Image of the Trident II Acetabular Cup System featuring: Trident II Clusterhole HA, Trident II PSL Clusterhole HA, Trident II Tritanium Multihole, Trident II Tritanium Clusterhole and Trident II Tritanium Solidback

Trident II Acetabular System

Have confidence in a powerful combination–a system that builds on the legacy that has defined our Trident brand for more than two decades, paired with the latest additive manufactured Tritanium In-Growth Technology or PureFix HA.

Trident II is created for case-to-case confidence that comes from building on a system backed by years of successful clinical data and reliable features such as the notable Trident Innerchange Locking Mechanism, Modular Dual Mobility (MDM), and our X3 precisely engineered polyethylene.1-5

Key benefits

Get bigger, faster!6


Table showing the shell sizes for Stryker Trident II 36mm, 36mm, 40mm; Zimmer Biomet G7: 32mm, 36mm, 36mm; Smith & Nephew R3: 32mm, 32mm, 36mm; Zimmer Biomet Continuum: 32mm, 32mm, 36mm; DePuy Synthes 32mm, 32mm, 36mm in comparison to maximum femoral head sizes of 48mm, 50mm, 52mm

Slim Shell Wall

Trident II features a slim shell wall. This allows for large femoral head size options and optimal poly thickness to potentially aid in greater range of motion, joint stability and lower risk of dislocation.6,7,8

Fixation expertise

Trident II Tritanium facts9,10,11 Image of a cancellous bone and Tritanium on the left. Call outs for Trident II Tritanium: Average pore size25 434 microns Average porosity25 60% Surface** porosity25 76% Coefficient of friction25,26 1.2 **Surface defined as a depth of up to 200 microns

Additive Manufacturing

Trident II Tritanium features a controlled network of pores, designed to mimic the complex characteristics of cancellous bone, and to promote long-term biologic fixation.12 

When it comes to fixation, have confidence in additive manufactured Tritanium.


Image of two shells: Trident II PSL Clusterhole HA and Trident Clusterhole HA

PureFix HA

Stryker’s proprietary hydroxyapatite (HA) coating has been a consistent feature of our hip portfolio since it was first implanted in 1987. Trident II HA continues this legacy and provides surgeons the ability to select the fixation that best suits their patient by offering two options: a hemispherical or peripheral self-locking (PSL) shell.

SOMA verified*

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Trident II leverages over 520+ CT scans* from Stryker’s SOMA (Stryker Orthopaedics Modeling and Analytics) technology. At the heart of SOMA is a large database of high resolution CT scanned bones from which size, shape, density, and inner and outer cortical boundaries can be drawn. Screw hole patterns for Trident II shells have been SOMA-verified to help achieve multiple screws in the safe zone of the acetabulum.13

*Based on 520+ CT scans


Instrumentation

From the hospital to the ASC, Trident II has you covered.

The streamlined rigid-container* compatible Trident II instrument trays can help reduce cost and complexity. Whether you choose to use the Mako system or manual instrumentation, Trident II instrument trays were designed with efficiency in mind to help free up space on your back table.

Two instrument trays, Core Reamers and General, are configured to address 99% of the patient sizes for implant bone preparation.14

*Trays compatible with Aesculap Configuration JN442 (base), JK48x (lid).

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Instrument features
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Hands free packaging15: Eliminate unnecessary contact to the porous surface of the implant prior to impaction.

JR_Hip_TridentII_08_Ball_Joint_Drill_Shaft

Ball Joint Drill Shaft: Designed for soft tissue clearance and variable drill angulation while eliminating the open coil design found in other common drill shafts.

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Keyed Shell Impactor: Designed to allow for simple shell attachment and quick adjustments to shell placement.

Mako enabled

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Combine the reliability of additive manufactured implants with the precision of Mako robotic-arm assisted surgery. Mako uses CT-based 3D modeling of the patient’s bony anatomy to provide you with a personalized surgical plan. Mako Total Hip enables surgeons to more accurately plan and place components, potentially reducing variability within the THA procedure and allowing for enhanced functional and clinical outcomes.16-23


Video

Additive Manufacturing of Trident II Tritanium

Trident II Tritanium Acetabular Shells are created from the micron-level up using proprietary computer modeling software. Our unique additive manufacturing process builds each component layer by layer using a laser to fuse titanium alloy powder. This process enables the creation of a single shell with complementing porous and solid structures which eliminates the need for surface coatings. Every shell is built as a complete unit – this, along with numerous quality checks, helps to ensure that all implants are created with the highest level of quality assurance.