The characteristics of ICX-SwissBone®

Innovation is the key to the success of ICX-SwissBone®, a new hybrid bioactive bone graft substitute specifically designed for bone regeneration in reconstructive surgery. ICX-SwissBone® is produced by combining a bovine mineral bone matrix with bioactive resorbable polymers and collagen fragments.
This new composite biomaterial concept promotes rapid growth of the patient’s cells into ICX-SwissBone® as its biopolymers degrade, allowing for desired integration and osteogenesis.

• Step 1:
  Regeneration of periodontal bone defects
• Step 2:
  Please save the digitally designed bone block as .STL files and send it to our email: icx-swissbone@medentis.de
• Step 3:
  You will receive the sterile bone graft back from medentis by UPS approx. 15 business days later.

Literature:

Innovation is the key to the success of ICX-SwissBone®, a new hybrid bioactive bone graft substitute specifically designed for bone regeneration in reconstructive surgery. ICX-SwissBone® is produced by combining a bovine mineral bone matrix with bioactive resorbable polymers and collagen fragments.
This new composite biomaterial concept promotes rapid growth of the patient’s cells into ICX-SwissBone® as its biopolymers degrade, allowing for desired integration and osteogenesis.

Socket Preservation Using a Small Particulate Xenograft: A Case Report (PDF)

Improving Bovine Bone Mechanical Characteristics for the Development of Xenohybrid Bone Grafts (PDF)

Custom-Made Horizontal and Vertical Maxillary Augmentation with Smartbone® On Demand (PDF)

Three-Dimensional Craniofacial Bone Reconstruction With SmartBone on Demand (PDF)

Positioning of Contextual Implant along with a sinus Lift (PDF)

COMPOSITE POLYMER-COATED MINERAL SCAFFOLDS FOR BONE REGENERATION: FROM MATERIAL CHARACTERIZATION TO HUMAN STUDIES (PDF)

Positioning of a Contextual Implant Along with a Sinus Lift with Smartbone® Microchips of Composite Heterologous-Synthetic Bone (PDF)

Bone grafts: which is the ideal biomaterial? (PDF)

A Radiological Approach to Evaluate Bone Graft Integration in Reconstructive Surgeries (PDF)

A RadiolNew bone formation after transcrestal sinus floor elevation was influenced by sinus cavity dimensions: A prospective histologic and histomorphometric study (PDF)

Clinical Case Employing Two Dierent Biomaterials in Bone Regeneration (PDF)

Evaluation of custom made xenogenic bone grafts in mandibular alveolar ridge augmentation versus particulate bone graft with titanium mesh (PDF)

The Few Who Made It: Commercially and Clinically Successful Innovative Bone Grafts (PDF)

Xeno-Hybrid Composite Scaold Manufactured with CAD/CAM Technology for Horizontal Bone-Augmentation in Edentulous Atrophic Maxilla: A Short Communication (PDF)

Composite polymer-coated mineral grafts for bone regeneration: material characterisation and model study (PDF)

Management of a Failed Implant Site with Guided Bone Regeneration, Reimplantation, and Root Submergence Technique (PDF)

The Influence of Residual Alveolar Bone Height on Graft Composition after Maxillary Sinus Augmentation Using Two Dierent Xenografts: A Histomorphometric Comparative Study (PDF)

Clinical and Histological Evaluation of Socket Reservation using Smart-Bone® (PDF)

Simulated Performance of a Xenohybrid Bone Graft (SmartBone®) in the Treatment of Acetabular Prosthetic Reconstruction (PDF)

RECONSTRUCTION OF THE ZYGOMATIC BONE WITH SMARTBONE®: CASE REPORT (PDF)