ndurability fficacy sthetics
ndurabilityfficacysthetics
Fibre technology is used in many ways in our lives. Because of its high strength and lightness, fibre glass is used to make aeroplanes, Formula 1 cars, bicycles, golf clubs, etc. This superior technology is now available in dentistry for stronger and longer lasting results.
FIBRE REINFORCED COMPOSITES
PERIODONTAL SPLINTINGwith FRC’S
FIBRE POSTS- for endodontically weakened tooth
FRC’S IN IMPLANTS
FOTI’s
Fibre reinforced composite is a super strength direct white filling material that be can used to restore teeth in
an incredible number of ways.
It is a combination of conventional dental composite (white fillings) and glass fibres to give the same level of
strength and flexibility that you get in boats, light aircraft and F1 racing cars.
is a biocompatible, aesthetic material made from a high
strength polyethylene fiber. Leno woven polyethylene ribbon (Ribbond) has been used successfully for tooth splinting, replacement of missing teeth, reinforcement of provisional acrylic resin fixed partial dentures, and orthodontic retention.
These fibers far exceed the breaking point of fiberglass and are so tough that specially made scissors are required to cut them.
Leno weaveReinforced
provisional bridge
Single visit bridge
Stronger white fillings.
Cosmetic fixed retainer. (after braces)
Fibre frame-work application Building up of missing tooth with white filling material
before after
1 visit procedure Cost effective
Strong and long lasting
Highly aesthetic (improved
appearance)
Smooth and comfortable
Fixed option (no need for a
denture)
ADVANTAGES OF A FIXED FIBRE REINFORCED
COMPOSITE BRIDGE
FRC in denture bases
• FRC posts consist of a resin matrix in which structural reinforcing carbon fibres or quartz/glass fibres are embedded.
exhibit elasticity characteristics similar
to dentin.
have favourable biomechanical
properties, high tensile strength
This minimizes the risk of root fractures,
caused by tension peaks, induced by the
loading and shear forces.
For tooth weakened as a result of carious ortraumatic destruction, pre-existing loss of toothsubstance through the access cavity and thepreparation of root canals.
•Outperforms metal posts in tensile strength, fatigue resistance and retention.
unique high strength ,low
modulus
•Absorbs and dissipates exogenous stress.
•Helps to avert root fractures.
Elastic modulus similar to dentin
•Safe for surrounding tissues.
•Cannot corrode.
•Atraumatically removed in minutes.Biocompatible
CLINICAL ADVANTAGES: FIBRE POST
HAS PASSED NOT ONLY CYTOTOXICITY, BUT
ALSO INTRADERMAL REACTIVITY, SYSTEMIC
TOXICITY,GENOTOXICITY, AND
HYPERSENSITIVITY TO ENSURE COMPLETE
SAFETY
• MAXIMIZES DENTIN CONSERVATIONX – RO FIBRE POSTS:
The even load distribution is supported through the friction-locked bond between post and tooth substance due to the adhesive luting of the fibre
post in the root canal with the composite cement.
SUPERIOR FATIGUE RESISTANCE
ESTHETICS AND LIGHT
TRANSMISSION
OUTSTANDING RADIO PACITY
OFFERS SUPERIOR RETENTION PROPERTIES
PATENTED X-RO FIBRE + COLOUR-ON-COMMAND TECHNOLOGY
:Objective of splinting: to create an environment
where tooth movement can be limited within physiologic
limits to restore function and patient comfort.
ELASTICITY OF FIBRES IS BENEFICIAL TO THE HEALING OF THE SUPPORTIVE TISSUE.
GIVES A POTENTIALLY LONG TERM SOLUTION TO THE
PROBLEM OF MOBILE TEETH.
WHOLE PROCEDURE IS COMPLETED IN 1 SESSION. (CAN TAKE A COUPLE OF
HOURS)
COMPLETED WITHOUT LOCAL ANAESTHESIA.
SPLINTING WITH FIBRES
Placing of wedges
Positioning the fibre splint
Splinted teeth
Acid etching
A Glass Fibre-Reinforced Composite Implant Supported Fixed Partial Denture
FRC implants are biocompatible in bone.
The FRC implants• are easy to grind and modify.• Have mechanical properties and modulus of elasticity close to
natural bone.• Along with the embedded BAG particles, are suitable for poor
quality bones.
The threaded FRC/BAG implants had the highest
bone volume after 12 weeks of implantation.
under FOTI
Fiber-optic trans illumination (FOTI) is an enhanced visual technique that uses the principle of illuminating teeth to detect the presence of caries.
FOTI makes use of the optical properties of enamel and enhances them by using a high intensity white light shone through a small aperture (e.g. 0.3-0.5 mm) of a dental hand piece.
FOTI equipment
FIBRE OPTIC TRANS ILLUMINATION (FOTI’S) : THE DIAGNOCAM
normal vision Under FOTI
DIFOTI technique has superior sensitivity compared to conventional radiological methods for the detection of approximal, occlusal, and smooth-surface caries.
The images can indicate the presence of early decay before either film or digital radiography.
Fennis-Ie et al. (1998) verified that 44% of the sites diagnosed as having enamel or dentinal
caries by FOTI actually became carious within 2.5 years.
Is a technique that builds on FOTI but which allows the recording of images ofcarious lesions during illumination. It employs high intensity light and has anadditional grey scale camera.
diFOTI’s:
Fibre technology is just an example of how
minimally invasive technologies can produce
the most incredible results.
Removing unsightly mercury fillings,
strengthening the teeth, loading implants with
maximum retention, enhancing smiles of the
patients and many more have become the
major goals of fibre practice in dentistry.
Fibre technology can transform people’s
smiles and lives by giving the patients the very
best results using the quickest, cheapest and
least invasive techniques
G.Slavicek,P.Siegl,gruber(2009) The use of intraoral splints: a case report,springerlink, international journal of stomatology & occlusion medicine,pp 73-81
M.Rosentritt,M.behr,R.Lang,G.handel(2000)), Experimental design of FPD made of all-ceramics and fibre-reinforced composite,science direct,pp 159-165
Richard.S.Shwartz ,James W.Rrobbins(2004),review article, Post Placement and Restoration of EndodonticallyTreated Teeth: A Literature Review,pp
Stefan J.Paul,Dr. Med Dent,(2008),non metal posts-how do they fare in daily dentistry
Ahmed Mansour Ballo (2008) fiber-reinforced composites as oral implant material, Experimental studies of glass fiber and bioactive glass in vitro and in vivo pp 1-68
Ahmed Ballo, Timo Närhi, Pekka Vallittu, fiber reinforced composite for non-metallic dental implants,Department of Biomaterials, Institute of Clinical Sciences, The Sahlgrenska Academy, Gothenburg University, Gothenburg, Sweden,pp 871-892