
keep the integrity of the research work. Thesis will be discussed in front of judgment
committee. The study will be published to report the results of this clinical trial.
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