- A large-format vial configuration of large-particle natural anorganic cancellous bone grafting xenograft 1.-g/4.0cc volume, derived from BSE-free Australian bovine bone, this 100% pure hydroxyapatite mineral matrix features an enlarged grain size and is specifically engineered to serve as a highly stable, slow-resorbing osteoconductive scaffold for major dental bone volume enhancements, such as maxillary sinus lifts and extensive jaw ridge reconstruction
Uses
- Major Maxillary Sinus Floor Elevations:
- Functions as the premier choice for filling wide sinus cavities via a lateral window approach, creating a rigid floor that safely lifts the Schneiderian membrane
- Extensive Ridge Augmentation:
- Reconstructs substantial horizontal or vertical alveolar ridge deficiencies spanning broad, multi-tooth edentulous spans prior to implant placement
- Large Multi-Rooted Molar Sockets:
- Fills wide extraction gaps left by molar extractions to firmly preserve the ridge contours and maximize future implant success
- Deep Structural Maxillofacial Defects
- Reconstructs expansive osseous voids and bony cavities caused by extensive cystectomies, apicoectomies, or severe facial trauma
- Guided Bone Regeneration (GBR):
- Serves as the high-volume substrate underneath barrier membranes to resolve peri-implant or severe dehiscence bone defects
Features
- Large Granule Sizing:
- Calibrated to an expanded particle diameter of 1.0mm - 2.0mm (1000–2000μm), providing higher structural loft and slower resorption compared to standard small granules
- High-Volume Vial Sizing (IOLG100):
- Contains exactly 1.0 grams of loose sterile particulates which provides a generous 4.0cc of clinical volume due to the larger, lower-density particle layout
- Biomimetic Macro & Micro-Porosity:
- Possesses a highly open-pored network that chemically and structurally matches mineralized human cancellous bone
- Pure Hydroxyapatite Composition:
- Composed entirely of a pure calcium phosphate mineral phase (100% pure HAp), completely freed from cellular organics via controlled thermal processing
Benefits
- Superior Space Maintenance:
- The macro-sized particles (1.0 - 2.0mm) possess excellent mechanical resistance against compression, preventing the soft-tissue flap or sinus membrane from collapsing the graft site
- Extended Biodegradation Profile:
- The large particle layout degrades at a much slower, controlled rate over 6 to 9 months, this prolonged presence provides a permanent matrix that allows host bone to steadily replace it
- Accelerated Angiogenesis:
- Oversized macropores easily accommodate early, rapid blood vessel network development (vascularization), supplying vital cells to the deepest layers of the graft
- Safe and Biocompatible:
- Thoroughly annealed to eliminate all protein materials. This makes it entirely non-immunogenic, preventing adverse soft-tissue reactions or graft rejection
- Hydrophilic Wetting:
- Rapidly pulls in patient blood or sterile saline, transforming the loose particles into a cohesive, easily scoopable paste that sticks cleanly within large surgical cavities
