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INVAMED

Intramedullary tibial nail for tibial shaft fractures delivering stable axial and rotational control with proximal and distal locking.

CytroFIX® Intramedullary Tibia Nail — intramedullary tibial nail

CytroFIX® Intramedullary Tibia Nail

Intramedullary nail for tibial shaft fractures providing stable axial and rotational fixation.

Specialties

Orthopedics & Trauma

Key Features

  • Inserted within the tibial canal for direct load-sharing, often minimizing the need for extensive soft tissue dissection.
  • Offers a stable fixation method for high-energy fractures, comminuted patterns, and segmental defects.
  • Crafted from medical-grade titanium (e.g., Ti-6Al-4V ELI), known for superior strength, biocompatibility, and corrosion resistance.
  • Lightweight design reduces the risk of stress shielding, supporting more natural healing.
  • Anatomical curvature aligns with the natural tibial canal, aiding in easier insertion and a more secure fit.
  • Proximal and distal ends feature low-profile design elements to limit soft tissue irritation.

High-Purity Titanium Constructs for Tibial Fracture Stabilization

The CytroFIX® Intramedullary Tibia Nail by Cytronics (an INVAMED orthopedic division) is designed to address a wide spectrum of tibial fractures—from proximal and mid-shaft to distal segments. Engineered from high-purity titanium, this intramedullary nail provides enhanced structural support, minimal soft tissue disruption, and versatile locking options that accommodate both simple and complex fracture patterns.

Intramedullary Stability

  • Inserted within the tibial canal for direct load-sharing, often minimizing the need for extensive soft tissue dissection.

  • Offers a stable fixation method for high-energy fractures, comminuted patterns, and segmental defects.

High-Purity Titanium Construction

  • Crafted from medical-grade titanium (e.g., Ti-6Al-4V ELI), known for superior strength, biocompatibility, and corrosion resistance.

  • Lightweight design reduces the risk of stress shielding, supporting more natural healing.

Optimized Nail Geometry

  • Anatomical curvature aligns with the natural tibial canal, aiding in easier insertion and a more secure fit.

  • Proximal and distal ends feature low-profile design elements to limit soft tissue irritation.

Locking Versatility

  • Proximal and distal locking options accommodate static or dynamic fixation, variable hole alignments, and additional oblique angles for distal tibia fractures.

  • Surgeons can choose multi-planar locking screws to secure stable constructs for complex fracture lines.

Broad Clinical Indications

  • Suitable for tibial shaft fractures, segmental fractures, certain proximal or distal metaphyseal fractures, nonunions, and osteotomies requiring intramedullary support.

  • Often used in acute trauma settings (open or closed fractures) and in revision surgeries when extramedullary fixation has failed.

Contraindications

  • Inadequate canal diameter or shape preventing proper nail seating, active local or systemic infections, or patient comorbidities that contraindicate intramedullary fixation.

  • Conditions like severe osteoporosis, compromised vascular supply, or extensive bone loss should be evaluated carefully by the treating surgeon.

  • Inserted within the tibial canal for direct load-sharing, often minimizing the need for extensive soft tissue dissection.

  • Offers a stable fixation method for high-energy fractures, comminuted patterns, and segmental defects.

  • Crafted from medical-grade titanium (e.g., Ti-6Al-4V ELI), known for superior strength, biocompatibility, and corrosion resistance.

  • Lightweight design reduces the risk of stress shielding, supporting more natural healing.

  • Anatomical curvature aligns with the natural tibial canal, aiding in easier insertion and a more secure fit.

  • Proximal and distal ends feature low-profile design elements to limit soft tissue irritation.

  • Proximal and distal locking options accommodate static or dynamic fixation, variable hole alignments, and additional oblique angles for distal tibia fractures.

  • Surgeons can choose multi-planar locking screws to secure stable constructs for complex fracture lines.

  • Suitable for tibial shaft fractures, segmental fractures, certain proximal or distal metaphyseal fractures, nonunions, and osteotomies requiring intramedullary support.

  • Often used in acute trauma settings (open or closed fractures) and in revision surgeries when extramedullary fixation has failed.

  • Inadequate canal diameter or shape preventing proper nail seating, active local or systemic infections, or patient comorbidities that contraindicate intramedullary fixation.

  • Conditions like severe osteoporosis, compromised vascular supply, or extensive bone loss should be evaluated carefully by the treating surgeon.

Clinical Focus

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CytroFIX Tibia Nail | Intramedullary Tibial Fixation | INVAMED