Bone Void Filler

Magnesium-based bone fillers or bone substitutes provide a number of benefits when compared to traditional calcium-based options. Magnesium is known for its biocompatibility and its ability to promote the healing process by stimulating cell growth, which helps to restore tissue and bones more quickly. Magnesium does not need to be replaced as often as calcium-based fillers, so it can last longer in the body and reduce the need for additional treatments. It is also absorbed more slowly than other materials, making it ideal for long-term use in cases where a structural filler is needed. In addition, magnesium has been shown to be less prone to infection than other materials due to its low toxicity levels. Finally, magnesium-based products are generally less expensive than calcium-based options, making them a more affordable option for bone void fillers.  

 

By using magnesium-based bone fillers or bone substitutes, patients can expect to experience faster healing times and fewer complications associated with the procedure. Additionally, these products are becoming increasingly popular as an effective alternative to traditional calcium-based bone void filler materials. In conclusion, magnesium-based bone fillers provide many advantages over traditional calcium-based options and are quickly becoming a preferred choice for treating bone voids.  

 

With their ability to promote tissue regeneration and reduce the need for additional treatments or replacements, they may be an ideal solution for those looking for a more effective and economical bone filling option.  Therefore, it is important to consider the benefits of magnesium-based bone fillers when choosing a bone void filler material.  By doing so, patients can rest assured that they are selecting a safe and effective product with improved healing times and cost savings.

 

Bone Solutions, Inc., we are dedicated to improving patient outcomes through superior magnesium-based orthopedic implant solutions. Our implants are biologically safe, fully resorbable, and have similar mechanical properties of human bone. Contact us to learn more!