Add to ORKGNon-invasive in vivo diffuse optical characterization of human bone opens a new possibility of diagnosing bone related pathologies. We present an in vivo characterization performed on seventeen healthy subjects at six different superficial bone locations: radius distal, radius proximal, ulna distal, ulna proximal, trochanter and calcaneus. A tailored diffuse optical protocol for high penetration depth combined with the rather superficial nature of considered tissues ensured the effective probing of the bone tissue. Measurements were performed using a broadband system for Time-Resolved Diffuse Optical Spectroscopy (TRS) to assess mean absorption and reduced scattering spectra in the 600–1200 nm range and Diffuse Correlation Spectroscopy (DCS...
Bone diseases and disorders are a growing challenge in aging populations; so effective diagnostic an...
Diffuse optical techniques were used to measure hemodynamics of tissues non-invasively. Spectroscopy...
The human abdominal region is very heterogeneous and stratified with subcutaneous adipose tissue (SA...
Non-invasive in vivo diffuse optical characterization of human bone opens a new possibility of diagn...
<div><p>Non-invasive <i>in vivo</i> diffuse optical characterization of human bone opens a new possi...
Non-invasive in vivo diffuse optical characterization of human bone opens a new possibility of diagn...
Non-invasive in vivo diffuse optical characterization of human bone opens a new possibility of diagn...
We present an in-vivo characterization performed on 53 subjects in 6 different superficial bone tiss...
The ability to non-invasively monitor in-vivo the human muscle and adipose tissue is of great practi...
Reduction in scattering, high absorption, and spectral features of tissue constituents above 1000 nm...
In vivo absorption and reduced scattering spectra of the human calcaneous from 650 to 1000 nm were a...
Objective: Poor vascular health is associated with reduced bone strength and increased risk of fragi...
Near-infrared spectroscopy is a well-established technique that has been applied to a variety of med...
Bone diseases and disorders are a growing challenge in aging populations; so effective diagnostic an...
Diffuse optical techniques were used to measure hemodynamics of tissues non-invasively. Spectroscopy...
The human abdominal region is very heterogeneous and stratified with subcutaneous adipose tissue (SA...
Non-invasive in vivo diffuse optical characterization of human bone opens a new possibility of diagn...
<div><p>Non-invasive <i>in vivo</i> diffuse optical characterization of human bone opens a new possi...
Non-invasive in vivo diffuse optical characterization of human bone opens a new possibility of diagn...
Non-invasive in vivo diffuse optical characterization of human bone opens a new possibility of diagn...
We present an in-vivo characterization performed on 53 subjects in 6 different superficial bone tiss...
The ability to non-invasively monitor in-vivo the human muscle and adipose tissue is of great practi...
Reduction in scattering, high absorption, and spectral features of tissue constituents above 1000 nm...
In vivo absorption and reduced scattering spectra of the human calcaneous from 650 to 1000 nm were a...
Objective: Poor vascular health is associated with reduced bone strength and increased risk of fragi...
Near-infrared spectroscopy is a well-established technique that has been applied to a variety of med...
Bone diseases and disorders are a growing challenge in aging populations; so effective diagnostic an...
Diffuse optical techniques were used to measure hemodynamics of tissues non-invasively. Spectroscopy...
The human abdominal region is very heterogeneous and stratified with subcutaneous adipose tissue (SA...