The Artman Implant Bone Collector 9mm with Filter is designed to support efficient autogenous bone collection during dental implant, oral surgery, and bone grafting procedures. Engineered for controlled surgical aspiration, this instrument helps clinicians collect viable bone particles while maintaining procedural visibility and workflow efficiency. The integrated filter system assists in separating and retaining harvested bone material for grafting applications, making it a practical solution for implantology and regenerative procedures.
Manufactured from premium medical-grade stainless steel, the bone collector provides excellent durability, corrosion resistance, and long-term reliability under repeated sterilization cycles. Its ergonomic angled design improves intraoral access and handling during surgical procedures, while the smooth finish allows easier cleaning and maintenance after use.
Key Features
- Integrated filter system for bone particle collection
- Designed for implant and bone grafting procedures
- Premium medical-grade stainless steel construction
- Ergonomic angled profile for improved access
- Smooth surface for efficient cleaning
- Fully autoclavable and reusable design
Applications
Ideal for dental implant surgery, oral surgery, bone graft harvesting, regenerative procedures, and surgical aspiration applications.
Specifications
- Collector Size: 9mm
- Material: Stainless Steel
- Filter Type: Integrated Bone Collection Filter
- Design: Angled Surgical Aspirator
- Reusable: Yes
Care Instructions
Clean thoroughly after each procedure, sterilize according to standard autoclave protocols, and store in a clean, dry environment to maintain optimal instrument performance.
About Artman Instruments
Artman Instruments manufactures FDA-approved dental and surgical instruments in a GMP-certified facility, ensuring consistent quality, precision, durability, and compliance with professional medical standards.
Choose Artman Bone Collectors for reliable bone harvesting performance, surgical precision, and dependable clinical efficiency during implant procedures.
