WHX Miami 2026 "June 17–19, 2026 Miami Beach Convention Center, USA"
EUROSPINE 2026 "October 7–9, 2026 Gothia Towers & Svenska Mässan, Gothenburg, Sweden"
MEDICA 2026 "November 16–19, 2026 Messe Düsseldorf, Germany"
WHX Dubai 2027 "January 25–28, 2027 Dubai Exhibition Centre, UAE"
AAOS 2027 "March 3–6, 2027 Venetian Convention & Expo Center, Las Vegas, Nevada, USA"
WHX Miami 2026 "June 17–19, 2026 Miami Beach Convention Center, USA"
EUROSPINE 2026 "October 7–9, 2026 Gothia Towers & Svenska Mässan, Gothenburg, Sweden"
MEDICA 2026 "November 16–19, 2026 Messe Düsseldorf, Germany"
WHX Dubai 2027 "January 25–28, 2027 Dubai Exhibition Centre, UAE"
AAOS 2027 "March 3–6, 2027 Venetian Convention & Expo Center, Las Vegas, Nevada, USA"
• Anatomically designed to closely match the natural axis of the femoral medullary canal.
• Collarless design to facilitate physiological load transfer.
• Available in a wide range of sizes, achieving excellent anatomical coverage for diverse patient
populations.
• Proximal three-dimensional wedge geometry ensures optimal metaphyseal fit and fill within
the femoral canal.
• The wedge-shaped design in the coronal, sagittal, and transverse planes provides excellent
resistance to subsidence and rotational forces, ensuring early implant stability.
• Three-dimensional tapered geometry promotes even stress distribution to the proximal femur,
reducing stress concentration and minimizing stress shielding.
• The single-radius proximal design utilizes arch-loading principles to enhance load-bearing
capacity and improve proximal fixation. The stem length is optimized to achieve reliable
metaphyseal and distal fixation.
• Highly polished neck region minimizes impingement and wear debris generation.
• Porous-coated proximal surface with a pore size of 100–300 μm promotes biological fixation
and long-term osseointegration.
• Hydroxyapatite (HA) coating enhances biocompatibility and effectively stimulates bone
ingrowth for durable biological fixation.
• Anatomically designed to closely match the natural axis of the femoral medullary canal.
• Collarless design to facilitate physiological load transfer.
• Available in a wide range of sizes, achieving excellent anatomical coverage for diverse patient
populations.
• Proximal three-dimensional wedge geometry ensures optimal metaphyseal fit and fill within
the femoral canal.
• The wedge-shaped design in the coronal, sagittal, and transverse planes provides excellent
resistance to subsidence and rotational forces, ensuring early implant stability.
• Three-dimensional tapered geometry promotes even stress distribution to the proximal femur,
reducing stress concentration and minimizing stress shielding.
• The single-radius proximal design utilizes arch-loading principles to enhance load-bearing
capacity and improve proximal fixation. The stem length is optimized to achieve reliable
metaphyseal and distal fixation.
• Highly polished neck region minimizes impingement and wear debris generation.
• Porous-coated proximal surface with a pore size of 100–300 μm promotes biological fixation
and long-term osseointegration.
• Hydroxyapatite (HA) coating enhances biocompatibility and effectively stimulates bone
ingrowth for durable biological fixation.
Technical Features
Design Type: Anatomical Triple-Wedge Cementless Femoral Stem
Fixation: Press-Fit Biological Fixation
Surface: Porous Coating / HA Coating
Neck Design: Collared / Collarless
Neck Angle: 135°
Primary Stability: Anti-Subsidence & Anti-Rotation
| Name | Material | Code | Size | Long |
|---|---|---|---|---|
| Cementless Femoral Stem | Titanium + Hydroxyapatite Coating |
SP3323-04080 | 8 | 115 |
| SP3323-04090 | 9 | 130 | ||
| SP3323-04100 | 10 | 140 | ||
| SP3323-04110 | 11 | 145 | ||
| SP3323-04120 | 12 | 150 | ||
| SP3323-04130 | 13 | 155 | ||
| SP3323-04140 | 14 | 160 | ||
| SP3323-04150 | 15 | 165 | ||
| SP3323-04160 | 16 | 170 |