BIO | Max is designed for clinical efficiency. Its self-cutting thread concept supports controlled placement and primary stability while helping clinicians work efficiently across a range of everyday implant indications.
Thread Geometry Designed for Placement Efficiency
BIO | Max self-cutting thread geometry is designed to support efficient implant placement, controlled advancement, and primary stability. The feature works as part of the broader surgical design: a thread profile created to help clinicians place implants efficiently while maintaining the control needed for predictable clinical workflows.
Clinical Advantages
Efficient Placement
Self-cutting geometry is designed to support smooth, efficient implant advancement.
Primary Stability
The thread concept supports mechanical engagement during placement.
Clinical Control
A design approach intended to help clinicians maintain control during everyday implant placement.
The Balance Advantage
A thread design that balances placement efficiency with the clinical control needed for predictable workflows.
Where It Fits in the Workflow
Self-cutting threads support the surgical phase of the BIO | Max workflow, helping connect treatment planning, osteotomy preparation, implant placement, and restorative planning into one practical system.
FAQ
What are self-cutting threads designed to do?
They are designed to support efficient implant placement and mechanical engagement during insertion.
Can we claim guaranteed primary stability?
No. Use safe wording such as “designed to support primary stability.” Actual clinical stability depends on case selection, bone quality, implant size, and clinician judgment.
How does this fit the balance concept?
It balances placement efficiency with the clinical control required for everyday implant workflows.