Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT05055765 |
| Other study ID # |
Anjali Yadav perio |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
November 2021 |
| Est. completion date |
September 2022 |
Study information
| Verified date |
November 2021 |
| Source |
Postgraduate Institute of Dental Sciences Rohtak |
| Contact |
SANJAY TEWARI |
| Phone |
01262-283876 |
| Email |
principalpgids[@]yahoo.in |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Evaluation of microneedling vs injectable -platelet rich fibrin on gingival phenotype in thin
periodontal phenotype.
Description:
INTRODUCTION The gingival phenotype and different parts of the masticatory mucosa have become
the subject of considerable interest in Periodontics, especially from an aesthetic and
therapeutic perspective. The periodontal phenotype has been defined as the combination of
gingival phenotype and buccal bone plate thickness (bone morphotype). Gingival phenotype
refers to gingival thickness (GT) and keratinized tissue width (KTW).
Gingival phenotypes can be classified as scalloped and thin or flat and thick gingiva. A
gingival thickness of ≥1 mm is defined as thick phenotype and a gingival thickness of ≤1 mm
as thin phenotype1. Thin gingival phenotype are very friable and might be prone to recede in
response to traumatic insults, such as plaque-related inflammation and traumatic
toothbrushing. Gingival recession is usually observed in the presence of trauma and
inflammation in individuals with thin phenotypes, whereas pocket formation has been reported
in individuals with thick phenotypes.
Soft tissue grafting in areas of thin phenotypes can enhance the quality of the gingival
tissue. The best way to convert a thin soft tissue to a thick phenotype is through
subepithelial connective tissue grafting Various other soft tissue augmentation procedures
include: - modified roll technique and use of acellular dermal matrix. There were many
drawback of these techniques such as were not cost effective, complications, second surgical
site creation, healing and time consuming, etc.
Therefore marked transformation in the field of periodontics has led to the development of
newer, less invasive therapeutic approaches, which allows proper management of surrounding
tissues to provide best outcome of periodontal therapy. Minimally invasive treatment
approaches help to achieve satisfactory therapeutic results with minimum trauma to tissues.
Recent study has shown i-PRF (injectable Platelet Rich Fibrin) and Microneedling procedures
to be effective in increasing gingival tissue thickness.
I-PRF prepared according to low-speed centrifugation concept can provide a significant
advantage for the regeneration process, as it is rich in platelets, leucocytes and growth
factors. I-PRF clots and forms a gel form after approximately 10-15 min and preserves its
content in the tissue for sustained release. Recent studies have shown that in comparison to
PRP and the blood clot even though there is slight or no increases in blood cell
concentrations and growth factors; i- PRF was capable of inducing higher cell migration and
mRNA expression of TGF- β, PDGF, osteocalcin and significant increase in type I collagen gene
expression. It has been suggested that i- PRF provides a three- dimensional fibrin clot
network embedding platelets, leucocytes, type I collagen, osteocalcin and growth factors
acting as a dynamic gel with additional release of growth factors up to 10 days. Hence
studies have documented that i-PRF results in increased gingival thickness.
Microneedling (MN) is also known as "percutaneous collagen induction therapy." Microinjuries
created by MN result in minimal superficial bleedings and create a wound- healing cascade
from which various growth factors, such as platelet-derived growth factors, transforming
growth factors, connective tissue growth factor and fibroblast growth factors, are released.
In MN, the tissue responds as if experiencing tissue trauma and the body's own collagen
production is induced to preserve skin integrity. Study has shown a statistically significant
increase in gingival thickness when microneedling was performed along with i- PRF in
comparison to standalone i-PRF.
Only one study have evaluated effect of i-PRF alone and with microneedling on thin phenotype
. To the best of our knowledge no studies have been conducted till now using microneedling
alone to observe its effect on gingival thickness on thin periodontal phenotype. Considering
the effects of MN and i-PRF on the biological potential, neoangiogenesis, neocollagenesis and
wound, the present Randomized clinical trial is designed to compare and evaluate the effects
of MN and i-PRF alone in thin periodontal phenotype. The null hypothesis is that there is no
significant difference in the clinical outcome in microneedling and i-PRF on thin periodontal
phenotype.
MATERIALS AND METHODOLOGY
SETTINGS: The present prospective, analytical, split mouth clinical trial will be conducted
in the Department of Periodontics, Post Graduate Institute of Dental Sciences, Rohtak STUDY
DESIGN: Interventional study. TIME FRAME: 12-14 months STUDY
Written and verbal consent will be taken from the willing participants. This Split mouth
clinical trial will include 20 systemically healthy patients, with thin periodontal phenotype
in mandibular anteriors.
Test group I : microneedling Test group II : i-PRF METHOD OF RECRUITMENT
In power analysis, it was found that a minimum of 18 cases will be required for each group at
a 95% confidence level and 80% power when analysed with a mean difference of 0.5 mm and a
standard deviation of 0.47 using the soft tissue thickness as a reference.
Estimating a 10% drop-out rate, the study includes 20 individuals with thin periodontal
phenotypes who will consult to the Department of Periodontology, Post Graduate Institute of
Dental Sciences, Rohtak .
BLINDING/MASKING Single blinding will be adopted where the investigator analysing the results
will be unaware to which group the patient belongs.
PHASE I THERAPY All the participants will undergo phase-I therapy with a combination of hand
scalers and curettes and ultrasonic scaler. Oral hygiene instructions will be imparted and
will be reinforced at each appointment.
INTERVENTION Local anaesthesia will be administered. TEST GROUP I Thin periodontal phenotype
will be treated with microneedling. A total of 4 sessions will be done with an interval of 10
days each. And all the parameters will be measured.
TEST GROUP II Thin periodontal phenotype will be treated with i-PRF procedure. A total of 4
sessions will be done with an interval of 10 days each. And all the parameters will be
measured.
DATA COLLECTION METHODS To measure GT from the apical 1.5 mm of the gingival margin, a No:15
endodontic spreader with a 3-mm-diameter silicone disc will be placed in the centre and will
be measured on Vernier caliper.
Keratinised tissue width will be measured with the help of UNC 15 probe with silicon disc
stopper from the mucogingival junction to the free gingival margin and will be measured on
Vernier caliper.
PPD will be measured using UNC 15 periodontal probe at six sites (mesiobuccal, distobuccal,
mesiolingual , distolingual , and median points at buccal and lingual aspect).
GI, PI will be measured using UNC 15 periodontal probe at four sites (distofacial,
mesiofacial, facial, lingual gingival margin).
All clinical parameters will be measured at baseline, 3 months and 6 months and 1 year.
DATA MANAGEMENT AND STATISTICAL ANALYSIS Data recorded will be processed by standard
statistical analysis. The normality of distribution of data will be examined by Shapiro Wilk
test. Statistical analysis will be performed according to distribution of data. If it is in
normal distribution inter group comparison will be done by using Independent T test and
paired t test will be use for intragroup comparison and if non-normal distributionof data,
inter group comparison will be done by Mann-Whitney U test and intragroup by signed rank
test. The Chi square test will be applied to analyze categoric data. Correlation and
association between predictors and dependent variables will be analyzed by correlation
analysis and regression analysis.
