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Fibrafill® FLOW
$50
Bases for composite fillings of class I and II, fillings with minimally invasive preparations (occlusion fillings outside the area of direct load), fillings of class III and V, blocking of undercuts, pre-endodontic and post-endodontic restorations, core restorations, etc
2x 1mL (1.8 g) syringes, + 10 cannula tips
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Elevate your restorations with Fibrafill® FLOW, the advanced flowable composite that ensures exceptional durability by evenly distributing stress and minimizing cracks thanks to evenly distributed short fiber reinforcement.
Its unique fiber-reinforced formula delivers reduced risk of restoration failure and extending longevity while maintaining the handling properties of common flowable composite.
Short fiber reinforcement is a breakthrough in dental restoration because this combination connects strength (yet without unnatural rigidity) and versatility for lasting, high-quality result extending the effectiveness of conservative dental restoration techniques.
Why Do Restorations Fail?
Given the fact that the fracture is the most common reason for failure, understanding and following the biomechanical principles of restoring teeth is an essential approach to reduce the risk of failure and increase the clinical efficacy of composite restorations. Thanks to the unique structural features, using Fibrafill® products helps to follow these principles to reach biomimetic resilient restorations.
Manifestation of fracture is related to uneven distribution of stresses and stress concentration. If the load exceeds the load-bearing capacity, the fracture originates in the stress concentration areas and propagates until causing a functional failure of the restoration. Cuspal deflection is a good indicator of loss of the original biomechanics of hard dental tissues. Based on the study of Magne7,8, the deflection under static load is increasing along with the scale of restoration (from MO/OD to MOD). It has been shown that the filling does not restore the original biomechanics due to the loss of the original structural integrity (Fig. 1).
Stress-Concentrators Are to Blame!
Compromised tooth structure is prone to fracture due to stress concentration, manifested especially in the areas with a sudden change in geometry, i.e. where the bottom of the cavity verges on the cavity walls (Fig. 2). The phenomenon of stress concentration effect is proved in many studies describing stress distribution for enamel, dentin and composite restoration due to masticatory load and polymerization shrinkage.
Why Fibrafill and How Does It Work?
Considering large-scale restorations, the original biomechanics of the tooth cannot be functionally restored to their full extent. However, the choice of materials that includes consideration of durability and function can play an important role in terms of long-term clinical efficacy of the restorations. The design of Fibrafill® products was inspired by the aforementioned structural characteristics of an intact tooth.
1. Continuos Membrane
Reinforcing glass fiber membrane integrated into the discrete dose of bulk-fill composite Fibrafill® CUBE. Vertical load generates tension in the membrane which relieves vertical stress in the bottom layer (Fig. 4). The membrane prevents the effect of stress concentration, propagation or cracs in the restoration and secures marginal integrity of restoration by reducing the shear stress transferred to the adhesive joint. This includes the following material features:
2. Short-Fiber Reinforcement
Two types of short randomly oriented sub-micron fibers in Fibrafill® FLOW and Fibrafill® DENTIN composites create structural barriers against crack propagation (i.e. icreased fracture toughness). Cracks propagate very fast in the brittle materials that absorb relatively little energy prior to the fracture. As a result of fiber incorporation, propagation of cracks consumes much more energy and the material is able to resist continuous mastication forces and prevent fractures of the restoration and remaining hard dental tissues (Fig. 5).
Biomimetics Is The Way
Fibrafill® system provides unique solution inspired by nature as well as modern technologies. The technology is based on the reinforcing effect of both continual and dispersed fibers. Similarly to collagen protein strands that reinforce the structure of bones or steel skeleton that reinforces concrete constructions, specially treated inorganic fibers provide the required resistance to omposite based restorations.
Biomimetic restoration based on Fibrafill® system is represented by the large Class II restoration (Fig. 6). Fibrafill® FLOW is employed as a flowable liner to improve the marginal integrity of the restoration. Fibrafill® CUBE with continuous membrane is used to prevent stress concentration and support weakened tooth walls. Fibrafill® DENTIN is used to fill the remaining volume of the cavity under the occlusion layer. For a cuspal build-up and restoration of occlusal surface it is possible to use any conventional esthetic composite. Fibrafill® products are fully compatible with any dimethacrylate-based adhesive systems and resin composites. The products can be used individually in accordance with the intended purpose of use based on the particular clinical situation and preferences of a particular dentist.
FIBRAFILL Q&A IN PREPARATION
Our FAQ for Fibrafill is currently in preparation. In the meantime, if you have any questions, please use the form to reach out to us. Thank you for your patience!
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Follow the courses on the MIDOLAD portal
We have prepared detailed tutorials on our Dentapreg and Fibrafill product lines, covering, among other things, information on Fibrafill Flow.
Class II
Fibrafill CUBE + Fibrafill Flow. Courtesy of MDDr. Slavíček, Czechia
Class II
Fibrafill CUBE + Fibrafill Flow. Courtesy of MDDr. Slavíček, Czechia
Core Build-up
Courtesy of Dr. David Poiman, USA
