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S e p t e m b e r 0 3 - 0 4 , 2 0 1 8 | B a n g k o k , T h a i l a n d

Note:

allied

academies

Joint Event on

Dental Congress 2018 & World Dermatology 2018

Archives of General Internal Medicine

|

ISSN: 2591-7951

|

Volume 2

WORLD DERMATOLOGY AND COSMETOLOGY CONGRESS

DENTISTRY AND ORAL HEALTH

&

International Conference on

Vanishree, Arch Gen Intern Med 2018, Volume 2 | DOI: 10.4066/2591-7951-C2-005

SEALING ABILITY OF RESTORATIVE

MATERIALS?

Vanishree

SEGi University, Malaysia

E

ndodontic mishaps or procedural accidents are unfortunate occurrences

that can occur during treatment. Furcation perforation is one of the causes

for endodontic failure. Several materials have been used to repair perforations

like amalgam, zinc oxide eugenol cements, composite resins, resin-glass

ionomer, hybrids, MTA and the most commonly used glass ionomer cement.

The new materials named MTA repair HP — high plasticity MTA (Angelus®,

Brazil) with the intent to improve some of those characteristics and Biodentin,

a promising material for dentin- pulp complex regeneration have recently

been introduced. Biodentine has the potential of making major contributions

in the field of dentistry by maintaining the teeth in a healthy state through

numerous exciting clinical applications. MTA repair HP and Biodentin need

to be evaluated for repairing perforations. We have compared and evaluated

the sealing ability of three different materials when used to repair the furcal

perforations in permanent molars using stereomicroscope. A standard

access opening was made in 42 extracted permanent molars and perforated

at the center of the pulp chamber with the standard diameter. Three groups

were made of 15 teeth each for glass ionomer cement, MTA repair HP and

Biodentin followed by dye penetration and two teeth as positive controls.

Teeth were stored in room temperature for 24 hours to allow final setting.

Teeth were sectioned longitudinally and observed under stereo microscope

for microleakage. The study demonstrated that, Biodentin showed good

sealing ability compared to MTA repair HP and conventional glass ionomer

cement. A new high plasticity cement called MTA repair HP and Biodentin

were compared against most commonly used conventional glass ionomer

cement for perforation repair with minimal laboratory procedures.

Vanishree has completed her masters in Pediatric

Dentistry from Rajiv Gandhi University of Health Sci-

ences (India). She is working as a Lecturer at SEGi Uni-

versity, Kota Damansara Malaysia. She has published

more than 18 papers in reputed journals. She gave six

presentations on original research at National Confer-

ence of Indian Society of Paedodontics and Preven-

tive Dentistry.

vanipedo2010@gmail.com

BIOGRAPHY