HOW DOES THE LEVEL OF BONE MINERALISATION AFFECT THE DEPTHS PROBED BY SPATIALLY OFFSET RAMAN SPECTROSCOPY

Development of more effective diagnostic and therapeutic solutions is vital to tackling the growing challenge of bone diseases and disorders in aging societies. Spatially offset Raman spectroscopy (SORS) enables the chemical specificity of conventional Raman spectroscopy to be combined with sub-surface probing. SORS has successfully been applied to transcutaneous investigations of underlying bone and shows great potential to become an in vivo tool for non-invasive diagnosis of various bone conditions.The volume within the complex hierarchical bone tissue probed by SORS depends on the specimen's optical properties. Understanding the actual sampling depth is important to correctly assign detected chemical changes to specific areas in the bone. This study explores the hypothesis that the effective Raman signal recovery from certain depths requires different spatial offsets depending on the bone mineralisation.SORS depth investigations were conducted on three bones with significantly different mineralisation ...