Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT04702334 |
| Other study ID # |
MD-RO-BG-2015 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
January 2016 |
| Est. completion date |
November 2018 |
Study information
| Verified date |
January 2021 |
| Source |
University of Roma La Sapienza |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Objective: To evaluate the adjunctive effect of hyaluronic acid (HA) gel in the treatment of
residual periodontal pockets over a 12-month period.
Materials and Methods: Periodontal patients enrolled in maintenance and presenting at least
one periodontal pocket 5-9 mm of depth in the anterior area were recruited from six
university-based centers. Each patient was randomly assigned to control treatment with
professional mechanical plaque removal (PMPR) and local placebo application or test treatment
with the adjunctive use of HA to PMPR. Clinical parameters [i.e. probing depth (PD), bleeding
on probing (BoP), plaque score, recession (REC), and clinical attachment loss (CAL)] and
microbiological samples for the investigation of the total bacterial count (TBC) and presence
of specific bacterial strains (Porphyromonas gingivalis, Treponema denticola, Tannerella
forsythia, Fusobacterium nucleatum) were taken at baseline and every 3 months, until study
termination. PD was determined as the primary outcome variable.
Description:
Population A total of 144 patients were enrolled from 6 university clinical centers (Sapienza
University of Rome, Department of Periodontology, Rome, Italy ; University of Rijeka, School
of Dental Medicine, Rijeka, Croatia; University of Zagreb, Department of Periodontology,
Zagreb, Croatia; Jagiellonian University, Dental Institute, Krakow, Poland; Medical
University of Sofia, Faculty of Dentistry, Sofia, Bulgaria; Medical University of Plovdiv,
Faculty of Dentistry, Plovdiv, Bulgaria). The extension in time from patient recruitment to
end of the protocol was January 2016 to November 2018.
The sample size was determined considering the patient level as statistical unit and probing
depth (PD) as the primary outcome measure. In order to detect a mean difference of 1 mm of PD
between groups with a standard deviation of 1 mm, maintaining a power of 85%, a significance
level (alpha) of 0.05 and a drop-out of 25%, 12 participants per group in each center were
required.
The ethical committees of each center approved the protocol of this study. The protocol
followed the ethical principles of Helsinki Declaration on the good conduct of clinical
trials. All patients were thoroughly informed on the treatment details and on the possibility
of being excluded from the study if missing any of the 3 months follow-up appointments or
showing poor compliance in general. After verbally accepting the conditions of the protocol,
patients signed the informed consent prior to study initiation. Figure 1 shows step by step
the study protocol that each patient followed.
Study design, randomization, allocation concealment and blinding This study was projected as
a controlled randomized multicenter triple blinded 12-month clinical trial to compare the
treatment of residual periodontal pockets using standard non-surgical mechanical debridement
with and without hyaluronic acid gel. The detailed description of the treatment and
evaluation is described in the following paragraphs.
The operators were trained and calibrated on treatment application and on PD measurement
prior to study initiation. A preliminary session of PD measurements on 3 periodontal patients
revealed an intra-class correlation coefficient ≥ 0.75 for each operator and among different
operators.
An electronic web-based online randomization system was used for this study including a
simulation version of the software for operator training prior to trial initiation. This
system had been approved by the Austrian Agency for Health and Food Safety (AGES). The system
parameters were set to randomization block size of 4, treatment code selection to random,
using 24 treatment codes per center, and using minimization method. Centers were included as
a factor for randomization process with assignment probability of 0,125 for each center (8
centers x 0,125 = 1.0) as the randomization ratio was 1:1 corresponding to treatment/ control
allocation ratio.
Each operator had a username and password to perform the randomization process for each
patient. An accurate audit trail showed each user log entry consisting of login-ID, center
number, investigator name, event code, date, and time of which the event occurred. The system
had trial specific features (role-based access control) where trial coordinators could manage
each user assigned specific role determining the user's access rights. For the present study,
the investigators role was to randomize without the ability to view the trial design or
randomization design. The access to full control, view randomizations, un-blind
randomization, was only granted to the independent trial coordinator.
Furthermore, the system provided high flexibility and security including verification for the
personal email for each investigator to guarantee that each investigator will perform the
randomization personally, setting a pre-defined randomization limit, the possibility to
include multiple users under each center, and an effective email notification and
confirmation upon each randomization performed. All transactions on the system were logged
and an audit trail could be analyzed at any time by the trial monitor.
The allocation concealment was done by means of independent computerized randomization
sequence process which can only be accessed by the independent trial coordinator. The
investigators were provided with online login and were instructed to perform the
randomization only after finishing the baseline measurements and mechanical debridement of
selected tooth. To ensure that, investigators were requested to write down the exact time on
provided case report forms upon finishing debridement. The computerized time stamp,
electronic logs of sent allocation served as a method for monitoring allocation concealment.
Furthermore, having the randomization as parallel with stratified (stratification by center)
permuted blocks, served as a second layer of preventing knowledge of upcoming patient's
assignment.
Clinical operators were kept blind until the moment of adjunctive treatment application
allocated by the randomizer. Patients remained blinded during the entire follow-up.
Microbiological evaluation and statistical interpretation of the results were made blinded on
the treatment performed.
Treatment procedure Each center was provided with the same amount of HA , Eppendorf tubes,
curettes , tooth paste , tooth brushes ** and interdental brushesǁ. Patients were instructed
to use the modified Bass technique for brushing twice daily with the provided toothpaste free
of chlorhexidine and to use the interdental brush once daily. They were instructed not to use
any type of mouthwash.
All patients underwent a full mouth debridement completed within 48h in two consecutive
visits. The debridement was performed using ultrasonic devices followed by curettes for all
pockets of more than 4 mm. The ultrasonic treatment was repeated to ensure all surfaces were
clean, followed by polishing.
At reevaluation, a tooth entering the inclusion criteria was selected. After application of
local anesthetic, removal of plaque and polishing of the tooth surfaces was performed
followed by the local administration of hyaluronic acid gel for the test group and local
administration of anesthetic for the control group. The tip of blunt application needle
mounted on the syringe containing HA was delicately inserted in the pocket until resistance
was felt. The injection was performed until the remnants started getting out of the pocket.
Patients were advised not to drink or eat for 2 hours. This adjunctive treatment was
performed at baseline and at the 3 months control. For both groups cleaning of supragingival
tooth deposits and polishing was repeated at 3, 6, 9, and 12 months.
Statistical analysis Numerical variables were reported as median (IQR) while categorical
variables were reported as frequency (percentage). McNemar test was used to test for
differences in proportions between time points within groups and Chi-squared test was used
for differences in proportions between groups. For numerical variables, time-points
differences were assessed with the Kruskal-Wallis test and pairwise comparisons were
performed with Mann-Whitney U test and Wilcoxon signed rank test (for unrelated and related
measurements respectively). Holms correction was used to adjust for multiple comparisons. A
significance level of 0.05 was used for all statistical tests. All the analytical tests were
performed using the statistical software R (version 3.6.0).
