Mo-Sci Blog

A variety of bone graft substitutes have been used in the search to find an alternative to bone that provides a rapid and strong repair. Calcium phosphate closely resembles the mineral components naturally present in bone tissue, and so represents an attractive option for a synthetic bone filling material.

What is bioactive glass? Mo-Sci CEO, Ted Day, shares his perspectives on the past, present, and future of this life-changing material.

Road markings are an essential safety feature. Glass beads significantly increase the reflectivity of paints on the road, which in turn significantly improves their visibility and consequently driver and pedestrian safety.

New glass technology has been tailored for the DOE’s need to properly process molybdenum-rich nuclear waste for long-term storage and disposal.

Porous hollow glass microspheres can encapsulate and deliver drugs more efficiently and provide protection from biological compounds that may interfere with drug availability.

Bone grafts typically require bone harvested from another part of the patient’s body (autograft) or from a tissue donor (allograft). But artificial bone grafts made of bioactive glass are becoming more favorable due to their availability and range of properties.

Photosensitive glass is a highly promising material for the production of components for a number of complex microsystems. High aspect ratio microstructures can be produced using only slightly modified semiconductor equipment and relatively low manufacturing costs are possible with small scale production.

Tooth fillings that utilize bioactive glass composites have been shown to reduce bacterial colonization and strengthen composite fillings. This translates to a reduced rate of decay and increased lifetime of the restoration.

With recent technological advances, it is now possible to coat metal implants with bioactive glass. Implants coated in this way have demonstrated great advantages in terms of both patient safety and recovery.

Vascularization is the key limitation to regenerating tissue after trauma. Recently, tissue scaffolds made of bioactive glass have been shown to promote the blood vessel formation that is so important for supporting new tissue growth.