Anatomic design of components
Complete offering of sizes, each available in right or left orientation
Size matched UHMWPE inlay assembly in 4 different thicknesses and anterior/neutral/posterior offsets
Designed to provide optimal contact area at all bone-implant interfaces
Intended to offer anatomic loading (non-stress shielding) at all bone-implant interfaces
Tibial and talar components are designed with a Plasma Titanium coating intended for cemented use only
Intuitive, reliable, and clinically validated state-of-the-art instrumentation
The Hintermann Series H2 Total Ankle Replacement System
is indicated in primary or revision surgery of ankle joints damaged by: systemic arthritis of the ankle
(e.g., rheumatoid arthritis, hemochromatosis), primary arthritis (e.g., degenerative disease), and secondary arthritis
(e.g., post-traumatic, avascular necrosis, provided enough of the talus is preserved to support the implant).
The Hintermann Series H2 is also indicated for patients with a failed previous ankle surgery and revision surgeries following
failed total ankle replacement or non-union/mal-union of ankle arthrodesis, provided sufficient bone stock is present.
In the US, the Hintermann Series H2 is intended for cemented use only.
The Hintermann Series H2® Total Ankle Replacement System (Hintermann Series H2) is a semi-constrained, total ankle replacement system consisting of a talar component, tibial assembly component, and a PE inlay assembly component. Prof. Beat Hintermann developed the Hintermann Series H2® based on his more than 20 years of experience implanting his successful Hintermann Series H3® ankle outside the US. Prof. Hintermann saw a need to develop a semi-constrained implant designed to address ankle instability. After implantation, the Hintermann Series H2 is constrained in a patient-specific optimized position to further support the surrounding tissues, providing stability against translational and rotational forces of the normal ankle joint. This device utilizes the identical surgical preparation and approach as the Hintermann Series H3, including the instrumentation.
The bearing surface of the Hintermann Series H2® talar component is anatomically shaped with a frusto-conical surface designed to allow for physiological talar motion through eversion with dorsiflexion to minimize stress on the soft tissues supporting the ankle joint. The medial and lateral rims help to guide movement of the UHMWPE bearing assembly while the anterior pegs help improve sagittal stability and positioning of the talar implant. A flat cut talar option is available for patients with less bone stock.
The Hintermann Series H2® tibial assembly includes a tibial slide and tray. The tibial component has a low profile anterior shield which is intended to provide rotational stability of the component and to prevent scarring and bone formation that may hinder joint motion. The superior peaks at the implant-bone interface are designed to provide anchoring in the subchondral bone to aid stability against translation and rotation. The tibial slide is inserted into the tibial tray to fix the anterior/posterior position of the poly inlay, while still allowing internal/external rotation until the surgeon has determined the proper final rotational alignment of the reconstructed ankle. Once the proper alignment is found, the locking screw is tightened to fix the rotational aspect of the poly inlay relative to the tibial implant.
The PE inlay assembly is composed primarily of ultra-high molecular weight polyethylene (UHMWPE) containing titanium alloy radiographic markers. The inlay is designed to be inserted into the tibial assembly anteriorly and is available in three offsets (anterior, neutral and posterior) to allow the surgeon to correctly reconstruct the ankle and ensure proper alignment between the tibia and talus.