Bioengineered Thread Design
Thread geometry designed to support high primary stability, intelligent force distribution, and favorable healing conditions.
Bioengineered Thread Design
Thread geometry designed to support high primary stability, intelligent force distribution, and favorable healing conditions.
Bioengineered Thread Design
Thread geometry designed to support high primary stability, intelligent force distribution, and favorable healing conditions.
Successful implant treatment requires more than mechanical fixation. It requires an understanding of how bone responds to compression, force distribution, blood supply, and healing.
BIO | Max was engineered to achieve high primary stability through intelligent design rather than excessive compression.
Its self-cutting, self-tapping thread geometry creates strong mechanical engagement while helping avoid unnecessary stress on the surrounding bone.
Stability Where It Matters
The crestal cortical bone has a more limited vascular environment than deeper cancellous bone. Excessive compression in this region may place additional stress on the local blood supply during healing.
BIO | Max was designed to achieve strong stability while helping reduce unnecessary crestal compression. The result is a balanced approach that combines mechanical performance with biological considerations.
Clinical Advantages
High Primary Stability
Designed for strong mechanical engagement during implant placement.
Reduced Crestal Compression
Engineered to help avoid unnecessary stress in the crestal cortical bone.
Intelligent Force Distribution
Designed to distribute functional forces across a broader area.
Accelerated Loading Ready
Designed to support modern loading protocols when clinically appropriate.
The BIO | Max Philosophy
BIO | Max was developed by implant surgeons, restorative clinicians, and engineers working toward a common goal: achieving stability through intelligent design while respecting the biology of bone healing.
