Chronic Periodontitis Clinical Trial
Official title:
Evaluation of Clinical, Anti-Inflammatory and Anti-Infective Properties of Amniotic Membranes Used For Guided Tissue Regeneration in Contained Defects
The objective of this study is to evaluate the anti-inflammatory and anti-infective properties of amniotic membrane (AM) when used for guided tissue regeneration (GTR) in periodontal bone defects.
Study design including Randomization and Blinding The study was designed as a split-mouth,
double-blind, randomized controlled clinical trial. Randomization and blinding included
computerized generation of the allocation sequence in random permuted blocks (block
randomization) and blinded disbursement of medication. Allocation was performed by assigning
the block of sites to study groups according to the specified sequence. Based on the
sequence, the first operator selected two sites for each of the following experimental
sites; the test site, in which amniotic membrane with the graft was placed and the control
site which was treated by graft placement only. All the surgeries were performed by a
designated operator for the sake of uniformity whereas the relevant readings were recorded
by the first operator who was blinded to the nature of the site. The blind was not broken
until this clinical trial was completely finished.
After the prospective interdental areas were probed buccally and lingually/palatally, the
site was considered for the study if the average probing pocket depth (PPD) was ≥5 mm. All
baseline (on the day of surgery) values were recorded before the surgical procedure.
Gingival crevicular fluid (GCF) samples for IL-1β were taken at baseline and 1 week and for
hBD-2 were taken at baseline, 1 week and 4 weeks. Non-invasive site-specific measures of the
plaque index (PI) and modified gingival index (MGI) at the baseline, 1 week, 12 weeks and 24
weeks. The PPD, CAL and bone fill were recorded at the baseline (on the day of surgery) and
at the end of 12 and 24 weeks. PPD and CAL were recorded at the baseline and at the end of
12 and 24 weeks using a UNC-15 color-coded periodontal probe. A custom acrylic stent limited
to the occlusal 2/3rds of the clinical crown was prepared from a cast obtained from an
alginate impression. A groove was prepared in the stent to standardize the probing
angulation throughout the procedure and also during the follow up visits.
Radiograph Standardization Standard digital radiographs were taken at baseline, 12 and 24
weeks by the paralleling/long-cone technique at pre-set parameters using a commercially
available RVG system. After the imaging plate was placed in the film holder for paralleling
technique, addition silicon impression material was added around the biting surface and
allowed to set. This arrangement ensured standardized alignment of the aiming device and the
holder ensuring correct positioning of the collimator in subsequent radiographs.
Collection of GCF Samples:
After isolation, 6 mm diameter filter paper circles were used for collecting the samples by
the intra-crevicular method. The fluid seeping out of the sulcus was collected and any paper
contaminated with blood or saliva was discarded, and the collection was repeated after 30
minutes. GCF samples were eluted from the strips by placing them in Eppendorf tubes that
contained 500 µL of buffer and stored at -80ºC. GCF Samples were collected at baseline, at
the end of 1 and 4 weeks.
Enzyme Linked Immunosorbent Assay (ELISA) for IL-1ß and hBD-2 Commercially available ELISA
kits were used to quantify GCF levels of IL-1ß and hBD-2. All assay procedures were
conducted according to the manufacturer's instructions and in both the tests, 100μl of the
samples or standards were added into the respective wells in duplicate. Color development
was stopped using 1% H2SO4 and absorbance of the entire plate was measured within 30 minutes
by an ELISA reader at 450nm. The amounts of IL-1ß and hBD-2 were calculated based on the
dilutions, and the results were expressed as pico-gram/30 second and pico- gram/site in the
30-second GCF sample.
Amniotic membrane Lyophilized and irradiated AM (3×3 sq.cm) was obtained from a commercial
tissue bank. The tissue was dispatched for clinical use from the tissue bank. The tissue
conforms to the International Atomic Energy Agency (IAEA) recommendations and the Asia
Pacific Association of Surgical Tissue Banks (APASTB) standards. AM is stable and can be
stored at room temperature.
Surgical phase:
All surgical procedures were performed by one clinician. After recording relevant
parameters, and following routine local anesthesia, sulcular incisions were given and full
thickness mucoperiosteal flap was elevated for defect access. Thorough degranulation of the
bone defect was done and root planing was done by using appropriate site-specific curettes.
The test site was treated as follows; After placement and proper condensation of natural
Hydroxyapatite graft in the defect, AM was cut based on defect anatomy of surgical site and
then adapted over the bone graft and alveolar bone extending from base of the flap
reflection to the tooth surface. Flap was approximated and stabilized by placing direct loop
sutures. Periodontal dressing was placed subsequently. For the control site, the procedure
was identical except that the membrane was not placed. Patients received post-operative
instructions and were prescribed medication. The sutures were removed at 1 week post-surgery
and subsequent measures were recorded.
Radiographic assessment The evaluation of bone fill was performed by using digital
subtraction technique and morphometric area analysis by using specific tools in two image
processing softwares.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Double Blind (Subject, Caregiver), Primary Purpose: Treatment
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