Ng Wai Kiong

Title: Innovations of Ng Wai Kiong in Bone Cement Technology

Introduction

Ng Wai Kiong is a notable inventor based in Singapore, recognized for his contributions to the field of biomedical engineering. His innovative work focuses on enhancing the effectiveness of bone cement through advanced materials and formulations. With a patent to his name, he has made significant strides in improving antibiotic delivery systems.

Latest Patents

Ng Wai Kiong holds a patent for a "Nanostructured material formulated with bone cement for effective antibiotic delivery." This invention utilizes mesoporous silica nanoparticles and other nanostructured materials to create a polyacrylate-based bone cement. The formulation is designed to achieve an enhanced and controlled release of active ingredients, such as antibiotics. This innovative approach addresses the limitations of traditional polyacrylate-based bone cements, which typically exhibit low antibiotic release rates. His formulation allows for a sustained release of antibiotics over a period of 80 days, achieving a total drug release of 70%. In contrast, commercial antibiotic bone cements, like SmartSet GHV, only release about 5% of antibiotics on the first day, followed by negligible amounts thereafter. Additionally, the mechanical properties of his formulated bone cements are well retained, and they demonstrate good antibacterial properties with very low cytotoxicity to mouse fibroblast cells.

Career Highlights

Ng Wai Kiong is affiliated with the Agency for Science, Technology and Research, where he continues to develop innovative solutions in the biomedical field. His work has garnered attention for its potential to significantly improve patient outcomes in orthopedic applications.

Collaborations

Ng has collaborated with esteemed colleagues, including Shen Shou-Cang and Leonard Chia, to further advance research and development in his area of expertise.

Conclusion

Ng Wai Kiong's innovative contributions to bone cement technology exemplify the potential of advanced materials in enhancing medical treatments. His work not only addresses critical limitations in existing products but also paves the way for future advancements in the field.