The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
The Functional Arch Form
The functional arch form must have the proper shape for optimal overcorrection. From a functional occlusion standpoint, the arch form should accommodate joint-dictated movement patterns. This means that both Tru-Arch forms are more broad and flat across the incisors. Additio..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..
Super Elasticity
Copper NiTi wires contain the alloy combination that allows for early engagement, without deformation, while also providing the continuous, gentle unloading forces that have been optimized for alignment.
-
27°C Super-Elastic Copper NiTi
Generates constant unloading forces that c..