Research & Publications
Empowering Tomorrow’s
Implantology through
Science & Technology
Posters & White Papers
Effect of Nano scale hydrophilic vs. Sub micron implant surface roughness on BIC in a Rabbit Tibia.
The aim of this study was to compare histologically and histomorphometrically , bone to implant contact of sand blasted and dual acid etched (SLA) dental implants (Micro scale) surface compared with super C roughness surface in a rabbit tibia model
Posters & White Papers
Clinical and radiological outcomes of a super-hydrophilic bioactive-surfaced implant. Preliminary results of a controlled clinical trial
"This clinical study aims to assess MultiNeO NH implant stability quotient (ISQ) values at the implant insertion (T0) and critical timepoints [30 (T30) and 45 days (T45) after surgery] comparing to traditional
moderately rough versus bioactive surface in D3/D4 bone. "
moderately rough versus bioactive surface in D3/D4 bone. "
Posters & White Papers
The effect of hydrophilic nano scale surface compared with a sandblasted acid etched surface on osseointegration
The aim of this study is to examine the influence of a hydrophilic nano-scale surface compared with a standard sandblasted-acid etched surface on the bone to implant contact (BIC) in a Rabbit Tibia Model