METAL BRACKETS
Synergy® Style Brackets
Synergy® Brackets
Synergy® brackets are the most versatile brackets on the market. The six-wing design provides more treatment options than conventional twin brackets with added features that dramatically reduce friction and total treatment time.
Material: 17-4 PH stainless steel
Base: 316L stainless steel 80-gauge foil mesh
Prescriptions: SWLF®, Roth, Bench, Std. Edgewise, Ricketts® Bioprogressive® Classic, Ricketts® Bioprogressive® Original, Trimorphic® Brachyfacial, Trimorphic® Mesofacial and Trimorphic® Dolichofacial
Slot Size: .018 & .022
Features and Benefits
- Six-wing design provides multiple ligation options to maximize tooth-by-tooth control via Friction Selection Control (FSC)
- Rounded arch slot walls decrease friction, simplifies wire insertion and keeps wire from binding
- Rounded arch slot floor reduces friction with only 2 points of contact
- Two-piece 80-gauge mesh pad delivers consistent, strong and predicable bonding
Synergy R® Brackets
Synergy R® brackets, in addition to the six-wing design of Synergy®, adds the convenience of a convertible cap design for enhanced treatment options on the cuspids and bicuspids.
Material: 17-4 PH stainless steel
Base: 316L stainless steel 80-gauge foil mesh
Prescriptions: SWLF®
Slot Size: .018 &.022
Features and Benefits
- Convertible cap allows for passive treatment options without the use of ligatures
- Full slot coverage of the cap provides maximum rotational control
- Ability to utilize fun colored ligatures when desired without increasing friction
Synergy FX® Brackets
Synergy FX® Brackets are made as a one-piece design with integrated base for additional strength.
Material: 316L stainless steel
Base: 316L stainless steel 80-gauge foil mesh
Prescriptions: SWLF® & Roth
Slot Size: .018 & .022
Features and Benefits:
- One-piece design for optimal bracket strength
- Low profile design provides patient comfort with the treatment flexibility only Synergy style brackets can offer
- Six-wing design on lower anterior teeth for maximum biomechanical options
