Periodontal Diseases Clinical Trial
Official title:
COMPARATIVE EVALUATION OF BIOACTIVE GLASS PUTTY AND PLATELET RICH FIBRIN IN THE TREATMENT OF HUMAN PERIODONTAL INTRABONY DEFECTS- A CLINICAL AND RADIOGRAPHICAL STUDY"
Background: Platelet-rich fibrin (PRF) and bioactive glass putty has been shown to be
effective in promoting reduction in probing depth, gain in clinical attachment, and defect
fill in intrabony periodontal defects. The individual role played by bioactive glass putty
in combination with PRF is yet to be elucidated.
AIM: To compare the clinical effectiveness of the combination of Plaltelet Rich Fibrin and
Bioactive Glass Putty and Bioactive glass putty regenerative techniques for intrabony
defects in humans.
Material and methods: Ten pairs of intrabony defects were surgically treated with PRF and
Bioactive glass putty (Test group) on one side or bioactive glass putty (Control group) on
other side. The primary outcomes of the study included changes in probing depth, attachment
level and bone fill of Osseous defect. The clinical parameters were recorded at baseline, 3,
6, and 9 months. Radiographic assessment was done using standardized intra oral periapical
radiographs. Comparisions were made within each group between baseline, 3 months, 6 months
and 9 months using the ANOVA test followed by Bonferroni test.
INTRODUCTION
Periodontitis is an infectious disease that causes destruction of the attachment
apparatus.[1].The mainstay aim of periodontal treatment is the regeneration of the lost
attachment apparatus of the teeth. Variety of treatment modalities are available for
periodontal regenerative therapy including bone grafts, bone substitutes, Guided Tissue
Regeneration, growth factors, application of tissue engineering or the combination of two or
more of the above listed approaches. [2] Alloplasts, may be an effective alternative to
allograft and xenografts as there is no risk of disease transmission and the supply is
unlimited.[3] The Bioactive glass promotes osteogenesis by adsorption and concentrations of
protein utilized by osteoblast to form a mineralized extracellular matrix. [4] The advantage
of the putty form of bioactive glass is the glycerine and polyethylene glycol which makes
the glass particle coherent and thus enhancing handling characteristics and minimal
migration of graft particles from the defect site. [5] Histological evaluation of material
has shown that the particulate tends to retard the down growth of epithelial tissue.
[6,7,8,9] Growth factors play a pivotal role in periodontal regeneration. Platelet Rich
Fibrin is believed to release polypeptide growth factors, such as transforming growth
factors-ß, platelet derived growth factors, vascular endothelial growth factors and matrix
glycoproteins (such as thrombospondin -1) into the surgical wound in a sustained fashion for
at least 7 days as shown in vitro. [10] Thus, given the unique graft with osteoconductive,
osteoinductive and osteostimulative properties and properties of autologous PRF, application
of combination approach was attempted for the assessment of their additional benefits to the
healing mechanisms and periodontal regeneration in intrabony defects.
Materials and methods Patient Selection This randomized control trial was carried out in the
Department of Periodontics and Oral Implantology, Santosh Dental College and Hospital,
Santosh University, Ghaziabad. Ten patients suffering chronic localized periodontitis aged
between 20 -50 years (7 males and 3 females) with 10 pairs of contalateral intraosseous
defects (n=20) comprised the study population. A total of 20 bone defects (10 pairs) were
decided by the statisticion to be of statistical strength. Convenient sampling design was
used for the enrolment of study patients. Ethical approval was taken from the institutional
ethical committee The patients were explained in detail about the procedure and a written
informed consent was taken. The intrabony defects were diagnosed clinically with moderate to
deep periodontal pockets > or = 5mm and with clinical and radiographic evidence of
vertical/angular osseous defects. [3] Patients with systemic diseases, on anticoagulants,
those with habit of smoking and alcohol, with known history of allergy to graft material and
who have undergone periodontal surgical treatment for chronic periodontitis within twelve
months for the same defects were excluded from the study.
PRESURGICAL THERAPY Patients underwent phase I therapy. The selected defects were evaluated
after 2 weeks, and persistent pockets > or = 5mm and patients with clinical radiographic
evidence of angular osseous defects were scheduled for surgery.
Clinical Parameters :
Oral hygiene status was recorded using the gingival index of Loe & Sillness,[11];
with score 0 indicating absence of inflammation and score 3 indicating severe
inflammation and plaque index of Silness & Loe. [12]
Probing pocket depth and Clinical attachment level were recorded at baseline on the
day of surgery, 3, 6 and 9 months intervals using UNC-15 probe and customized
acrylic occlusal stents grooved in the area of defect to provide reproducible insertion
axis-
The following measurements were recorded with customized
acrylic stent:
- Fixed reference point (FRP) to the base of pocket (BP)
- Fixed reference point (FRP) to the cemento-enamel junction (CEJ)
- Fixed reference point (FRP) to the gingival margin (GM)
PPD and CAL were calculated from these probing measurements as:
- PPD = (FRP to BP) - (FRP to GM)
- CAL= (FRP to BP) - (FRP to CEJ)
Radiographic measurements: Standardized intra-oral periapical radiographs of the defects
were taken using a paralleling technique.[13]
Amount of defect fill: Defects were measured from the fixed reference point (distance
between the cemento-enamel junction to the radiographic base of the bone defect ) with the
help of 1.1 mm grid and the following radiographic features were recorded on the day of
surgery, 3, 6 and 9 months intervals.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Treatment
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